#Compression molding
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Carbon Fiber and Composite Materials: A New Era for Heavy-Load Railway Freight Cars
The Role of Carbon Fiber Composite Materials in Modern Rail Transportation
Jointly developed by the China Energy Group’s Railway Equipment Company, the Beijing Low-Carbon Clean Energy Research Institute, and CRRC Qiqihar Rolling Stock Co., Ltd., these railway freight cars not only represent a leap forward in the application of new materials but also contribute to green, low-carbon rail transportation solutions.
Lightweight and Intelligent Design for Energy Efficiency
Under the guidance of national strategies like "Strengthening Transportation" and "Dual Carbon," there is a growing demand for the green transformation of the transportation sector. The China Energy Group, managing over 57,000 railway freight cars, plays a key role in transitioning toward energy-efficient, lightweight solutions for large-scale freight operations, particularly in coal transport.
The new carbon fiber composite railway freight cars are a significant advancement in lightweight, high-strength, and low-energy solutions. These cars are a direct result of integrating compression molding technology and advanced composite materials, setting new benchmarks for efficiency and sustainability.
Advantages of Carbon Fiber Composite Materials
1. Higher Strength-to-Weight Ratio
Compared to traditional materials, carbon fiber composites offer a strength-to-weight ratio 3-5 times higher than aluminum alloys, making them ideal for heavy-load railway freight cars. This higher ratio allows for reduced vehicle weight without compromising structural integrity.
2. Reduced Weight for Increased Efficiency
The carbon fiber composite body reduces the weight of the railway freight cars by more than 20% compared to similar aluminum vehicles. This significant weight reduction, with a self-weight coefficient as low as 0.22, allows for greater load capacity and improves overall transportation efficiency.
3. Enhanced Durability and Environmental Resistance
Technological Innovations in Heavy-Load Freight Cars
1. Optimized Bogies and Air Brake Systems
The new cars are equipped with optimized K6-type bogies, which enhance load distribution and stability. Integrated air brake systems ensure efficient braking, further improving the cars' safety and control.
2. Smart Monitoring Systems for Real-Time Data Collection
These freight cars incorporate smart monitoring systems powered by IoT, big data, and cloud computing, enabling real-time data collection on the performance of the cars. This system improves predictive maintenance and helps optimize energy consumption, contributing to greener transportation solutions.
Compression Molding: A Key Manufacturing Technique
The use of compression molding for carbon fiber composite materials has been instrumental in the development of these new railway freight cars. Compression molding allows for the efficient production of large, complex parts with precision, making it ideal for large-scale components such as the car bodies.
Advantages of Compression Molding for Carbon Fiber Components
High precision and consistency in part production.
Efficient manufacturing of large parts in a single operation.
Minimized material waste, especially important with high-cost materials like carbon fiber.
Conclusion: Pioneering the Future of Green Rail Transport
The successful development of carbon fiber composite heavy-load railway freight cars signals a major step forward in the future of rail transportation. With the combined benefits of lightweight design, improved durability, and cutting-edge technologies like smart monitoring systems, these cars offer revolutionary advantages for green, low-carbon transport.
As global transportation continues to evolve, the integration of composite materials and compression molding technology will remain pivotal in shaping the next generation of heavy-load railway freight equipment.
#compression tooling#compression mold#smc mold#bmc mold#smc tooling#bmc tooling#composite mold#compression molding
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Mastering Injection Molding- From Process to Perfection
Understanding Injection Molding
Injection molding is one of the manufacturing processes that involve injecting a plastic material into a mold cavity. When the material cools and solidifies it has the shape of the mold thus creating a finished part. It is admired because of the ability to generate primary highly detailed parts with repeated accuracy.
The Injection Molding Process
The injection molding process involves several critical steps: The injection molding process involves several critical steps:
Clamping: It means that the two halves of the mold are closed by the clamping unit with reliable tightness. It also has adequate force to keep the mold closed during the injection of the molten material into the mold.
Injection: Plastic in the molten state is forced to flow into the mold which is enclosed in the mold cavity through a nozzle. This plug assist is removed and the plastic is heated to a certain temperature so as to enhance flow and subsequent filling of the mold.
