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wrote-a-article · 2 years ago

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The Future of Magnetic Grills: Advancements and Emerging Technologies

As industries continue to seek out ways to increase efficiency and reduce equipment damage, magnetic grills have become a go-to solution for many. From the food and beverage industry to pharmaceuticals and beyond, magnetic grills have proven their value in a wide range of applications.

But what does the future hold for magnetic grills? As technology continues to advance, what new developments can we expect to see in this field?

One promising area of development is the use of stronger magnetic materials. By using magnets with higher strength, magnetic grills can attract even smaller particles, leading to increased efficiency and more thorough cleaning.

Another area of focus is on developing more customizable magnetic grills. This would allow industries to tailor the size and shape of the grill to their specific needs, further increasing the efficiency of the cleaning process.

In addition, emerging technologies such as artificial intelligence (AI) and machine learning are being explored as ways to improve magnetic grill performance. By analyzing data from the cleaning process, AI algorithms could identify patterns and optimize the cleaning process for maximum efficiency.

Despite the exciting advancements and potential of magnetic grills, it's important to note that proper maintenance and cleaning remain crucial to their effectiveness. Without proper upkeep, magnetic grills can become clogged and lose their magnetic strength, leading to increased equipment damage and downtime.

In conclusion, the future of magnetic grills is bright, with advancements in magnetic strength, customization, and the incorporation of emerging technologies such as AI. However, it's important to remember that even with these advancements, regular maintenance and cleaning will remain critical to their success.

What are hopper magnetic grills and how are they used in industrial settings?

Hopper magnetic grills, also known as magnetic separators or magnetic grids, are used in industrial settings to remove ferrous particles and contaminants from free-flowing dry and wet products. These magnetic grills are designed to fit inside hoppers, chutes, and pipelines and can be used in a wide range of industries such as food and beverage, pharmaceuticals, plastics, chemicals, ceramics, and more.

The hopper magnetic grill works by attracting ferrous particles to its magnetic surface while allowing the non-magnetic particles to flow through. As the product flows over the magnetic grill, the ferrous particles are attracted to the magnetic bars or tubes, which are typically made of high-quality rare earth magnets or ceramic magnets. Once the particles are attracted to the magnetic surface, they are held there until the magnetic grill is removed and the particles are cleaned off.

Hopper magnetic grills are particularly useful in industries that deal with powders, granules, and other free-flowing materials that are prone to contamination from ferrous particles. They are commonly used in applications such as flour mills, sugar refineries, spice factories, and plastic production plants to ensure product purity and quality.

In addition to their ability to remove ferrous particles, hopper magnet also offer other benefits such as low maintenance requirements, ease of installation, and compatibility with a wide range of products and processing environments.

Overall, hopper magnetic grills are a reliable and effective solution for ferrous particle removal in industrial settings. Their ability to enhance product quality and reduce equipment damage and downtime makes them an essential component in many manufacturing and processing operations.

Benefits Of Grate Magnets In Magnetic Separation

Grate magnets, also known as magnetic grids or magnetic grills, are used in magnetic separation to remove ferrous particles and contaminants from free-flowing dry and wet products. Here are some of the benefits of using grate magnets in magnetic separation:

Efficient Ferrous Particle Removal: Grate magnets use strong magnetic fields to attract ferrous particles and contaminants, removing them from the product stream. This results in a cleaner and higher quality final product.

Versatile: Grate magnets are available in a range of sizes and magnetic strengths, making them suitable for a wide range of products and processing environments. They can be used in gravity-fed or pneumatic conveying systems, hoppers, chutes, and pipelines.

Low Maintenance: Grate magnets require minimal maintenance and cleaning. The magnetic bars or tubes can be easily removed for cleaning, and the non-magnetic material can be easily wiped away.

Cost-Effective: Grate magnets are a cost-effective solution for ferrous particle removal. They are typically less expensive than other types of magnetic separators and can be installed easily.

Space-Saving: Grate magnets can be designed to fit into tight spaces, making them ideal for use in applications where space is limited.

Improved Equipment Protection: By removing ferrous particles and contaminants, grate magnets can help to protect downstream equipment such as pumps, valves, and processing machinery, reducing maintenance costs and downtime.

Regulatory Compliance: Many industries are subject to strict regulations and standards regarding product quality and purity. Grate magnets can help companies to comply with these regulations, reducing the risk of fines and legal issues.

Overall, grate magnets are a reliable and efficient solution for ferrous particle removal in magnetic separation. Their versatility, low maintenance requirements, cost-effectiveness, and ability to improve product quality make them a popular choice in a wide range of industries.

To learn more about the magnetic grill and its benefits, be sure to check out our website https://www.permagproducts.com/ In the meantime, feel free to leave your questions and comments below. We would love to hear from you!

