#PolymerCoated
Text
polymer coating is applied to the surface of a fabric. A polymer is a synthetic compound. polymer coating on fabric is the best option to ensure the material doesn't get ruined.
We are masters in all types of coating services like Teflon®️ coating, Food grade coating, Nonstick coating, Xylan®️ coating, Halar coating, PTFE coating, PVC coating and more.
📞contact number :+91 94809 55999
📩Mail Id :[email protected]
🌍Website :https://www.ananyacoatings.com/
Follow us on:
https://www.linkedin.com/in/ananya-fluoro-polymer-coatings-63342124b/
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DCD-Approved Sandwich Panels in the UAE
Our sandwich panels are made with different foam cores based on customer choice – Polyurethane (PU) and Polyisocyanurate (PIR). We manufacture both flat & corrugated panels with huge design flexibilities. The length, thickness, surface coating, & RAL colours can be personalised according to the needs of the client. It is available in mill-finish/pre-painted form. Also, we are one of the very few suppliers in the UAE manufacturing the thinnest sandwich panel dimensions (25mm & 26mm).
The United Arab Emirates is our local market. For the ultimate customer satisfaction, we provide doorstep delivery services. Presently, we supply all over the UAE, Oman (Nizwa, Sohar, Ibri, Salalah, Muscat, and Barka), Saudi, Kuwait, Qatar, Iraq, Bahrain, Sri Lanka, and Yemen.
Mail us at [email protected] to get a valid price quotation. Kindly mention the specifications and order quantity while mailing us.
https://ghoshgroups.com/sandwich-panel-supplier-manufacturer-uae-oman-saudi-iraq-kuwait/
#PolymerCoated#PU#PIR#CorrugatedSheet#SandwichPanels#MetalSheets#InsulatedPanels#DCDApproved#PVDFCoatedPanels#PolyesterCoatedPanels#GalvanizedSteelCoil
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CHALLENGES AND SOLUTIONS FOR OIL AND GHEE PACKAGING
Edible oils, ghee and hydrogenated fats (vanaspati) are an integral part of the Indian diet. India is the leading importer of vegetable oils which usually comein expensive tin containers and galvanised iron drums, and then get sold in loose form by retail vendors.This provides scope for adulteration with cheaper oils - a practice that has been the cause of ill health in India and other parts of the world.
Special considerations for oil & ghee packaging
Oils and fats are adversely affected by humidity, oxygen, temperature, light, tainting and are prone to various types of deteriorations. Colour and vitamin degradation can occur due to exposure to UV light and is further accelerated by oxygen.
Ghee too, being a product with very low moisture content needs to be protected from chemical spoilage activated by oxygen, light, humid climates and high temperatures.Off-flavours occur due to oxidative rancidity and hydrolytic rancidity caused by oxygen and moisture respectively.
The packaging of these products is therefore of utmost importance. Excellent quality ghee and oil packaging products help not only in preventing leakage and adulteration but also keep the products fresh and free from bacteria and germs for long length of time.
Improperly packed oil and ghee absorbs foreign odours, oxygen and water vapour.Proper packaging serves to retard deterioration, prevent social hazards of adulteration and the possibility of under-weighing.
Trends in ghee & oil packaging
Storage stability and shelf life of packaged oils/ghee are critical concerns for manufacturers and marketers.It is extremely important that, whatever packagingmaterial is used, it should be food grade andnon-toxic. HDPE bottles, PP laminates, Polymercoated cellophane, nylon-6 polymer or food gradePVC and their laminates, glass bottles, PET bottles,PP bottles are being effectively tapped for packingof ghee and edible oil.
Some of the packaging options being used include:
Rigid containers (metal/glass/plastic)
These are generally used for large institutional packs. Glass provides excellent protection, being one of the most inert materials. PET bottles have excellent clarity, are odour-free and have good gas barrier properties. They are accepted internationally for ghee packaging and oil packaging. In fact,plastics are widely replacing glass (heavy weight and fragile) and metal (costly) due to theirlow cost, light weight, strength, barrier properties and availability in different shapes and sizes.
Semi-rigid packages
These include plastics in flexible, semi-rigid forms such as lined folding cartons, foil-based carton, nylon-based bag-in-box with tap, etc.
Flexible Pouches
The high price of rigid/semi-rigid packs, and lack of assurance on quality and quantity in buying loose oil have led to the popularity of flexible pouchesas retail packs - especially for smaller SKUs. Flexible pouches are suitable for high-speed FFS machines and offer optimum balance between cost and benefits.They entail lower handling and storage costs; they are available in different forms such as pillow pouch, flat pouch, three side seal pouch, 4 side seal pouch, standup pouch, gusset pouch and more.
Oil and ghee packaging solutions from Nichrome
With four decades of experience in the flexible packaging industry, and 7000+ installations across India and the world, Nichrome can proudly claim to be the Oil packaging machine manufacturer who delivers outstanding single-source convenience and infinite possibilities in integrated, automated packaging solutions.
Nichrome offers a wide range of both HFFS and VFFS cooking oil packaging machines, so customers can find the oil filling machine that suits their individual needs and budget. The offerings include:
Filpack Servo SMD
Filpack Servo SMD is a durable, heavy-duty VFFS oil pouch packaging machine, with touch screen HMI panel and PLC that controls operations. It occupies less floor space and has an enclosed SS cabinet for hygienic operation.
Filpack Servo SMD oil pouch packing machine comes with twin head construction with independent head operation so you can pack two different products and quantities simultaneously. The format offered is the 3 side seal pouch for oil.
T-Series HFFSoil filling machines
This series of horizontal-form-fill-seal machines incorporate the latest linear technology from Europe. The HFFS cooking oil packaging machines, T-110, T-140 and T-170, are PLC based machines with touch screen interface. Their compact and versatile design offers both single and perforated chain of pouches with quick and easy changeover. Well-designed duplex modules are available for higher outputs.
The T-Series can pack between 5 and 250 cubic centimetres in the Simplex version and between 5 and 90 cubic centimeters in the higher-output Duplex mode. The rated output for the Simplex version is 100 packs per minute while the Duplex version delivers 200 packs per minute.
Alternative pouch formats include the four-side seal and zipper pouch formats as well as a contour/profile pouch format. The packaging materials for the HFFS automatic oil filling machines are heat sealable laminates like PET/PE, Paper/Alu-foil/PE or co-extruded films.
Conclusion
Nichrome is India's leading edible oil filling machine manufacturer and ghee packing machine manufacturer with decades of experience and technology knowhow to its credit. Besides a whole gamut of liquid packaging machines for diverse applications in Food, Pharma and other industries, Nichrome also offers secondary and tertiary packaging solutions . So, whether you are looking for a high-performance, automatic oil filling machine or a complete,integrated packaging system , talk to Nichrome.
#edible oil filling machine manufacturer#ghee packing machine manufacturer#liquid packaging machines#secondary and tertiary packaging solutions#automatic oil filling machine#integrated packaging systems.
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making the leap to rapid tool making.
Rapid prototyping of tools and molds provides an economical alternative to traditional processing.Rapid prototyping of tools and molds provides an economical alternative to traditional processing.Quick knife making (RTM)Rapid prototyping technology (RP)Technology, and its application in tool and mold manufacturing, is becoming an increasingly attractive alternative to traditional processing.The shift from traditional processing methods to RTM is not so much a step as a leap.aided design (CAD)from drafting.RP, also known as Free shape manufacturing, uses an additional process to create physical geometry directly from a CAD file, replacing the method of removing the material.There are usually several steps required for RTM to create a tool or mold.
In the indirect method of RTM, the RP creates a pattern for forming the tool-For example, after investment casting is stereo printing.Another type of RTM direct production tool-For example, the adhesive is printed on the metal powder and then sintering and penetration.When implemented in a parallel engineering environment, RTM has the potential to significantly increase the speed and cost of product development.Using computer-Assisted design, electronic data transfer, process simulation, and RTM technologies can reduce mold costs and development times by 75% or more.RTM is particularly useful when tool geometry makes traditional machining difficult due to part complexity or specific geometric features such as undercutting.
RTM achieves high by reducing tool costsBatch processes, such as injection molding, are competitive at lower production volumes.The benefits are the biggest for the mass production and value reduction sectors --to-Consumer electronics, auto parts, toys and other markets.Toy manufacturers prefer to develop and distribute a large number of products early in the fall, allowing the market to decide which products to produce in bulk and rapidly increase the production of those products that are successful on store shelves.This approach requires the ability to quickly produce tools and molds for award-winning toysIt is an ideal application of RTM technology.The main RP technologies include stereo forming, selective laser sintering, 3-D.
Printing, modeling of molten deposition, manufacturing of laminated objects and soldier processes.In stereo printing developed by 3D SystemsCuring photosensitive resin with UV laser.Commercial selective laser sintering of DTMAustin, Texas.Involving laser-Induced fusion of polymer or polymercoated powder.In 3-D printing developed by MIT, adhesive is inkSpray on the powder.
Modeling of molten deposition developed by StratasysEden Prairie in Minnesota, Involving hot plastic extrusion.Manufacture of laminated objects developed by HelisysIn Torrance, California.The paper is cut by laser.Soldier, developed by stereo AmericanIn Warren, Michigan.UV curing involving a layer of resin at a time (Other techniques deal with one point in one layer at a time).