Cooling: Finally, when the mold cavity is packed the whole process of molding is completed by allowing the filled plastic to cool and harden. Again, the cooling time depends on the bearing material as well as the thickness of the part that is being made.
Ejection: When the temperature of the plastic has been cooled down and the plastic has become rigid it is ejected through the opening of the mold. To help in the ejection of the part, ejector pins or ejector plates are normally incorporated to make sure that there is a clean ejection of the part from the mold.
Finishing: The last operation might be the cutting off of the excess material, the part inspection to check the quality and do the secondary operations such as painting or assembling if any.
Advantages of Injection Molding
Injection molding offers numerous advantages, making it a popular choice for many industries: Injection molding offers numerous advantages, making it a popular choice for many industries:
High Efficiency: It can be used to manufacture huge quantities of the said parts fast and there is a high level of efficiency once the setting has been established.
Precision and Detail: It gives the ability to produce parts to fine details and small tolerances.
Material Versatility: Plastics, rubber and thermoplastic come in the list of materials which can be used for the manufacturing of the can holders for soda cans.
Low Waste: Leftover material is mostly reusable and can be recycled hence cutting on expenses for the same.
Applications of Injection Molding
Injection molding is used in a vast array of industries, including: Injection molding is used in a vast array of industries, including:
Automotive: Making main and accessory assemblies inclusive of dashboards, bumpers, and inner trims to name but a few.
Consumer Goods: Making goods such as toys, kitchenware, and enclosures of electronics among other products.
Medical: Making of accurate parts that are used in medical equipment, syringes and operations instruments among others.
Aerospace: Making lightweight but highly strong materials for air crafts, interior facades and other structural parts.
Conclusion
Speaking of the technological process, it is possible to note that injection molding is one of the most significant processes in contemporary manufacturing since it meets the requirements of efficiency, precision, and versatility. Depending on the type of injection molding process and the advantages that this technology offers industries, incumbent industries will enhance the production of parts to different uses. Injection molding remains a core component of automotive, consumer goods, medical, or aerospace manufacturing, and so forth, as a result of making production seamless and economical.
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Innovative Uses of 3D Printing Applications in 2024
3D Printing, also known as additive manufacturing, is a process of creating three-dimensional objects from a digital file. It has gained immense popularity in recent years due to its ability to create complex shapes and structures that were once impossible to manufacture. This article will provide an overview of 3D Printing, its importance in various industries, and its applications. Additionally, the article will focus on the 3D Printing services available in India.
What is 3D Printing or Additive Manufacturing?
Additive manufacturing is a process of creating a physical object from a digital model by adding layers of material on top of each other. The process involves slicing the digital model into multiple layers and then printing each layer one by one until the object is complete. The types of 3D Printing techniques include Fused Deposition Modeling (FDM), Stereo lithography (SLA), and Selective Laser Sintering (SLS). The materials used in 3D Printing include plastic, metal, ceramics, and even food.
The benefits of additive manufacturing include the ability to create complex shapes and structures, reduce waste, and decrease the time and cost of production. However, the drawbacks of Additive manufacturing include limited material options, the need for post-processing, and the potential for copyright infringement.
Importance of Additive manufacturing
3D Printing has significant importance in various industries such as healthcare, manufacturing, and aerospace. In healthcare, It is used to create customized medical implants, prosthetics, and surgical instruments. In manufacturing, It is used for rapid prototyping and product development. In aerospace, 3D Printing is used to create lightweight and complex parts for aircraft.
Moreover, 3D Printing has a positive impact on the economy and the environment. It reduces the cost and time of production, increases customization, and decreases waste. Additionally, reduces the carbon footprint of manufacturing by decreasing transportation and material waste.
Applications of 3D Printing
The applications of 3D Printing the applications of Additive manufacturing are vast and varied. In product development, It is used for rapid prototyping, allowing designers to quickly create and test new products. In architecture, 3D Printing is used to create scale models of buildings and structures. In fashion, It is used to create unique and customized clothing and accessories.
In healthcare, 3D Printing is used for creating customized prosthetics, dental implants, and surgical instruments. In education, 3D Printing is used to teach engineering and design concepts. In art, 3D Printing is used to create sculptures and other forms of artwork.
The potential of Additive manufacturing in the future is enormous. It has the potential to revolutionize manufacturing, reduce waste, and increase customization. Moreover, 3D Printing has the potential to create new industries and new jobs.