#hopper magnet #magnetic grill manufacturer #magnetic grill #grate magnet #hopper magnetic grill

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jkindus · 2 months ago

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Types of Separation Vibrators: Which One Fits Your Application?

In industries where bulk materials need to be handled efficiently—whether it’s separating, sieving, conveying, or compacting—separation vibrators motor play a vital role. Choosing the right type of vibrator is critical, as it directly affects productivity, material flow, and operational efficiency.

As a trusted Vibratory Motor Manufacturer in India, JK Industries offers a wide range of industrial vibrators tailored for specific separation needs. But which one is the best fit for your application? Let’s explore the main types and what makes them ideal for different tasks.

Rotary Electric Vibrators: Versatility at Its Best

Rotary electric vibrators are among the most commonly used types in separation processes. These vibrators use rotating eccentric weights to produce centrifugal force, making them ideal for continuous-duty operations like screen separation and compaction.

Best For:

Vibrating screens

Hoppers and feeders

Conveying dry bulk materials

As a Top Vibratory Motor Manufacturer in India, JK Industries ensures these motors are designed for durability, low maintenance, and high performance in dusty, high-load environments.

Electromagnetic Vibrators: Precision-Controlled Separation

When your operation demands precision and controllability, electromagnetic vibrators are the go-to choice. They use magnetic coils to generate vibrations and offer fine-tuned control over amplitude and frequency.

Best For:

Feeding fine materials

Applications requiring adjustable flow rates

Lab or pharmaceutical use

Our clients in food processing and chemical manufacturing trust JK Industries for customized electromagnetic solutions that ensure clean, accurate separation.

Pneumatic Vibrators: Ideal for Explosive or Dusty Areas

In hazardous environments where electrical equipment might pose a risk, pneumatic vibrators offer a safe and effective alternative. Powered by compressed air, they are explosion-proof and perfect for dusty or volatile settings.

Best For:

Environments with flammable materials

Dry powder movement

Mining and cement plants

As a leading Vibratory Motor Manufacturer in India, JK Industries provides pneumatic vibrators that meet strict safety standards while delivering reliable performance under pressure.

Turbine Vibrators: Quiet and Maintenance-Free

Where noise and maintenance are concerns, turbine vibrators offer smooth, silent operation. With fewer moving parts and a compact design, these are ideal for industries with hygiene or space constraints.

Best For:

Food and beverage processing

Pharmaceuticals

Small hoppers and bins

JK Industries offers lightweight, high-speed turbine vibrators designed for minimal energy consumption and long service life.

Ball and Roller Vibrators: Budget-Friendly Choices

If you’re looking for cost-effective vibration solutions for light-duty applications, ball or roller vibrators might fit the bill. These are easy to install, portable, and good for intermittent use.

Best For:

Temporary setups

Small-scale operations

Low-duty material movement

Though often overlooked, these vibrators still hold value in specific use cases. At JK Industries, we supply high-quality roller-type vibrators that don’t compromise on reliability.

Choosing the Right Separation Vibrator: Key Factors

Before choosing a vibrator, consider the following:

Material characteristics (moisture, size, density)

Operational environment (temperature, humidity, explosion risk)

Load requirements

Frequency of use

Regulatory standards

Our team at JK Industries, recognized as a Top Vibratory Motor Manufacturer in India, assists clients by evaluating these parameters and recommending the most effective solution.

In Conclusion

The world of separation vibrators is broader than it seems—and choosing the wrong type can lead to inefficiencies, downtime, or even system failures. That’s why partnering with a knowledgeable, experienced Vibratory Motor Manufacturer in India like JK Industries can make all the difference.

We don’t just manufacture vibratory motors—we help industries optimize performance, reduce costs, and enhance reliability through tailored vibration solutions.

Ready to Find the Perfect Separation Vibrator?

Contact JK Industries today to discover why we’re a Top Vibratory Motor Manufacturer in India, trusted by industries across mining, pharma, food, and more.

#separation vibratiors #JK Industry #Top vibratory motor manufacturer

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notecountingmachine · 6 months ago

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ELCONS MIX VALUE COUNTING MACHINE Note Counting Machine (Counting Speed - 1000 notes/min)

CALL US 087507 88788

Brand

ELCONS

Model Name

MIX VALUE COUNTING MACHINE

Counting Speed

1000 notes/min

Detection Technology

UV Sensor, Magnetic Sensor, IR Sensor, Watermark Sensor, Metal Thread Detective Sensor

Acceptable Denominations

10 20 50 100 200 500 2000

Suitable Currency

INR , USD ETC

Adjustable Speed

Countable Note Size

50*110-90*190

Stacker Capacity

200 Notes

Hopper Capacity

300 Notes

#cash counting #bundle note counting machine #counting machines #currency counting machines #note detector machine #currency counting machine #note counting machine #counting machine #fake note detector machine #electronic safe