Alternative RP technologies such as inkJet Printing of wax or resin (Not a binder), Is being developed at the beginning-Ups such as Sanders and solligan, E.And other Fortune 500 companies.I.DuPont De in Moore the companyand IBM Corp.And universities like MIT, the University of Texas at Austin and Carnegie Mellon.
Several plastic manufacturers including 3m Company, Ciba-Geigy Ltd.And United signal Corporation, Develop and commercialize professional materials for RP.These technologies are being used by many manufacturing companies and service bureaus to manufacture prototype parts for design review and testing in product development and as a step towards production tools.While the US is leading the RP industry, there are significant developments in Europe, Israel and Japan.For example, Teijin Seiki in Osaka, Japan produced UV curing resin for stereo molding, producing parts with great improvement in structural performance, which for mold or low for prototype manufacturing processMass production.
RP annual revenue of about $0.billion, worldwide growth at more than 30% per year.RTM is still in the growth stage.It has the potential to change the basis of competition, but it is not fully embodied in the tool yet --making process.At present, many technologies such as QuickCast, 3D printing and RapidTool have been successfully developed.
Rapid prototyping is an indirect process in which stereoscopic molding creates a mold geometry or pattern in the cellular structure of the polymer material.The pattern was then cast into a metal mold.Many traditional processes and materials, such as epoxy, rubber, plaster and ceramics, can form molds from patterns.D printing and quick tools are a direct process.D printing of mold geometry in metal powder with polymer adhesive, then sintering and penetration to form metal mold.
RapidTool involves selective laser sintering of polymersThen penetrate the coated metal powder forming the metal mold.Tools that RTM is being used to create high prototypesVolume process and lowMass production applications.Ford Motor Co.For example, use RTM to produce metal molds for plastic parts on its browser line.Bose Corp.
Use RTM to create parts for a successful bid package for the car app.Pitney Bowles Inc.Use this technology to make chemical bonded ceramic molds for the base of the new stamping machine.Using RTM, DePuy USA produces tools for hip handle implants.Other methods for RTM include steam deposition and spraying processes for depositing metal layers onto physical geometry, which may have been created by one of the RP technologies or other processes.
The layer forms the surface of the mold, supported by cast epoxy or metal.RTM is not a worry without growth.The technology has limitations in accuracy, speed and capability, limiting its current prototype and lowvolume tooling.These restrictions are being addressed in development efforts and are expected to be eased in the near future.As the technology becomes more user-friendly and robust, there will be no need for such a high level of expertise in RTM.
Traditional toolsIn order to cope with the threat of RTM, manufacturing technology may be improved, just like the improvement of automotive steel plates, as the car body is increasingly replaced by reinforced plastic.General purpose plastic for work, Pittsfield, quality.Other companies said that by improving process management and concurrency (Not in order)Tool development.Computer numerical control and engineering data management are improving the ability of traditional metal removal processes for manufacturing tools.Industrial response to manufacturer of RTM original equipment (OEMs)Ford, Texas Instruments, United Technologies and DePuy are pushing the technology to parts suppliers and tool manufacturers.
Leading manufacturers of tools and molds such as Santin Engineering Inc.Laserform Inc.Technology Products CompanyRTM technology is implemented.These early adopters are able to provide early process validation and faster turnaround for their customers.Other parts suppliers and tool manufacturers will find that they need to develop RTM technology to meet the needs of more OEM support for product and process development.
Tool-and die-Enterprises should develop a consistent business and technology plan based on changing customer needs, industry structure and existing technologies.They may choose to support the customer for "one-stop shopping.This goal requires capital and starts investing in RTM and several other product development features.This investment in product development and rapid tool manufacturing should be closely coordinated with strategic customers to ensure consistent expectations of product development roles and responsibility, as well as compatibility of hardware and software.Alternatively, tool and mold manufacturers can choose a narrower business goal, choose to be independent of specific customers, and make corresponding different and more modest technology investments.
This strategy may include working with other organizations to meet the needs of customers.Some RTM methods, such as QuickCast, use several different technologies, each of which requires different capital equipment and expertise.In this case, RTM may be best implemented by a company team.Ford, for example, worked with Laserform to produce stereo printing for Howmet Corp.Used for investment casting, ATC Nymold for tool manufacturing for production of browser wiper module cover mold.
Depending on the resources and expected usage, the selected process can be implemented in an internal or external service company.Peter Hilton is the president of technology strategy consulting, based in Concord, Mass.
0 notes
Text
making the leap to rapid tool making.
Rapid prototyping of tools and molds provides an economical alternative to traditional processing.Rapid prototyping of tools and molds provides an economical alternative to traditional processing.Quick knife making (RTM)Rapid prototyping technology (RP)Technology, and its application in tool and mold manufacturing, is becoming an increasingly attractive alternative to traditional processing.The shift from traditional processing methods to RTM is not so much a step as a leap.aided design (CAD)from drafting.RP, also known as Free shape manufacturing, uses an additional process to create physical geometry directly from a CAD file, replacing the method of removing the material.There are usually several steps required for RTM to create a tool or mold.
In the indirect method of RTM, the RP creates a pattern for forming the tool-For example, after investment casting is stereo printing.Another type of RTM direct production tool-For example, the adhesive is printed on the metal powder and then sintering and penetration.When implemented in a parallel engineering environment, RTM has the potential to significantly increase the speed and cost of product development.Using computer-Assisted design, electronic data transfer, process simulation, and RTM technologies can reduce mold costs and development times by 75% or more.RTM is particularly useful when tool geometry makes traditional machining difficult due to part complexity or specific geometric features such as undercutting.
RTM achieves high by reducing tool costsBatch processes, such as injection molding, are competitive at lower production volumes.The benefits are the biggest for the mass production and value reduction sectors --to-Consumer electronics, auto parts, toys and other markets.Toy manufacturers prefer to develop and distribute a large number of products early in the fall, allowing the market to decide which products to produce in bulk and rapidly increase the production of those products that are successful on store shelves.This approach requires the ability to quickly produce tools and molds for award-winning toysIt is an ideal application of RTM technology.The main RP technologies include stereo forming, selective laser sintering, 3-D.
Printing, modeling of molten deposition, manufacturing of laminated objects and soldier processes.In stereo printing developed by 3D SystemsCuring photosensitive resin with UV laser.Commercial selective laser sintering of DTMAustin, Texas.Involving laser-Induced fusion of polymer or polymercoated powder.In 3-D printing developed by MIT, adhesive is inkSpray on the powder.
Modeling of molten deposition developed by StratasysEden Prairie in Minnesota, Involving hot plastic extrusion.Manufacture of laminated objects developed by HelisysIn Torrance, California.The paper is cut by laser.Soldier, developed by stereo AmericanIn Warren, Michigan.UV curing involving a layer of resin at a time (Other techniques deal with one point in one layer at a time).
Alternative RP technologies such as inkJet Printing of wax or resin (Not a binder), Is being developed at the beginning-Ups such as Sanders and solligan, E.And other Fortune 500 companies.I.DuPont De in Moore the companyand IBM Corp.And universities like MIT, the University of Texas at Austin and Carnegie Mellon.
Several plastic manufacturers including 3m Company, Ciba-Geigy Ltd.And United signal Corporation, Develop and commercialize professional materials for RP.These technologies are being used by many manufacturing companies and service bureaus to manufacture prototype parts for design review and testing in product development and as a step towards production tools.While the US is leading the RP industry, there are significant developments in Europe, Israel and Japan.For example, Teijin Seiki in Osaka, Japan produced UV curing resin for stereo molding, producing parts with great improvement in structural performance, which for mold or low for prototype manufacturing processMass production.
RP annual revenue of about $0.billion, worldwide growth at more than 30% per year.RTM is still in the growth stage.It has the potential to change the basis of competition, but it is not fully embodied in the tool yet --making process.At present, many technologies such as QuickCast, 3D printing and RapidTool have been successfully developed.
Rapid prototyping is an indirect process in which stereoscopic molding creates a mold geometry or pattern in the cellular structure of the polymer material.The pattern was then cast into a metal mold.Many traditional processes and materials, such as epoxy, rubber, plaster and ceramics, can form molds from patterns.D printing and quick tools are a direct process.D printing of mold geometry in metal powder with polymer adhesive, then sintering and penetration to form metal mold.
RapidTool involves selective laser sintering of polymersThen penetrate the coated metal powder forming the metal mold.Tools that RTM is being used to create high prototypesVolume process and lowMass production applications.Ford Motor Co.For example, use RTM to produce metal molds for plastic parts on its browser line.Bose Corp.
Use RTM to create parts for a successful bid package for the car app.Pitney Bowles Inc.Use this technology to make chemical bonded ceramic molds for the base of the new stamping machine.Using RTM, DePuy USA produces tools for hip handle implants.Other methods for RTM include steam deposition and spraying processes for depositing metal layers onto physical geometry, which may have been created by one of the RP technologies or other processes.
The layer forms the surface of the mold, supported by cast epoxy or metal.RTM is not a worry without growth.The technology has limitations in accuracy, speed and capability, limiting its current prototype and lowvolume tooling.These restrictions are being addressed in development efforts and are expected to be eased in the near future.As the technology becomes more user-friendly and robust, there will be no need for such a high level of expertise in RTM.