Advantage of Additive Manufacturing
3D printing technology has several advantages over traditional manufacturing methods.
According to TWI Global, some of the benefits of 3D printing technology include:
Flexible design: Allows for the design and print of more complex designs than traditional manufacturing processes.
Faster production: Quicker than conventional manufacturing, including injection molds and subtractive production.
Reduced waste: Generates less waste than traditional manufacturing methods.
Cost-effective: Cost-effective for low-volume production runs, and it eliminates the need for expensive tooling used in traditional manufacturing processes.
Customization:Allows for customization of parts and products, which is not possible with traditional manufacturing methods.
3D Printing Services in India
There are several 3D Printing services available in India. These services offer a range of materials, colors, and finishes. The pricing of these services varies depending on the complexity of the object, the material used, and the delivery time.
Some of the popular 3D Printing services in India include 3Dexter, Fracktal Works, and think3D. These services offer a range of materials, including plastic, metal, and ceramics. They also offer a range of delivery options, including home delivery and pickup.
Various industries use additive manufacturing technology. According to the 3D Printing Industry, some of the industries that use these technologies include:
Aerospace and defense
Architecture and construction
Automotive
Dental and medical
Education
Fashion
Jewelry
Manufacturing
Product design
Research and development
Best websites to learn about 3D printing
There are several websites available for learning about 3D printing. Here are some of the best websites to learn about 3D printing:
Tinkercad: Tinkercad is a free web-based 3D design and modeling tool that is easy to use and perfect for beginners. It offers a range of tutorials and projects to help users learn the basics of 3D printing.
Instructables: Instructables is a website that offers step-by-step instructions on how to build and make things. It has a dedicated section for 3D printing and offers a range of tutorials on how to design, print, and finish 3D printed objects.
Make: Make is a website that offers tutorials, projects, and news related to 3D printing and other DIY projects. It has a dedicated section for 3D printing that covers everything from design to post-processing.
3D Printing Industry: 3D Printing Industry is a news website that covers the latest developments and trends in the 3D printing industry. It offers a range of articles, reviews, and tutorials that are useful for both beginners and experts in the field.
Simplify3D: Simplify3D is a website that offers software for 3D printing. It has a dedicated section for learning about 3D printing that covers everything from the basics of 3D printing to advanced techniques.
These websites provide a wealth of information for anyone looking to learn about 3D printing, from beginners to experts.
Conclusion
In conclusion, 3D Printing is a revolutionary technology that has significant importance in various industries. It has the potential to change the way we manufacture, reduce waste, and increase customization. Additionally, 3D Printing services are available in India, providing a range of materials, colors, and finishes. As 3D Printing technology continues to evolve, it will create new opportunities and new industries.
Sources:
https://www.tinkercad.com/
https://www.instructables.com/
https://makezine.com/
https://3dprintingindustry.com/
https://www.simplify3d.com/
#3dprinting#mold manufacturing#compression molding#3d printing services#3d printing for plastic#product 3d printing
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Twenty-one properties of plastics, this time I sorted them all out
1. ABS plastic
English name: Acrylonitrile Butadiene StyreneSpecific gravity: 1.05 g/cm3 Molding shrinkage: 0.4-0.7% Molding temperature: 200-240℃ Drying conditions: 80-90℃ for 2 hours
Material properties1. Good overall performance, high impact strength, chemical stability, and good electrical properties.2. Good fusion with 372 plexiglass, made of two-color plastic parts, surface can be…
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#ABS plastic#amino plastics#ASA plastic#Bakelite#compression molding#Epoxy resin#ETFE plastic#extrusion molding#injection molded products#injection molding#injection pressure#Material properties#mechanical parts#medical device parts#medical equipment parts#molding#molding process#molding shrinkage#Molding temperature#Nylon 1010#Nylon 6#Nylon 610#nylon 66#PA plastic#PAR plastic#PC plastic#PE plastic#PFA plastic#plastic parts#plunger injection machine
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https://www.dowellmoulds.com/blog/processes-for-molding-thermosetplastics-and-thermoplastics
#Dowell Moulds#plastic mould manufacturers in India#Injection molding#Compression molding#Transfer molding#Blow molding#Extrusion molding#Thermoset#Thermoplastic#Mold cavity#Gate#Pellets
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What are 3 Types of Compression Molding?
Unravel the intricacies of compression molding and its transformative role in creating carbon fiber products. From aerospace to sports gear, understand the techniques driving durability and precision. Where engineering meets artistry!
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Guys I messed up 😅
One of the number one rules with working with silicone and molds and resin in a pressure pot is you don't seal in a pocket of air.
Guess what I accidentally did in the stupidest way possible 😅 on the cute d6s I was super excited about too!
I was able to remove them by hacking at the bumps with some wire cutters until they lost adhesion with the face (which I realize is something I need to fix in the process) and I was able to peel them off, which took the paint with it but it should be easy to fix now.
They have hearts for the 6 faces and I love them so I'm going to fix them but it's a learning moment I didn't necessarily want to have today but at least it was salvageable!
#it's been a rough day#it's not even noon yet and i already want to just go back to sleep#it's been raining all morning which means I've been in pain since last night#and it's been fairly intense today#so i was hoping for a win with these cute d6s because the set is a rainbow and they have hearts as the 6s#and then this happened#and i knew immediately what had happened when i saw it#to explain the pocket of air thing: this final step is casting them after inking them in a mold with no numbers so the 6 face disappears#and that mold happens to be open-faced and when I've used it previously I've gotten raised faces so i tried to use a little silicone mat#this mat happens to be longer than that mold but also thin and stretchy which is important#i used a mold weight to keep it from lifting in the center. this particular mold weight was a failed 6d6 mold#for some reason i used it with the d6 cavities facing down which meant there were cavities of air touching the mat#which maybe would have been fine if there wasnt resin in between them for some reason#this resin sealed the space between the mat and the weight which meant those cavities were sealed#again a big no-no in this situation because a pressure pot compresses air#which means that space has no choice but to get smaller because that air inside can't normalize pressure with things outside of it#so it pulled the very thin and very stretchy mat up in an attempt to normalize#well the surface underneath the mat had a lot of resin and it was also sealed and resin doesn't compress (as much?)#so the mat being lifted created this vacuum of sorts that pulled the resin into it like how drawing up a syringe works#and then it cured like that#thankfully the resin is still flexible enough at this stage that once i broke the seal between the two layers it peeled off#which tells me taht in the future i should sand the faces before doing this step to help adhesion so they cant separate#usually separating is bad but in this case it saved me literal hours of sanding because that's what it would have took to fix this#i am good at making dice i promise#this is still in development so I'm still figuring out the fine details within the process#there's no catch-all course you can take to learn these things so I'm kinda just winging it anyway#these are meant to be examples of a method to be used to make custom-faced dice without them being custom-molded#because making one-off designs this way saves on silicone and making the masters in the first place#not something i thought I'd be doing as much but working on this process is why I'm waiting to open commissions again#because this was a majority of the requests i got
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Effects of Thermoforming Parameters on Carbon Fiber Thermoplastic Composites
The quality of woven carbon fiber fabric/polycarbonate thermoplastic composites after thermoforming and demolding has been a subject of considerable research, especially for applications in industries that require SMC molds and composite molding. These composites are critical in sectors utilizing compression molds and carbon fiber molds.
Key Thermoforming Parameters
The study focused on three key thermoforming parameters, each having three levels, similar to those considered in compression molding:
Blank Temperature: Influences the material's flexibility and ability to conform to mold shapes, crucial in SMC tooling and BMC molding.
Mold Temperature: Affects the final shape fitness and surface finish of the composite, often impacting thermoforming molds and SymaLITE molds.
Blank Holding Pressure: Plays a crucial role in keeping the material in place and ensuring consistent molding, essential for composite molds like SMC moulds and carbon fiber molds.
Results and Analysis
The finite element simulation revealed that the stress-displacement curve obtained from bias extension tests closely matched the simulated results. This verified the reliability of the discrete finite element method used in this study, which has parallels with the validation processes for SMC molding and press tooling.