Traditional toolsIn order to cope with the threat of RTM, manufacturing technology may be improved, just like the improvement of automotive steel plates, as the car body is increasingly replaced by reinforced plastic.General purpose plastic for work, Pittsfield, quality.Other companies said that by improving process management and concurrency (Not in order)Tool development.Computer numerical control and engineering data management are improving the ability of traditional metal removal processes for manufacturing tools.Industrial response to manufacturer of RTM original equipment (OEMs)Ford, Texas Instruments, United Technologies and DePuy are pushing the technology to parts suppliers and tool manufacturers.
Leading manufacturers of tools and molds such as Santin Engineering Inc.Laserform Inc.Technology Products CompanyRTM technology is implemented.These early adopters are able to provide early process validation and faster turnaround for their customers.Other parts suppliers and tool manufacturers will find that they need to develop RTM technology to meet the needs of more OEM support for product and process development.
Tool-and die-Enterprises should develop a consistent business and technology plan based on changing customer needs, industry structure and existing technologies.They may choose to support the customer for "one-stop shopping.This goal requires capital and starts investing in RTM and several other product development features.This investment in product development and rapid tool manufacturing should be closely coordinated with strategic customers to ensure consistent expectations of product development roles and responsibility, as well as compatibility of hardware and software.Alternatively, tool and mold manufacturers can choose a narrower business goal, choose to be independent of specific customers, and make corresponding different and more modest technology investments.
This strategy may include working with other organizations to meet the needs of customers.Some RTM methods, such as QuickCast, use several different technologies, each of which requires different capital equipment and expertise.In this case, RTM may be best implemented by a company team.Ford, for example, worked with Laserform to produce stereo printing for Howmet Corp.Used for investment casting, ATC Nymold for tool manufacturing for production of browser wiper module cover mold.
Depending on the resources and expected usage, the selected process can be implemented in an internal or external service company.Peter Hilton is the president of technology strategy consulting, based in Concord, Mass.
0 notes
Text
making the leap to rapid tool making.
Rapid prototyping of tools and molds provides an economical alternative to traditional processing.Rapid prototyping of tools and molds provides an economical alternative to traditional processing.Quick knife making (RTM)Rapid prototyping technology (RP)Technology, and its application in tool and mold manufacturing, is becoming an increasingly attractive alternative to traditional processing.The shift from traditional processing methods to RTM is not so much a step as a leap.aided design (CAD)from drafting.RP, also known as Free shape manufacturing, uses an additional process to create physical geometry directly from a CAD file, replacing the method of removing the material.There are usually several steps required for RTM to create a tool or mold.
In the indirect method of RTM, the RP creates a pattern for forming the tool-For example, after investment casting is stereo printing.Another type of RTM direct production tool-For example, the adhesive is printed on the metal powder and then sintering and penetration.When implemented in a parallel engineering environment, RTM has the potential to significantly increase the speed and cost of product development.Using computer-Assisted design, electronic data transfer, process simulation, and RTM technologies can reduce mold costs and development times by 75% or more.RTM is particularly useful when tool geometry makes traditional machining difficult due to part complexity or specific geometric features such as undercutting.
RTM achieves high by reducing tool costsBatch processes, such as injection molding, are competitive at lower production volumes.The benefits are the biggest for the mass production and value reduction sectors --to-Consumer electronics, auto parts, toys and other markets.Toy manufacturers prefer to develop and distribute a large number of products early in the fall, allowing the market to decide which products to produce in bulk and rapidly increase the production of those products that are successful on store shelves.This approach requires the ability to quickly produce tools and molds for award-winning toysIt is an ideal application of RTM technology.The main RP technologies include stereo forming, selective laser sintering, 3-D.
Printing, modeling of molten deposition, manufacturing of laminated objects and soldier processes.In stereo printing developed by 3D SystemsCuring photosensitive resin with UV laser.Commercial selective laser sintering of DTMAustin, Texas.Involving laser-Induced fusion of polymer or polymercoated powder.In 3-D printing developed by MIT, adhesive is inkSpray on the powder.
Modeling of molten deposition developed by StratasysEden Prairie in Minnesota, Involving hot plastic extrusion.Manufacture of laminated objects developed by HelisysIn Torrance, California.The paper is cut by laser.Soldier, developed by stereo AmericanIn Warren, Michigan.UV curing involving a layer of resin at a time (Other techniques deal with one point in one layer at a time).
Alternative RP technologies such as inkJet Printing of wax or resin (Not a binder), Is being developed at the beginning-Ups such as Sanders and solligan, E.And other Fortune 500 companies.I.DuPont De in Moore the companyand IBM Corp.And universities like MIT, the University of Texas at Austin and Carnegie Mellon.
Several plastic manufacturers including 3m Company, Ciba-Geigy Ltd.And United signal Corporation, Develop and commercialize professional materials for RP.These technologies are being used by many manufacturing companies and service bureaus to manufacture prototype parts for design review and testing in product development and as a step towards production tools.While the US is leading the RP industry, there are significant developments in Europe, Israel and Japan.For example, Teijin Seiki in Osaka, Japan produced UV curing resin for stereo molding, producing parts with great improvement in structural performance, which for mold or low for prototype manufacturing processMass production.
RP annual revenue of about $0.billion, worldwide growth at more than 30% per year.RTM is still in the growth stage.It has the potential to change the basis of competition, but it is not fully embodied in the tool yet --making process.At present, many technologies such as QuickCast, 3D printing and RapidTool have been successfully developed.
Rapid prototyping is an indirect process in which stereoscopic molding creates a mold geometry or pattern in the cellular structure of the polymer material.The pattern was then cast into a metal mold.Many traditional processes and materials, such as epoxy, rubber, plaster and ceramics, can form molds from patterns.D printing and quick tools are a direct process.D printing of mold geometry in metal powder with polymer adhesive, then sintering and penetration to form metal mold.
RapidTool involves selective laser sintering of polymersThen penetrate the coated metal powder forming the metal mold.Tools that RTM is being used to create high prototypesVolume process and lowMass production applications.Ford Motor Co.For example, use RTM to produce metal molds for plastic parts on its browser line.Bose Corp.
Use RTM to create parts for a successful bid package for the car app.Pitney Bowles Inc.Use this technology to make chemical bonded ceramic molds for the base of the new stamping machine.Using RTM, DePuy USA produces tools for hip handle implants.Other methods for RTM include steam deposition and spraying processes for depositing metal layers onto physical geometry, which may have been created by one of the RP technologies or other processes.
The layer forms the surface of the mold, supported by cast epoxy or metal.RTM is not a worry without growth.The technology has limitations in accuracy, speed and capability, limiting its current prototype and lowvolume tooling.These restrictions are being addressed in development efforts and are expected to be eased in the near future.As the technology becomes more user-friendly and robust, there will be no need for such a high level of expertise in RTM.
Traditional toolsIn order to cope with the threat of RTM, manufacturing technology may be improved, just like the improvement of automotive steel plates, as the car body is increasingly replaced by reinforced plastic.General purpose plastic for work, Pittsfield, quality.Other companies said that by improving process management and concurrency (Not in order)Tool development.Computer numerical control and engineering data management are improving the ability of traditional metal removal processes for manufacturing tools.Industrial response to manufacturer of RTM original equipment (OEMs)Ford, Texas Instruments, United Technologies and DePuy are pushing the technology to parts suppliers and tool manufacturers.
Leading manufacturers of tools and molds such as Santin Engineering Inc.Laserform Inc.Technology Products CompanyRTM technology is implemented.These early adopters are able to provide early process validation and faster turnaround for their customers.Other parts suppliers and tool manufacturers will find that they need to develop RTM technology to meet the needs of more OEM support for product and process development.
Tool-and die-Enterprises should develop a consistent business and technology plan based on changing customer needs, industry structure and existing technologies.They may choose to support the customer for "one-stop shopping.This goal requires capital and starts investing in RTM and several other product development features.This investment in product development and rapid tool manufacturing should be closely coordinated with strategic customers to ensure consistent expectations of product development roles and responsibility, as well as compatibility of hardware and software.Alternatively, tool and mold manufacturers can choose a narrower business goal, choose to be independent of specific customers, and make corresponding different and more modest technology investments.
This strategy may include working with other organizations to meet the needs of customers.Some RTM methods, such as QuickCast, use several different technologies, each of which requires different capital equipment and expertise.In this case, RTM may be best implemented by a company team.Ford, for example, worked with Laserform to produce stereo printing for Howmet Corp.Used for investment casting, ATC Nymold for tool manufacturing for production of browser wiper module cover mold.
Depending on the resources and expected usage, the selected process can be implemented in an internal or external service company.Peter Hilton is the president of technology strategy consulting, based in Concord, Mass.
0 notes
Text
making the leap to rapid tool making.
Rapid prototyping of tools and molds provides an economical alternative to traditional processing.Rapid prototyping of tools and molds provides an economical alternative to traditional processing.Quick knife making (RTM)Rapid prototyping technology (RP)Technology, and its application in tool and mold manufacturing, is becoming an increasingly attractive alternative to traditional processing.The shift from traditional processing methods to RTM is not so much a step as a leap.aided design (CAD)from drafting.RP, also known as Free shape manufacturing, uses an additional process to create physical geometry directly from a CAD file, replacing the method of removing the material.There are usually several steps required for RTM to create a tool or mold.
In the indirect method of RTM, the RP creates a pattern for forming the tool-For example, after investment casting is stereo printing.Another type of RTM direct production tool-For example, the adhesive is printed on the metal powder and then sintering and penetration.When implemented in a parallel engineering environment, RTM has the potential to significantly increase the speed and cost of product development.Using computer-Assisted design, electronic data transfer, process simulation, and RTM technologies can reduce mold costs and development times by 75% or more.RTM is particularly useful when tool geometry makes traditional machining difficult due to part complexity or specific geometric features such as undercutting.
RTM achieves high by reducing tool costsBatch processes, such as injection molding, are competitive at lower production volumes.The benefits are the biggest for the mass production and value reduction sectors --to-Consumer electronics, auto parts, toys and other markets.Toy manufacturers prefer to develop and distribute a large number of products early in the fall, allowing the market to decide which products to produce in bulk and rapidly increase the production of those products that are successful on store shelves.This approach requires the ability to quickly produce tools and molds for award-winning toysIt is an ideal application of RTM technology.The main RP technologies include stereo forming, selective laser sintering, 3-D.
Printing, modeling of molten deposition, manufacturing of laminated objects and soldier processes.In stereo printing developed by 3D SystemsCuring photosensitive resin with UV laser.Commercial selective laser sintering of DTMAustin, Texas.Involving laser-Induced fusion of polymer or polymercoated powder.In 3-D printing developed by MIT, adhesive is inkSpray on the powder.
Modeling of molten deposition developed by StratasysEden Prairie in Minnesota, Involving hot plastic extrusion.Manufacture of laminated objects developed by HelisysIn Torrance, California.The paper is cut by laser.Soldier, developed by stereo AmericanIn Warren, Michigan.UV curing involving a layer of resin at a time (Other techniques deal with one point in one layer at a time).
Alternative RP technologies such as inkJet Printing of wax or resin (Not a binder), Is being developed at the beginning-Ups such as Sanders and solligan, E.And other Fortune 500 companies.I.DuPont De in Moore the companyand IBM Corp.And universities like MIT, the University of Texas at Austin and Carnegie Mellon.
Several plastic manufacturers including 3m Company, Ciba-Geigy Ltd.And United signal Corporation, Develop and commercialize professional materials for RP.These technologies are being used by many manufacturing companies and service bureaus to manufacture prototype parts for design review and testing in product development and as a step towards production tools.While the US is leading the RP industry, there are significant developments in Europe, Israel and Japan.For example, Teijin Seiki in Osaka, Japan produced UV curing resin for stereo molding, producing parts with great improvement in structural performance, which for mold or low for prototype manufacturing processMass production.
RP annual revenue of about $0.billion, worldwide growth at more than 30% per year.RTM is still in the growth stage.It has the potential to change the basis of competition, but it is not fully embodied in the tool yet --making process.At present, many technologies such as QuickCast, 3D printing and RapidTool have been successfully developed.
Rapid prototyping is an indirect process in which stereoscopic molding creates a mold geometry or pattern in the cellular structure of the polymer material.The pattern was then cast into a metal mold.Many traditional processes and materials, such as epoxy, rubber, plaster and ceramics, can form molds from patterns.D printing and quick tools are a direct process.D printing of mold geometry in metal powder with polymer adhesive, then sintering and penetration to form metal mold.
RapidTool involves selective laser sintering of polymersThen penetrate the coated metal powder forming the metal mold.Tools that RTM is being used to create high prototypesVolume process and lowMass production applications.Ford Motor Co.For example, use RTM to produce metal molds for plastic parts on its browser line.Bose Corp.
Use RTM to create parts for a successful bid package for the car app.Pitney Bowles Inc.Use this technology to make chemical bonded ceramic molds for the base of the new stamping machine.Using RTM, DePuy USA produces tools for hip handle implants.Other methods for RTM include steam deposition and spraying processes for depositing metal layers onto physical geometry, which may have been created by one of the RP technologies or other processes.
The layer forms the surface of the mold, supported by cast epoxy or metal.RTM is not a worry without growth.The technology has limitations in accuracy, speed and capability, limiting its current prototype and lowvolume tooling.These restrictions are being addressed in development efforts and are expected to be eased in the near future.As the technology becomes more user-friendly and robust, there will be no need for such a high level of expertise in RTM.
Traditional toolsIn order to cope with the threat of RTM, manufacturing technology may be improved, just like the improvement of automotive steel plates, as the car body is increasingly replaced by reinforced plastic.General purpose plastic for work, Pittsfield, quality.Other companies said that by improving process management and concurrency (Not in order)Tool development.Computer numerical control and engineering data management are improving the ability of traditional metal removal processes for manufacturing tools.Industrial response to manufacturer of RTM original equipment (OEMs)Ford, Texas Instruments, United Technologies and DePuy are pushing the technology to parts suppliers and tool manufacturers.
Leading manufacturers of tools and molds such as Santin Engineering Inc.Laserform Inc.Technology Products CompanyRTM technology is implemented.These early adopters are able to provide early process validation and faster turnaround for their customers.Other parts suppliers and tool manufacturers will find that they need to develop RTM technology to meet the needs of more OEM support for product and process development.
Tool-and die-Enterprises should develop a consistent business and technology plan based on changing customer needs, industry structure and existing technologies.They may choose to support the customer for "one-stop shopping.This goal requires capital and starts investing in RTM and several other product development features.This investment in product development and rapid tool manufacturing should be closely coordinated with strategic customers to ensure consistent expectations of product development roles and responsibility, as well as compatibility of hardware and software.Alternatively, tool and mold manufacturers can choose a narrower business goal, choose to be independent of specific customers, and make corresponding different and more modest technology investments.
This strategy may include working with other organizations to meet the needs of customers.Some RTM methods, such as QuickCast, use several different technologies, each of which requires different capital equipment and expertise.In this case, RTM may be best implemented by a company team.Ford, for example, worked with Laserform to produce stereo printing for Howmet Corp.Used for investment casting, ATC Nymold for tool manufacturing for production of browser wiper module cover mold.
Depending on the resources and expected usage, the selected process can be implemented in an internal or external service company.Peter Hilton is the president of technology strategy consulting, based in Concord, Mass.
0 notes
Text
making the leap to rapid tool making.
Rapid prototyping of tools and molds provides an economical alternative to traditional processing.Rapid prototyping of tools and molds provides an economical alternative to traditional processing.Quick knife making (RTM)Rapid prototyping technology (RP)Technology, and its application in tool and mold manufacturing, is becoming an increasingly attractive alternative to traditional processing.The shift from traditional processing methods to RTM is not so much a step as a leap.aided design (CAD)from drafting.RP, also known as Free shape manufacturing, uses an additional process to create physical geometry directly from a CAD file, replacing the method of removing the material.There are usually several steps required for RTM to create a tool or mold.
In the indirect method of RTM, the RP creates a pattern for forming the tool-For example, after investment casting is stereo printing.Another type of RTM direct production tool-For example, the adhesive is printed on the metal powder and then sintering and penetration.When implemented in a parallel engineering environment, RTM has the potential to significantly increase the speed and cost of product development.Using computer-Assisted design, electronic data transfer, process simulation, and RTM technologies can reduce mold costs and development times by 75% or more.RTM is particularly useful when tool geometry makes traditional machining difficult due to part complexity or specific geometric features such as undercutting.
RTM achieves high by reducing tool costsBatch processes, such as injection molding, are competitive at lower production volumes.The benefits are the biggest for the mass production and value reduction sectors --to-Consumer electronics, auto parts, toys and other markets.Toy manufacturers prefer to develop and distribute a large number of products early in the fall, allowing the market to decide which products to produce in bulk and rapidly increase the production of those products that are successful on store shelves.This approach requires the ability to quickly produce tools and molds for award-winning toysIt is an ideal application of RTM technology.The main RP technologies include stereo forming, selective laser sintering, 3-D.
Printing, modeling of molten deposition, manufacturing of laminated objects and soldier processes.In stereo printing developed by 3D SystemsCuring photosensitive resin with UV laser.Commercial selective laser sintering of DTMAustin, Texas.Involving laser-Induced fusion of polymer or polymercoated powder.In 3-D printing developed by MIT, adhesive is inkSpray on the powder.
Modeling of molten deposition developed by StratasysEden Prairie in Minnesota, Involving hot plastic extrusion.Manufacture of laminated objects developed by HelisysIn Torrance, California.The paper is cut by laser.Soldier, developed by stereo AmericanIn Warren, Michigan.UV curing involving a layer of resin at a time (Other techniques deal with one point in one layer at a time).
Alternative RP technologies such as inkJet Printing of wax or resin (Not a binder), Is being developed at the beginning-Ups such as Sanders and solligan, E.And other Fortune 500 companies.I.DuPont De in Moore the companyand IBM Corp.And universities like MIT, the University of Texas at Austin and Carnegie Mellon.
Several plastic manufacturers including 3m Company, Ciba-Geigy Ltd.And United signal Corporation, Develop and commercialize professional materials for RP.These technologies are being used by many manufacturing companies and service bureaus to manufacture prototype parts for design review and testing in product development and as a step towards production tools.While the US is leading the RP industry, there are significant developments in Europe, Israel and Japan.For example, Teijin Seiki in Osaka, Japan produced UV curing resin for stereo molding, producing parts with great improvement in structural performance, which for mold or low for prototype manufacturing processMass production.