Moreover, the Taguchi orthogonal array analysis identified blank holding pressure as the dominant process parameter, much like in compression molds and BMC tooling. The optimal value for blank holding pressure was found to be 1.18 kPa, making it the most critical factor in the thermoforming process. Blank temperature was the second most influential factor, with an optimal range of 160°C to 230°C. Interestingly, mold temperature had a relatively minor effect on the final composite quality, similar to the behavior observed in GMT molds and D-LFT molds.
Optimal Thermoforming Settings
The study recommended the following optimal settings for the thermoforming of woven carbon fiber fabric/polycarbonate thermoplastic composites:
Blank Holding Pressure: 1.18 kPa (critical for compression molds and SMC moulds)
Blank Temperature: 230°C (relevant for thermoforming tools and hot compression molds)
Mold Temperature: 190°C (beneficial for composite molding and carbon fiber molds)
Conclusion
In summary, the results of this study provide valuable insights into the effects of thermoforming parameters on woven carbon fiber fabric/polycarbonate thermoplastic composites. The study concluded that blank holding pressure and blank temperature are the two most important factors, with mold temperature playing a secondary role. These findings are essential for those working with composite tooling, thermoforming tools, and compression molds, providing a clear pathway for producing high-quality composites with desirable spring-back angle, fiber-enclosed angle, and mold shape fitness.
#compression tooling#compression mold#smc mold#bmc mold#bmc tooling#smc tooling#composite mold#compression molding#carbon fiber mold#thermforming mold
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Introduction to Mould Manufacturing 2024
Plastic mould manufacturing is the process of creating mould or tools for the production of plastic parts. The mould are designed to shape and form plastic materials into specific shapes and sizes, allowing for the production of identical parts at a rapid pace. This process is widely used in various industries, including automotive, medical, and consumer goods.
The fundamental principle behind plastic mould manufacturing is to create a negative impression of the desired product, which is then used to cast the final product. The mould are made from high-quality materials such as steel or aluminum, which are capable of withstanding high temperatures and pressure. The mould are designed to accommodate the specific properties of the plastic material, including its melting point, viscosity, and shrinkage rate.
There are two primary types of plastic mould manufacturing: injection moulding and compression moulding. Injection moulding involves injecting molten plastic material into a mould cavity, which is then cooled and solidified to create the final product. This process is highly efficient and produces high-quality parts at a rapid pace. Compression moulding involves heating plastic pellets and then placing them into a heated mould cavity, which is then compressed to form the final product. This technique is used for larger parts or when the part requires greater strength and durability.
Plastic mould manufacturing has a wide range of applications, from the production of small plastic components to large automotive parts. The process allows for the creation of complex parts with intricate shapes and sizes. The ability to create identical parts at a rapid pace makes it an essential process in modern manufacturing.
In conclusion, plastic mould manufacturing is a crucial process in the manufacturing industry. It allows for the production of high-quality plastic parts at a rapid pace, making it a highly efficient and cost-effective process. The use of advanced technology and high-quality materials has made plastic mould manufacturing an essential process in various industries, including automotive, medical, and consumer goods.
Mould Manufacturing Process
The process of manufacturing a mould is a complex one, and it's important to note that not all plastic mould manufacturers use the same methods.
The most common method used by manufacturers is CNC machining, which involves using computer-controlled machines to carve out the shape of your product in thin layers. This technique has been around for decades and allows for greater precision than other methods like EDM (electrical discharge machining) or grinding.
Plastic mould manufacturing is a complex process that involves several steps to create high-quality mould for various industries. The process begins with designing the mould using computer-aided design (CAD) software. This software allows engineers to create a detailed 3D model of the mould, including all the intricate details required for the final product.
Once the design is complete, it's time to move onto the manufacturing stage. The first step in manufacturing is to create a mould base using steel or aluminum. This base is what will hold all the various components of the mould together. The base must be designed to withstand the high pressure and temperature required for the moulding process.
Next, the mould is assembled, which involves attaching various components such as the ejector pins, the sprue bushing, and the runner system. These components are essential for the mould to function correctly during the moulding process.
The next step is to machine the mould. This involves using specialized equipment to create the cavities and cores required for the final product. This process involves a high level of precision, and any errors or imperfections can result in a faulty mould.
Once the mould is machined, it's time to test it. This involves running a trial batch of plastic through the mould to ensure that it produces the desired product. Any issues with the mould or the moulding process can be addressed in this stage.
Finally, after the mould is tested and approved, it's ready for production. The mould is attached to an injection moulding machine, and plastic is injected into the cavities to create the final product. This process can be repeated thousands of times to create a large number of identical products.
Overall, plastic mould manufacturing is a complex and intricate process that requires a high level of skill and expertise. From designing the mould to running production, every step of the process must be executed with precision to ensure a high-quality final product.
1. Introduction
Mould manufacturing is an essential process in the production of various products, including automotive parts, consumer goods, and medical devices. Identifying different types of mould is crucial to ensure that the correct type is used for each product. In this guide, we will discuss the different types of mould prevalent in the mould manufacturing industry, their unique characteristics, materials they are best suited for, and the benefits and drawbacks of each type.
2. Types of Mould
Plastic Injection Mould:
Thermoset Compression Mould:
Blow Mould:
Rotational Mold:
3. Precautions and Safety Measures
Different types of mould have different safety considerations, but in general, it is important to wear appropriate personal protective equipment (PPE) when working with mould, such as gloves, goggles, and respirators. It is also important to follow proper handling and storage procedures to prevent mould contamination and ensure optimal mold performance.
Conclusion
Identifying different types of mould and understanding their unique characteristics, materials they are best suited for, and the benefits and drawbacks of each type is crucial to ensure that the correct type is used for each product. Proper maintenance and cleaning of mould are also essential to prevent mould contamination and ensure optimal mould performance. By implementing the knowledge gained in this guide, manufacturers can improve their mould manufacturing processes and produce high-quality products with greater efficiency and consistency.
#mold manufacturing#mould manufacturing#plastic molding#thermoset compression mould#cnc machining#injection molding#3d printing#manufacturing#compression molding#mumbai#india#blow mould#rotational molding
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ugh I'm so tired😔I wish nobu was real so he could hold me in his big strong arms
#I'll probably go to bed soon. I just wanna be held#more like squeezed or compressed like a ball. oh to be the volleyball he plays with😔#<in like a nonsexual way. like yk when SpongeBob gets molded into a different shape#but like his face is still there and now he's just... a sphere with a face#yeah.. 💔#I want that. and he could carry me under the crook of his arm#it would be fun I think#💘. rambles#nobu🐢
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https://youtu.be/UdTLnZQAZNw
A re-explanation of my programming & math behind a play on roko basilisks being like "God" & other things for what's it worth as an operating system I want to make from scratch and put out there.
#programming#operating system#math#algebra#god#roko basilisk#transistor#physics#dynamic#slime mold#encrypted#compressed#random
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Science of Resilience: Silicone Compression Molding Techniques Unveiled
Silicone compression molding reaches new heights of excellence with Rubber-MoldedProducts. Harnessing advanced technology and expertise, we deliver silicone products of unparalleled quality and resilience. Whether for medical devices or consumer electronics, our compression molding techniques ensure precise manufacturing, meeting the most stringent standards. Partner with us for silicone solutions that redefine durability and performance in diverse industries.
#Custom Rubber Molding#Silicone Compression Molding#Custom Gasket Manufacturing#Custom Rubber Extrusion
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multi shot flip tops mold
China 2k mold maker, offer multi shot flip tops, bicolors compression snap cap, double screw flip cap plastic bottle mold, bi injection bottle cap butterfly lid
#China mold#2 component mold#bi material mold#multi shot mold#two color flip tops mold#2k compression snap cap mold#rotary mold screw flip cap plastic bottle#double bottle cap butterfly lid mold
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24Cavity Cap Compression Molding
Machine
24 Cavitiy High Speed Cap Compression Molding Machine
Cap:28mm,30mm, 38mm
Neck:PCO1881,PCO1810,30/25, 29/25, etc…
The compression molding is already a well known technology worldwide,
many of water cap or beverage cap are produced through compression
moulding , instead of injection moulding.
This machine adopts the oil pump to provide the pressure, the pressure is
bigger and stabel, and it can provide the same pressure to every mold, so
the cap made from this machine looks more beautiful and with tight
structure.
Cap molding speed is faster, less difference of required quality than other
factories. Moreover, this type of machine expands the product type and
range of cap diameter to satisfy the indiviauating demands of customer.
From the consideration of energy and material consumption and
environmental protection, this compression molding machine is trend of
present and future. It provides a good platform for intelligent, information and
control process.