RP annual revenue of about $0.billion, worldwide growth at more than 30% per year.RTM is still in the growth stage.It has the potential to change the basis of competition, but it is not fully embodied in the tool yet --making process.At present, many technologies such as QuickCast, 3D printing and RapidTool have been successfully developed.
Rapid prototyping is an indirect process in which stereoscopic molding creates a mold geometry or pattern in the cellular structure of the polymer material.The pattern was then cast into a metal mold.Many traditional processes and materials, such as epoxy, rubber, plaster and ceramics, can form molds from patterns.D printing and quick tools are a direct process.D printing of mold geometry in metal powder with polymer adhesive, then sintering and penetration to form metal mold.
RapidTool involves selective laser sintering of polymersThen penetrate the coated metal powder forming the metal mold.Tools that RTM is being used to create high prototypesVolume process and lowMass production applications.Ford Motor Co.For example, use RTM to produce metal molds for plastic parts on its browser line.Bose Corp.
Use RTM to create parts for a successful bid package for the car app.Pitney Bowles Inc.Use this technology to make chemical bonded ceramic molds for the base of the new stamping machine.Using RTM, DePuy USA produces tools for hip handle implants.Other methods for RTM include steam deposition and spraying processes for depositing metal layers onto physical geometry, which may have been created by one of the RP technologies or other processes.
The layer forms the surface of the mold, supported by cast epoxy or metal.RTM is not a worry without growth.The technology has limitations in accuracy, speed and capability, limiting its current prototype and lowvolume tooling.These restrictions are being addressed in development efforts and are expected to be eased in the near future.As the technology becomes more user-friendly and robust, there will be no need for such a high level of expertise in RTM.
Traditional toolsIn order to cope with the threat of RTM, manufacturing technology may be improved, just like the improvement of automotive steel plates, as the car body is increasingly replaced by reinforced plastic.General purpose plastic for work, Pittsfield, quality.Other companies said that by improving process management and concurrency (Not in order)Tool development.Computer numerical control and engineering data management are improving the ability of traditional metal removal processes for manufacturing tools.Industrial response to manufacturer of RTM original equipment (OEMs)Ford, Texas Instruments, United Technologies and DePuy are pushing the technology to parts suppliers and tool manufacturers.
Leading manufacturers of tools and molds such as Santin Engineering Inc.Laserform Inc.Technology Products CompanyRTM technology is implemented.These early adopters are able to provide early process validation and faster turnaround for their customers.Other parts suppliers and tool manufacturers will find that they need to develop RTM technology to meet the needs of more OEM support for product and process development.
Tool-and die-Enterprises should develop a consistent business and technology plan based on changing customer needs, industry structure and existing technologies.They may choose to support the customer for "one-stop shopping.This goal requires capital and starts investing in RTM and several other product development features.This investment in product development and rapid tool manufacturing should be closely coordinated with strategic customers to ensure consistent expectations of product development roles and responsibility, as well as compatibility of hardware and software.Alternatively, tool and mold manufacturers can choose a narrower business goal, choose to be independent of specific customers, and make corresponding different and more modest technology investments.
This strategy may include working with other organizations to meet the needs of customers.Some RTM methods, such as QuickCast, use several different technologies, each of which requires different capital equipment and expertise.In this case, RTM may be best implemented by a company team.Ford, for example, worked with Laserform to produce stereo printing for Howmet Corp.Used for investment casting, ATC Nymold for tool manufacturing for production of browser wiper module cover mold.
Depending on the resources and expected usage, the selected process can be implemented in an internal or external service company.Peter Hilton is the president of technology strategy consulting, based in Concord, Mass.
0 notes
Text
making the leap to rapid tool making.
Rapid prototyping of tools and molds provides an economical alternative to traditional processing.Rapid prototyping of tools and molds provides an economical alternative to traditional processing.Quick knife making (RTM)Rapid prototyping technology (RP)Technology, and its application in tool and mold manufacturing, is becoming an increasingly attractive alternative to traditional processing.The shift from traditional processing methods to RTM is not so much a step as a leap.aided design (CAD)from drafting.RP, also known as Free shape manufacturing, uses an additional process to create physical geometry directly from a CAD file, replacing the method of removing the material.There are usually several steps required for RTM to create a tool or mold.
In the indirect method of RTM, the RP creates a pattern for forming the tool-For example, after investment casting is stereo printing.Another type of RTM direct production tool-For example, the adhesive is printed on the metal powder and then sintering and penetration.When implemented in a parallel engineering environment, RTM has the potential to significantly increase the speed and cost of product development.Using computer-Assisted design, electronic data transfer, process simulation, and RTM technologies can reduce mold costs and development times by 75% or more.RTM is particularly useful when tool geometry makes traditional machining difficult due to part complexity or specific geometric features such as undercutting.
RTM achieves high by reducing tool costsBatch processes, such as injection molding, are competitive at lower production volumes.The benefits are the biggest for the mass production and value reduction sectors --to-Consumer electronics, auto parts, toys and other markets.Toy manufacturers prefer to develop and distribute a large number of products early in the fall, allowing the market to decide which products to produce in bulk and rapidly increase the production of those products that are successful on store shelves.This approach requires the ability to quickly produce tools and molds for award-winning toysIt is an ideal application of RTM technology.The main RP technologies include stereo forming, selective laser sintering, 3-D.
Printing, modeling of molten deposition, manufacturing of laminated objects and soldier processes.In stereo printing developed by 3D SystemsCuring photosensitive resin with UV laser.Commercial selective laser sintering of DTMAustin, Texas.Involving laser-Induced fusion of polymer or polymercoated powder.In 3-D printing developed by MIT, adhesive is inkSpray on the powder.
Modeling of molten deposition developed by StratasysEden Prairie in Minnesota, Involving hot plastic extrusion.Manufacture of laminated objects developed by HelisysIn Torrance, California.The paper is cut by laser.Soldier, developed by stereo AmericanIn Warren, Michigan.UV curing involving a layer of resin at a time (Other techniques deal with one point in one layer at a time).
Alternative RP technologies such as inkJet Printing of wax or resin (Not a binder), Is being developed at the beginning-Ups such as Sanders and solligan, E.And other Fortune 500 companies.I.DuPont De in Moore the companyand IBM Corp.And universities like MIT, the University of Texas at Austin and Carnegie Mellon.
Several plastic manufacturers including 3m Company, Ciba-Geigy Ltd.And United signal Corporation, Develop and commercialize professional materials for RP.These technologies are being used by many manufacturing companies and service bureaus to manufacture prototype parts for design review and testing in product development and as a step towards production tools.While the US is leading the RP industry, there are significant developments in Europe, Israel and Japan.For example, Teijin Seiki in Osaka, Japan produced UV curing resin for stereo molding, producing parts with great improvement in structural performance, which for mold or low for prototype manufacturing processMass production.
RP annual revenue of about $0.billion, worldwide growth at more than 30% per year.RTM is still in the growth stage.It has the potential to change the basis of competition, but it is not fully embodied in the tool yet --making process.At present, many technologies such as QuickCast, 3D printing and RapidTool have been successfully developed.
Rapid prototyping is an indirect process in which stereoscopic molding creates a mold geometry or pattern in the cellular structure of the polymer material.The pattern was then cast into a metal mold.Many traditional processes and materials, such as epoxy, rubber, plaster and ceramics, can form molds from patterns.D printing and quick tools are a direct process.D printing of mold geometry in metal powder with polymer adhesive, then sintering and penetration to form metal mold.
RapidTool involves selective laser sintering of polymersThen penetrate the coated metal powder forming the metal mold.Tools that RTM is being used to create high prototypesVolume process and lowMass production applications.Ford Motor Co.For example, use RTM to produce metal molds for plastic parts on its browser line.Bose Corp.
Use RTM to create parts for a successful bid package for the car app.Pitney Bowles Inc.Use this technology to make chemical bonded ceramic molds for the base of the new stamping machine.Using RTM, DePuy USA produces tools for hip handle implants.Other methods for RTM include steam deposition and spraying processes for depositing metal layers onto physical geometry, which may have been created by one of the RP technologies or other processes.
The layer forms the surface of the mold, supported by cast epoxy or metal.RTM is not a worry without growth.The technology has limitations in accuracy, speed and capability, limiting its current prototype and lowvolume tooling.These restrictions are being addressed in development efforts and are expected to be eased in the near future.As the technology becomes more user-friendly and robust, there will be no need for such a high level of expertise in RTM.
Traditional toolsIn order to cope with the threat of RTM, manufacturing technology may be improved, just like the improvement of automotive steel plates, as the car body is increasingly replaced by reinforced plastic.General purpose plastic for work, Pittsfield, quality.Other companies said that by improving process management and concurrency (Not in order)Tool development.Computer numerical control and engineering data management are improving the ability of traditional metal removal processes for manufacturing tools.Industrial response to manufacturer of RTM original equipment (OEMs)Ford, Texas Instruments, United Technologies and DePuy are pushing the technology to parts suppliers and tool manufacturers.
Leading manufacturers of tools and molds such as Santin Engineering Inc.Laserform Inc.Technology Products CompanyRTM technology is implemented.These early adopters are able to provide early process validation and faster turnaround for their customers.Other parts suppliers and tool manufacturers will find that they need to develop RTM technology to meet the needs of more OEM support for product and process development.