This machine has the follwing advantages. Full Automation,High efficiency,
change of different molds, multiuse of one machine.
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the thought of being fucked full-nelson style by sukuna while sitting on his throne won’t leave my mind
☆ ໋𓈒 tags. fem! reader, tf! sukuna, full nelson, size diff + size kinks, dirty talk, unprotected, brēeding, mentions of tummy bulge, ( little one, princess, brat . . ) mdni.
“hn. how pathetic,” the notorious demon snickers, baring a single fang as he watches the tip of his swollen angered cock disappear between your runny folds. your thighs shook instantaneously, and he’s lazily slouched back on his throne. a bawled up fist rests near his chin as he watches you with crimson eyes filled of nothing but pure amusement and a mocking head tilt. “don’t make me fall asleep, now. you said you could take me ‘n you’re not even halfway in, princess.”
you bite the inside of your cheek at his playful taunts — so annoying, he just wouldn’t shut up. “ ‘m trying, ‘kuna,” you moan, the stretch of his throbbing cockhead making the center of your mouth salivate. the sleeves of his kimono were slightly ruffled from you tugging on it. he’s got the smuggest grin as your legs part themselves just a bit further. seconds go by before you sigh, slumping into his chest. “help me, ‘kuna. please.”
“so easy to give up,” he mumbles in a gruff tone, bringing one of his big hands to pat the back of your head. you lean into his touch, and as you’re so close to him—you’re engulfed by his natural loud musk. “finee,” he sharply adds, and you gasp once he turns your body around, positioning you in such a way. you’re still placed on his lap but he grabs both of your legs, pulling them upward. “i’ll help you, little one. now now, lie back ‘n allow your king to give you a nice ‘lil stretch.”
your mouth slightly drops, dramatically going agape once he restrains you in a safe manner . .
sukuna’s got you taking his heavy cock again, but this time, you feel the stretch reach everywhere.
he’s got two pairs of arms locking behind your head with the other two clinging onto your thighs. a few sharp nails dig into the fat of your skin, leaving a plethora of marks he’d want to kiss over later. “fuck,” he grunts, hearing the squelching whimpers of your sweet cunt. everything’s slow, it’s as if time stood still as you’re trying to take him. you swallow a lump near the back of your throat that seemed to be growing every second.
the demon sat underneath you was big—he liked pounding you ruthlessly in full nelson because more than anything, he loved seeing you stretched.
the dumb sounds you make, it rings through his ears. speaking of, he gets up close to the lobe of your ear, flicking his forked tongue against it. “s- sukuna,” you whine, and with a ‘pop’, you felt your ass grind right into his lap. already, he’s molding a tiny tummy bulge near the center of your stomach. he’s so deep, once he starts, it’s practically over for your limps. “ngh, ‘s big, ‘kuna.”
“keh, obviously. the perfect size for you, princess.” he groans, tightening his grip just a tad bit against your legs. a hand of his feels the bulging spot near the center of your tummy before he hums. “ ‘kuna’s riiiight fuckin’ here, brat.”
he’s got you in a secure lock. his arms felt warm, and through your blurred peripherals, you glance at his ancient cursed markings that paint all across his bulky, burly arms.
so big, you’re already drooling as you’re bouncing on his cock. the crushing compressing weight of both bodies—mainly yours, causes his throne to be more rickety. it’s whining and groaning out creaks each time your speed against his lap increases, and he’s practically treating you like a doll.
a porcelain doll he didn’t want to ever break.
at least, not yet. .
“fuckin’ nasty girl,” he huffs, one of his hands going toward your face. he smears a palm over your mouth, your pouring drool that streams from the corners of your lips landing on his hand. he’s got a wolfish smile, hearing your babbled whimpers get louder as he’s stretching you silly. “i spoil you too much, spoil this sloppy pussy too much too, hmph.”