Tool-and die-Enterprises should develop a consistent business and technology plan based on changing customer needs, industry structure and existing technologies.They may choose to support the customer for "one-stop shopping.This goal requires capital and starts investing in RTM and several other product development features.This investment in product development and rapid tool manufacturing should be closely coordinated with strategic customers to ensure consistent expectations of product development roles and responsibility, as well as compatibility of hardware and software.Alternatively, tool and mold manufacturers can choose a narrower business goal, choose to be independent of specific customers, and make corresponding different and more modest technology investments.
This strategy may include working with other organizations to meet the needs of customers.Some RTM methods, such as QuickCast, use several different technologies, each of which requires different capital equipment and expertise.In this case, RTM may be best implemented by a company team.Ford, for example, worked with Laserform to produce stereo printing for Howmet Corp.Used for investment casting, ATC Nymold for tool manufacturing for production of browser wiper module cover mold.
Depending on the resources and expected usage, the selected process can be implemented in an internal or external service company.Peter Hilton is the president of technology strategy consulting, based in Concord, Mass.
0 notes
Text
making the leap to rapid tool making.
Rapid prototyping of tools and molds provides an economical alternative to traditional processing.Rapid prototyping of tools and molds provides an economical alternative to traditional processing.Quick knife making (RTM)Rapid prototyping technology (RP)Technology, and its application in tool and mold manufacturing, is becoming an increasingly attractive alternative to traditional processing.The shift from traditional processing methods to RTM is not so much a step as a leap.aided design (CAD)from drafting.RP, also known as Free shape manufacturing, uses an additional process to create physical geometry directly from a CAD file, replacing the method of removing the material.There are usually several steps required for RTM to create a tool or mold.
In the indirect method of RTM, the RP creates a pattern for forming the tool-For example, after investment casting is stereo printing.Another type of RTM direct production tool-For example, the adhesive is printed on the metal powder and then sintering and penetration.When implemented in a parallel engineering environment, RTM has the potential to significantly increase the speed and cost of product development.Using computer-Assisted design, electronic data transfer, process simulation, and RTM technologies can reduce mold costs and development times by 75% or more.RTM is particularly useful when tool geometry makes traditional machining difficult due to part complexity or specific geometric features such as undercutting.
RTM achieves high by reducing tool costsBatch processes, such as injection molding, are competitive at lower production volumes.The benefits are the biggest for the mass production and value reduction sectors --to-Consumer electronics, auto parts, toys and other markets.Toy manufacturers prefer to develop and distribute a large number of products early in the fall, allowing the market to decide which products to produce in bulk and rapidly increase the production of those products that are successful on store shelves.This approach requires the ability to quickly produce tools and molds for award-winning toysIt is an ideal application of RTM technology.The main RP technologies include stereo forming, selective laser sintering, 3-D.
Printing, modeling of molten deposition, manufacturing of laminated objects and soldier processes.In stereo printing developed by 3D SystemsCuring photosensitive resin with UV laser.Commercial selective laser sintering of DTMAustin, Texas.Involving laser-Induced fusion of polymer or polymercoated powder.In 3-D printing developed by MIT, adhesive is inkSpray on the powder.
Modeling of molten deposition developed by StratasysEden Prairie in Minnesota, Involving hot plastic extrusion.Manufacture of laminated objects developed by HelisysIn Torrance, California.The paper is cut by laser.Soldier, developed by stereo AmericanIn Warren, Michigan.UV curing involving a layer of resin at a time (Other techniques deal with one point in one layer at a time).
Alternative RP technologies such as inkJet Printing of wax or resin (Not a binder), Is being developed at the beginning-Ups such as Sanders and solligan, E.And other Fortune 500 companies.I.DuPont De in Moore the companyand IBM Corp.And universities like MIT, the University of Texas at Austin and Carnegie Mellon.
Several plastic manufacturers including 3m Company, Ciba-Geigy Ltd.And United signal Corporation, Develop and commercialize professional materials for RP.These technologies are being used by many manufacturing companies and service bureaus to manufacture prototype parts for design review and testing in product development and as a step towards production tools.While the US is leading the RP industry, there are significant developments in Europe, Israel and Japan.For example, Teijin Seiki in Osaka, Japan produced UV curing resin for stereo molding, producing parts with great improvement in structural performance, which for mold or low for prototype manufacturing processMass production.
RP annual revenue of about $0.billion, worldwide growth at more than 30% per year.RTM is still in the growth stage.It has the potential to change the basis of competition, but it is not fully embodied in the tool yet --making process.At present, many technologies such as QuickCast, 3D printing and RapidTool have been successfully developed.
Rapid prototyping is an indirect process in which stereoscopic molding creates a mold geometry or pattern in the cellular structure of the polymer material.The pattern was then cast into a metal mold.Many traditional processes and materials, such as epoxy, rubber, plaster and ceramics, can form molds from patterns.D printing and quick tools are a direct process.D printing of mold geometry in metal powder with polymer adhesive, then sintering and penetration to form metal mold.
RapidTool involves selective laser sintering of polymersThen penetrate the coated metal powder forming the metal mold.Tools that RTM is being used to create high prototypesVolume process and lowMass production applications.Ford Motor Co.For example, use RTM to produce metal molds for plastic parts on its browser line.Bose Corp.
Use RTM to create parts for a successful bid package for the car app.Pitney Bowles Inc.Use this technology to make chemical bonded ceramic molds for the base of the new stamping machine.Using RTM, DePuy USA produces tools for hip handle implants.Other methods for RTM include steam deposition and spraying processes for depositing metal layers onto physical geometry, which may have been created by one of the RP technologies or other processes.
The layer forms the surface of the mold, supported by cast epoxy or metal.RTM is not a worry without growth.The technology has limitations in accuracy, speed and capability, limiting its current prototype and lowvolume tooling.These restrictions are being addressed in development efforts and are expected to be eased in the near future.As the technology becomes more user-friendly and robust, there will be no need for such a high level of expertise in RTM.
Traditional toolsIn order to cope with the threat of RTM, manufacturing technology may be improved, just like the improvement of automotive steel plates, as the car body is increasingly replaced by reinforced plastic.General purpose plastic for work, Pittsfield, quality.Other companies said that by improving process management and concurrency (Not in order)Tool development.Computer numerical control and engineering data management are improving the ability of traditional metal removal processes for manufacturing tools.Industrial response to manufacturer of RTM original equipment (OEMs)Ford, Texas Instruments, United Technologies and DePuy are pushing the technology to parts suppliers and tool manufacturers.
Leading manufacturers of tools and molds such as Santin Engineering Inc.Laserform Inc.Technology Products CompanyRTM technology is implemented.These early adopters are able to provide early process validation and faster turnaround for their customers.Other parts suppliers and tool manufacturers will find that they need to develop RTM technology to meet the needs of more OEM support for product and process development.
Tool-and die-Enterprises should develop a consistent business and technology plan based on changing customer needs, industry structure and existing technologies.They may choose to support the customer for "one-stop shopping.This goal requires capital and starts investing in RTM and several other product development features.This investment in product development and rapid tool manufacturing should be closely coordinated with strategic customers to ensure consistent expectations of product development roles and responsibility, as well as compatibility of hardware and software.Alternatively, tool and mold manufacturers can choose a narrower business goal, choose to be independent of specific customers, and make corresponding different and more modest technology investments.
This strategy may include working with other organizations to meet the needs of customers.Some RTM methods, such as QuickCast, use several different technologies, each of which requires different capital equipment and expertise.In this case, RTM may be best implemented by a company team.Ford, for example, worked with Laserform to produce stereo printing for Howmet Corp.Used for investment casting, ATC Nymold for tool manufacturing for production of browser wiper module cover mold.
Depending on the resources and expected usage, the selected process can be implemented in an internal or external service company.Peter Hilton is the president of technology strategy consulting, based in Concord, Mass.
0 notes
Text
making the leap to rapid tool making.
Rapid prototyping of tools and molds provides an economical alternative to traditional processing.Rapid prototyping of tools and molds provides an economical alternative to traditional processing.Quick knife making (RTM)Rapid prototyping technology (RP)Technology, and its application in tool and mold manufacturing, is becoming an increasingly attractive alternative to traditional processing.The shift from traditional processing methods to RTM is not so much a step as a leap.aided design (CAD)from drafting.RP, also known as Free shape manufacturing, uses an additional process to create physical geometry directly from a CAD file, replacing the method of removing the material.There are usually several steps required for RTM to create a tool or mold.
In the indirect method of RTM, the RP creates a pattern for forming the tool-For example, after investment casting is stereo printing.Another type of RTM direct production tool-For example, the adhesive is printed on the metal powder and then sintering and penetration.When implemented in a parallel engineering environment, RTM has the potential to significantly increase the speed and cost of product development.Using computer-Assisted design, electronic data transfer, process simulation, and RTM technologies can reduce mold costs and development times by 75% or more.RTM is particularly useful when tool geometry makes traditional machining difficult due to part complexity or specific geometric features such as undercutting.
RTM achieves high by reducing tool costsBatch processes, such as injection molding, are competitive at lower production volumes.The benefits are the biggest for the mass production and value reduction sectors --to-Consumer electronics, auto parts, toys and other markets.Toy manufacturers prefer to develop and distribute a large number of products early in the fall, allowing the market to decide which products to produce in bulk and rapidly increase the production of those products that are successful on store shelves.This approach requires the ability to quickly produce tools and molds for award-winning toysIt is an ideal application of RTM technology.The main RP technologies include stereo forming, selective laser sintering, 3-D.
Printing, modeling of molten deposition, manufacturing of laminated objects and soldier processes.In stereo printing developed by 3D SystemsCuring photosensitive resin with UV laser.Commercial selective laser sintering of DTMAustin, Texas.Involving laser-Induced fusion of polymer or polymercoated powder.In 3-D printing developed by MIT, adhesive is inkSpray on the powder.
Modeling of molten deposition developed by StratasysEden Prairie in Minnesota, Involving hot plastic extrusion.Manufacture of laminated objects developed by HelisysIn Torrance, California.The paper is cut by laser.Soldier, developed by stereo AmericanIn Warren, Michigan.UV curing involving a layer of resin at a time (Other techniques deal with one point in one layer at a time).
Alternative RP technologies such as inkJet Printing of wax or resin (Not a binder), Is being developed at the beginning-Ups such as Sanders and solligan, E.And other Fortune 500 companies.I.DuPont De in Moore the companyand IBM Corp.And universities like MIT, the University of Texas at Austin and Carnegie Mellon.
Several plastic manufacturers including 3m Company, Ciba-Geigy Ltd.And United signal Corporation, Develop and commercialize professional materials for RP.These technologies are being used by many manufacturing companies and service bureaus to manufacture prototype parts for design review and testing in product development and as a step towards production tools.While the US is leading the RP industry, there are significant developments in Europe, Israel and Japan.For example, Teijin Seiki in Osaka, Japan produced UV curing resin for stereo molding, producing parts with great improvement in structural performance, which for mold or low for prototype manufacturing processMass production.
RP annual revenue of about $0.billion, worldwide growth at more than 30% per year.RTM is still in the growth stage.It has the potential to change the basis of competition, but it is not fully embodied in the tool yet --making process.At present, many technologies such as QuickCast, 3D printing and RapidTool have been successfully developed.
Rapid prototyping is an indirect process in which stereoscopic molding creates a mold geometry or pattern in the cellular structure of the polymer material.The pattern was then cast into a metal mold.Many traditional processes and materials, such as epoxy, rubber, plaster and ceramics, can form molds from patterns.D printing and quick tools are a direct process.D printing of mold geometry in metal powder with polymer adhesive, then sintering and penetration to form metal mold.
RapidTool involves selective laser sintering of polymersThen penetrate the coated metal powder forming the metal mold.Tools that RTM is being used to create high prototypesVolume process and lowMass production applications.Ford Motor Co.For example, use RTM to produce metal molds for plastic parts on its browser line.Bose Corp.
Use RTM to create parts for a successful bid package for the car app.Pitney Bowles Inc.Use this technology to make chemical bonded ceramic molds for the base of the new stamping machine.Using RTM, DePuy USA produces tools for hip handle implants.Other methods for RTM include steam deposition and spraying processes for depositing metal layers onto physical geometry, which may have been created by one of the RP technologies or other processes.
The layer forms the surface of the mold, supported by cast epoxy or metal.RTM is not a worry without growth.The technology has limitations in accuracy, speed and capability, limiting its current prototype and lowvolume tooling.These restrictions are being addressed in development efforts and are expected to be eased in the near future.As the technology becomes more user-friendly and robust, there will be no need for such a high level of expertise in RTM.
Traditional toolsIn order to cope with the threat of RTM, manufacturing technology may be improved, just like the improvement of automotive steel plates, as the car body is increasingly replaced by reinforced plastic.General purpose plastic for work, Pittsfield, quality.Other companies said that by improving process management and concurrency (Not in order)Tool development.Computer numerical control and engineering data management are improving the ability of traditional metal removal processes for manufacturing tools.Industrial response to manufacturer of RTM original equipment (OEMs)Ford, Texas Instruments, United Technologies and DePuy are pushing the technology to parts suppliers and tool manufacturers.
Leading manufacturers of tools and molds such as Santin Engineering Inc.Laserform Inc.Technology Products CompanyRTM technology is implemented.These early adopters are able to provide early process validation and faster turnaround for their customers.Other parts suppliers and tool manufacturers will find that they need to develop RTM technology to meet the needs of more OEM support for product and process development.
Tool-and die-Enterprises should develop a consistent business and technology plan based on changing customer needs, industry structure and existing technologies.They may choose to support the customer for "one-stop shopping.This goal requires capital and starts investing in RTM and several other product development features.This investment in product development and rapid tool manufacturing should be closely coordinated with strategic customers to ensure consistent expectations of product development roles and responsibility, as well as compatibility of hardware and software.Alternatively, tool and mold manufacturers can choose a narrower business goal, choose to be independent of specific customers, and make corresponding different and more modest technology investments.
This strategy may include working with other organizations to meet the needs of customers.Some RTM methods, such as QuickCast, use several different technologies, each of which requires different capital equipment and expertise.In this case, RTM may be best implemented by a company team.Ford, for example, worked with Laserform to produce stereo printing for Howmet Corp.Used for investment casting, ATC Nymold for tool manufacturing for production of browser wiper module cover mold.
Depending on the resources and expected usage, the selected process can be implemented in an internal or external service company.Peter Hilton is the president of technology strategy consulting, based in Concord, Mass.
0 notes
Text
making the leap to rapid tool making.
Rapid prototyping of tools and molds provides an economical alternative to traditional processing.Rapid prototyping of tools and molds provides an economical alternative to traditional processing.Quick knife making (RTM)Rapid prototyping technology (RP)Technology, and its application in tool and mold manufacturing, is becoming an increasingly attractive alternative to traditional processing.The shift from traditional processing methods to RTM is not so much a step as a leap.aided design (CAD)from drafting.RP, also known as Free shape manufacturing, uses an additional process to create physical geometry directly from a CAD file, replacing the method of removing the material.There are usually several steps required for RTM to create a tool or mold.
In the indirect method of RTM, the RP creates a pattern for forming the tool-For example, after investment casting is stereo printing.Another type of RTM direct production tool-For example, the adhesive is printed on the metal powder and then sintering and penetration.When implemented in a parallel engineering environment, RTM has the potential to significantly increase the speed and cost of product development.Using computer-Assisted design, electronic data transfer, process simulation, and RTM technologies can reduce mold costs and development times by 75% or more.RTM is particularly useful when tool geometry makes traditional machining difficult due to part complexity or specific geometric features such as undercutting.
RTM achieves high by reducing tool costsBatch processes, such as injection molding, are competitive at lower production volumes.The benefits are the biggest for the mass production and value reduction sectors --to-Consumer electronics, auto parts, toys and other markets.Toy manufacturers prefer to develop and distribute a large number of products early in the fall, allowing the market to decide which products to produce in bulk and rapidly increase the production of those products that are successful on store shelves.This approach requires the ability to quickly produce tools and molds for award-winning toysIt is an ideal application of RTM technology.The main RP technologies include stereo forming, selective laser sintering, 3-D.
Printing, modeling of molten deposition, manufacturing of laminated objects and soldier processes.In stereo printing developed by 3D SystemsCuring photosensitive resin with UV laser.Commercial selective laser sintering of DTMAustin, Texas.Involving laser-Induced fusion of polymer or polymercoated powder.In 3-D printing developed by MIT, adhesive is inkSpray on the powder.
Modeling of molten deposition developed by StratasysEden Prairie in Minnesota, Involving hot plastic extrusion.Manufacture of laminated objects developed by HelisysIn Torrance, California.The paper is cut by laser.Soldier, developed by stereo AmericanIn Warren, Michigan.UV curing involving a layer of resin at a time (Other techniques deal with one point in one layer at a time).
Alternative RP technologies such as inkJet Printing of wax or resin (Not a binder), Is being developed at the beginning-Ups such as Sanders and solligan, E.And other Fortune 500 companies.I.DuPont De in Moore the companyand IBM Corp.And universities like MIT, the University of Texas at Austin and Carnegie Mellon.
Several plastic manufacturers including 3m Company, Ciba-Geigy Ltd.And United signal Corporation, Develop and commercialize professional materials for RP.These technologies are being used by many manufacturing companies and service bureaus to manufacture prototype parts for design review and testing in product development and as a step towards production tools.While the US is leading the RP industry, there are significant developments in Europe, Israel and Japan.For example, Teijin Seiki in Osaka, Japan produced UV curing resin for stereo molding, producing parts with great improvement in structural performance, which for mold or low for prototype manufacturing processMass production.
RP annual revenue of about $0.billion, worldwide growth at more than 30% per year.RTM is still in the growth stage.It has the potential to change the basis of competition, but it is not fully embodied in the tool yet --making process.At present, many technologies such as QuickCast, 3D printing and RapidTool have been successfully developed.
Rapid prototyping is an indirect process in which stereoscopic molding creates a mold geometry or pattern in the cellular structure of the polymer material.The pattern was then cast into a metal mold.Many traditional processes and materials, such as epoxy, rubber, plaster and ceramics, can form molds from patterns.D printing and quick tools are a direct process.D printing of mold geometry in metal powder with polymer adhesive, then sintering and penetration to form metal mold.
RapidTool involves selective laser sintering of polymersThen penetrate the coated metal powder forming the metal mold.Tools that RTM is being used to create high prototypesVolume process and lowMass production applications.Ford Motor Co.For example, use RTM to produce metal molds for plastic parts on its browser line.Bose Corp.