“mmph. suku— sukunaaa,” your sweet stammers of moans grew more bouncy as you bucked your swiveling hips further onto him. it didn’t take long before your raw vocal chords start to die out, growing strained and weak. you dramatically elongate each syllable of his name that streams from your lips as his cock plummets into you full. the sweltering hot crown of his shaft kisses all around your gummy walls, reaching so deep that you’re practically yanking roughly on the edges of his silky kimono sleeve. “fuck, fuck, ‘m gonna cum, ‘kuna.”
a throaty chortle from sukuna makes your cunt twitch as he holds you upright — so cute, he’s so much bigger than you, merely dislocating your limbs with a few sets of his arms. he barely had to do anything and yet you were easily overpowered by his body. your mouth hangs open as he’s shoving such thick inches in and out of your slobbering pussy, coating his entire base with your cascading slick. “are you asking or are you just sayin’ y’r gonna cum, little one?”
the insides of your thighs were so sticky, already sticking together and you’re a babbling mess as his dick continues to make you stupid. “lemme cum please, ‘kuna. please, pretty please. stuffin’ me so full, fuuuck.”
“there’s those sweet manners,” he purrs in a husky tone—the back of his lips meets near your ear, giving it a soft peck as you continue to move. you feel a swarm of fluttering butterflies circle inside the pits of your tummy, but you knew that could also be the bulge of his cock constantly rutting deep into your clingy insides. “ah,” he snarls, his tip thrashing vigorously against a certain spongey spot. right there, you let off a sweet squeal as his sloppy thrusts start to punctuate again and again until your candied coated moans reverberate throughout the walls of his regal royal chambers. “fuckin’ shit,” he hisses, and as your hips continue to slam onto him, he’s realizing he’s coming close too.
your eyes were droopy as he’s still got you in such a lewd position — he’s so strong, proudly holding you up to where you’re just a doll bouncing on his cock. his throne remains wailing out moans of its own from the heavy masses of weight jerking on top of the furniture. he’s balls deep into your core, feeling how sweetly your cunt’s being massaged.
“c’mon, messy girl. give it t’ me then. make a sloppy mess on your king, princess,” and his sable-darkened nails gently scrape against your skin. it’s almost soothing, he’s got you in a tight safe chokehold hold and you’re basically chasing your own breath.
you whimper as his warm breaths tickle such a carnal itch in your brain. sukuna allows for you to bounce on him quicker and harder until eventually, your release came. your sweet little cry of finishing rapture was adorable—he hears how even after you’ve creamed all down his cock from the salacious skin slapping, your irregular breaths never falter. “ugh,” he grumbles, feeling his own release eventually match up as if it was right on cue. he bellows out a rough animalistic growl before he’s cummimg, shooting blanks. satiny ropes shoot into you, its balmy hot temperature making you gasp. it’s thick and slimy, pumping you full to the brim so good that it even leaks out.
he loosens his taut grip on your numb legs that were positioned in the air before he sighs—it’s still coming out, his angered tip was tucked inside your pussy as you’re just defeated, collapsed back on his chest.
“good girl,” he pants, hearing the erotic sloshes of his own cum continuing to spurt and ooze deep inside you. now, you’re an entire puddled mess. he creeps a broad open hand between your thighs, dragging a thumb down your slobbering slick to gather up a drop of his filthy dribbling cum. “my, my, look at thaaat,” he coos lowly, and you moan once he resumes, dragging a plump thumb down your sloppy cunt. a bit of his own mess soaks onto his finger before he brings it up to his mouth, lapping at your fresh juices, getting a taste himself. “mhm, she’s as sweetest as she’s ever been,” and you let off a gasp once another one of his palms rudely spanks your wet cunt.
“messy baby.”
#★vegasbaby.#sukuna smut#sukuna x reader#sukuna x y/n#sukuna x you#ryomen sukuna x reader#sukuna ryomen smut#sukuna ryomen x reader#jjk smut#jjk x reader#jujutsu kaisen x reader#jujutsu kaisen x you#female reader
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The Beginner's Guide to Compression Molding
Introduction to Compression Molding
Compression molding is a versatile manufacturing process widely employed in various industries for creating intricate parts and products. Unlike injection molding or extrusion, this method involves the use of heat and pressure to form raw materials into the desired shape. It's renowned for its efficiency and ability to produce high-quality, durable components.
#History of Compression Molding#Compression Molding Process#Benefits of Compression Molding#compression moulding products#Types of Compression Molding Techniques#Step-by-Step Compression Molding#Compression Molding Industry Overview#mould manufacturers in India#Dowell Moulds.
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