Use RTM to create parts for a successful bid package for the car app.Pitney Bowles Inc.Use this technology to make chemical bonded ceramic molds for the base of the new stamping machine.Using RTM, DePuy USA produces tools for hip handle implants.Other methods for RTM include steam deposition and spraying processes for depositing metal layers onto physical geometry, which may have been created by one of the RP technologies or other processes.
The layer forms the surface of the mold, supported by cast epoxy or metal.RTM is not a worry without growth.The technology has limitations in accuracy, speed and capability, limiting its current prototype and lowvolume tooling.These restrictions are being addressed in development efforts and are expected to be eased in the near future.As the technology becomes more user-friendly and robust, there will be no need for such a high level of expertise in RTM.
Traditional toolsIn order to cope with the threat of RTM, manufacturing technology may be improved, just like the improvement of automotive steel plates, as the car body is increasingly replaced by reinforced plastic.General purpose plastic for work, Pittsfield, quality.Other companies said that by improving process management and concurrency (Not in order)Tool development.Computer numerical control and engineering data management are improving the ability of traditional metal removal processes for manufacturing tools.Industrial response to manufacturer of RTM original equipment (OEMs)Ford, Texas Instruments, United Technologies and DePuy are pushing the technology to parts suppliers and tool manufacturers.
Leading manufacturers of tools and molds such as Santin Engineering Inc.Laserform Inc.Technology Products CompanyRTM technology is implemented.These early adopters are able to provide early process validation and faster turnaround for their customers.Other parts suppliers and tool manufacturers will find that they need to develop RTM technology to meet the needs of more OEM support for product and process development.
Tool-and die-Enterprises should develop a consistent business and technology plan based on changing customer needs, industry structure and existing technologies.They may choose to support the customer for "one-stop shopping.This goal requires capital and starts investing in RTM and several other product development features.This investment in product development and rapid tool manufacturing should be closely coordinated with strategic customers to ensure consistent expectations of product development roles and responsibility, as well as compatibility of hardware and software.Alternatively, tool and mold manufacturers can choose a narrower business goal, choose to be independent of specific customers, and make corresponding different and more modest technology investments.
This strategy may include working with other organizations to meet the needs of customers.Some RTM methods, such as QuickCast, use several different technologies, each of which requires different capital equipment and expertise.In this case, RTM may be best implemented by a company team.Ford, for example, worked with Laserform to produce stereo printing for Howmet Corp.Used for investment casting, ATC Nymold for tool manufacturing for production of browser wiper module cover mold.
Depending on the resources and expected usage, the selected process can be implemented in an internal or external service company.Peter Hilton is the president of technology strategy consulting, based in Concord, Mass.
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making the leap to rapid tool making.
Rapid prototyping of tools and molds provides an economical alternative to traditional processing.Rapid prototyping of tools and molds provides an economical alternative to traditional processing.Quick knife making (RTM)Rapid prototyping technology (RP)Technology, and its application in tool and mold manufacturing, is becoming an increasingly attractive alternative to traditional processing.The shift from traditional processing methods to RTM is not so much a step as a leap.aided design (CAD)from drafting.RP, also known as Free shape manufacturing, uses an additional process to create physical geometry directly from a CAD file, replacing the method of removing the material.There are usually several steps required for RTM to create a tool or mold.
In the indirect method of RTM, the RP creates a pattern for forming the tool-For example, after investment casting is stereo printing.Another type of RTM direct production tool-For example, the adhesive is printed on the metal powder and then sintering and penetration.When implemented in a parallel engineering environment, RTM has the potential to significantly increase the speed and cost of product development.Using computer-Assisted design, electronic data transfer, process simulation, and RTM technologies can reduce mold costs and development times by 75% or more.RTM is particularly useful when tool geometry makes traditional machining difficult due to part complexity or specific geometric features such as undercutting.
RTM achieves high by reducing tool costsBatch processes, such as injection molding, are competitive at lower production volumes.The benefits are the biggest for the mass production and value reduction sectors --to-Consumer electronics, auto parts, toys and other markets.Toy manufacturers prefer to develop and distribute a large number of products early in the fall, allowing the market to decide which products to produce in bulk and rapidly increase the production of those products that are successful on store shelves.This approach requires the ability to quickly produce tools and molds for award-winning toysIt is an ideal application of RTM technology.The main RP technologies include stereo forming, selective laser sintering, 3-D.
Printing, modeling of molten deposition, manufacturing of laminated objects and soldier processes.In stereo printing developed by 3D SystemsCuring photosensitive resin with UV laser.Commercial selective laser sintering of DTMAustin, Texas.Involving laser-Induced fusion of polymer or polymercoated powder.In 3-D printing developed by MIT, adhesive is inkSpray on the powder.
Modeling of molten deposition developed by StratasysEden Prairie in Minnesota, Involving hot plastic extrusion.Manufacture of laminated objects developed by HelisysIn Torrance, California.The paper is cut by laser.Soldier, developed by stereo AmericanIn Warren, Michigan.UV curing involving a layer of resin at a time (Other techniques deal with one point in one layer at a time).
Alternative RP technologies such as inkJet Printing of wax or resin (Not a binder), Is being developed at the beginning-Ups such as Sanders and solligan, E.And other Fortune 500 companies.I.DuPont De in Moore the companyand IBM Corp.And universities like MIT, the University of Texas at Austin and Carnegie Mellon.
Several plastic manufacturers including 3m Company, Ciba-Geigy Ltd.And United signal Corporation, Develop and commercialize professional materials for RP.These technologies are being used by many manufacturing companies and service bureaus to manufacture prototype parts for design review and testing in product development and as a step towards production tools.While the US is leading the RP industry, there are significant developments in Europe, Israel and Japan.For example, Teijin Seiki in Osaka, Japan produced UV curing resin for stereo molding, producing parts with great improvement in structural performance, which for mold or low for prototype manufacturing processMass production.
RP annual revenue of about $0.billion, worldwide growth at more than 30% per year.RTM is still in the growth stage.It has the potential to change the basis of competition, but it is not fully embodied in the tool yet --making process.At present, many technologies such as QuickCast, 3D printing and RapidTool have been successfully developed.
Rapid prototyping is an indirect process in which stereoscopic molding creates a mold geometry or pattern in the cellular structure of the polymer material.The pattern was then cast into a metal mold.Many traditional processes and materials, such as epoxy, rubber, plaster and ceramics, can form molds from patterns.D printing and quick tools are a direct process.D printing of mold geometry in metal powder with polymer adhesive, then sintering and penetration to form metal mold.
RapidTool involves selective laser sintering of polymersThen penetrate the coated metal powder forming the metal mold.Tools that RTM is being used to create high prototypesVolume process and lowMass production applications.Ford Motor Co.For example, use RTM to produce metal molds for plastic parts on its browser line.Bose Corp.
Use RTM to create parts for a successful bid package for the car app.Pitney Bowles Inc.Use this technology to make chemical bonded ceramic molds for the base of the new stamping machine.Using RTM, DePuy USA produces tools for hip handle implants.Other methods for RTM include steam deposition and spraying processes for depositing metal layers onto physical geometry, which may have been created by one of the RP technologies or other processes.
The layer forms the surface of the mold, supported by cast epoxy or metal.RTM is not a worry without growth.The technology has limitations in accuracy, speed and capability, limiting its current prototype and lowvolume tooling.These restrictions are being addressed in development efforts and are expected to be eased in the near future.As the technology becomes more user-friendly and robust, there will be no need for such a high level of expertise in RTM.
Traditional toolsIn order to cope with the threat of RTM, manufacturing technology may be improved, just like the improvement of automotive steel plates, as the car body is increasingly replaced by reinforced plastic.General purpose plastic for work, Pittsfield, quality.Other companies said that by improving process management and concurrency (Not in order)Tool development.Computer numerical control and engineering data management are improving the ability of traditional metal removal processes for manufacturing tools.Industrial response to manufacturer of RTM original equipment (OEMs)Ford, Texas Instruments, United Technologies and DePuy are pushing the technology to parts suppliers and tool manufacturers.
Leading manufacturers of tools and molds such as Santin Engineering Inc.Laserform Inc.Technology Products CompanyRTM technology is implemented.These early adopters are able to provide early process validation and faster turnaround for their customers.Other parts suppliers and tool manufacturers will find that they need to develop RTM technology to meet the needs of more OEM support for product and process development.
Tool-and die-Enterprises should develop a consistent business and technology plan based on changing customer needs, industry structure and existing technologies.They may choose to support the customer for "one-stop shopping.This goal requires capital and starts investing in RTM and several other product development features.This investment in product development and rapid tool manufacturing should be closely coordinated with strategic customers to ensure consistent expectations of product development roles and responsibility, as well as compatibility of hardware and software.Alternatively, tool and mold manufacturers can choose a narrower business goal, choose to be independent of specific customers, and make corresponding different and more modest technology investments.
This strategy may include working with other organizations to meet the needs of customers.Some RTM methods, such as QuickCast, use several different technologies, each of which requires different capital equipment and expertise.In this case, RTM may be best implemented by a company team.Ford, for example, worked with Laserform to produce stereo printing for Howmet Corp.Used for investment casting, ATC Nymold for tool manufacturing for production of browser wiper module cover mold.
Depending on the resources and expected usage, the selected process can be implemented in an internal or external service company.Peter Hilton is the president of technology strategy consulting, based in Concord, Mass.
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