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cashcountingmachinebybankomat · 1 year ago

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Bankomat Basic Note counting machine

Basic Note Counting Machines

A basic note counting machine is a device used to quickly and accurately count stacks of banknotes. These machines are commonly used in banks, retail stores, casinos, and other businesses that handle large amounts of cash on a regular basis.The core function of a basic note counter is to rapidly count the number of bills in a stack. This is achieved by feeding the bills into a hopper, which then pulls them one-by-one past optical sensors that detect the presence of each note. The machine keeps a running count and displays the total number of bills counted.Most basic models are designed for counting a single denomination at a time. More advanced machines can handle mixed denominations and even detect counterfeit bills using ultraviolet, infrared, or magnetic ink sensors.Key features of basic note counters include:

High-speed counting, often over 1,000 notes per minute

Automatic start/stop when adding or removing bills from the hopper

Batch counting to separate bills into predefined amounts

Compact, portable designs for easy placement on a countertop

While lacking the more sophisticated functions of high-end models, basic note counting machines provide a fast, reliable, and cost-effective solution for businesses that need to process large volumes of cash. They help improve efficiency, reduce manual counting errors, and ensure proper cash management. When choosing a basic note counter, consider factors like counting speed, bill capacity, counterfeit detection capabilities, and overall durability. With a wide range of models available from various manufacturers, there are options suitable for businesses of all sizes.

#bankomatautomationprivatelimited #cash counting machine #cashdrawer #laminationmachine #papershader #billingmachine #notecountingmachine #currencycountingmachine #safelocker

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vkmagnets · 1 year ago

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V. K. Magnets have gained success in the market by manufacturing a remarkable collection of Box Magnet, Hopper Magnets, Drum And Bullet Magnet etc. We are a well known and reliable company that is incorporated in the year 2009 at Ludhiana (Punjab, India) and developed a well functional and spacious infrastructural unit where we manufacture these products in an efficient manner.

#V. K.Magnets #Box Magnet #Hopper Magnets

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meditechswabs · 1 year ago

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How to Effectively Clean Your Fargo HDP5000 Printer

Open the Printer and Remove Accessories

Begin by opening the printer door and removing the printer ribbon and card input hopper. Close the door once these items have been removed.

Clean the Printhead and Card Print Roller

Locate your Fargo 89200 Printer Cleaning Kit. The cleaning kit Includes 4 printhead cleaning swabs,10 adhesive cleaning cards,10 IPA cleaning wipes and 3 long alcohol cleaning cards.

Use the adhesive cleaning cards included in the kit to clean the interior of the printer.

Remove the adhesive backing from both sides of the cleaning card. Note: If your printer uses a magnetic encoder, make sure to leave the small liner strip along the top.

Power on the printer. Once it’s powered up, place the cleaning card on the printer input hopper.

From your computer, click the Start menu and select Devices and Printers. Right-click the DTC 1250e card printer icon and click Printing Preferences. In the Card tab, click the Toolbox button.

Select the Clean Printer tab and click the Clean button. This will initiate the cleaning process, which will clean the printer and the card print rollers.

When the adhesive cleaning card ejects, the cleaning step is complete.

Next, remove the long alcohol cleaning card. a. Open the front panel and insert the long alcohol cleaning card into the card hopper infeed rollers. b. Hold the card in place with one hand while pressing the Forward button for 10 seconds, then hold the Back button for 10 seconds. c. Feed the card through the printer by holding the Forward button until it exits.

Disconnect the printer power supply. Use the printhead cleaning swab from the kit to firmly wipe the surface of the print head back and forth, allowing it to dry. Then, use the cleaning wipe included in the kit to clean the printer casing and LED display.

Clean the Exterior

Reassemble and Restart

When everything is dry, reinstall the ribbon, film cartridges, and input hopper, and close the front door. Your HDP5000 retransfer printer is now clean and ready for use.

MediTech is a manufacturer that has focused on the production of Fargo cleaning supplies for more than 10 years. We provide a variety of Fargo cleaning kit, if you are interested, please contact us.

#Fargo HDP5000 #Printer Cleaning Kit #Fargo Cleaning Kit #Printer Cleaning

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faolonfiendrender · 1 year ago

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Another bit from the same world as the Union Transistor Company:

Coil-launchers

Simply put, as time went from the supply lines breaking down, much of the continent no longer has reliable access to standardized blasting caps, and those that do exist are quite expensive as having the working technology to make lead adzide is rare, same with lead styphnate and tetrazene. This leaves mercury fulminate options for blasting caps which is not ideal either.

The coil launcher is a response to this, at the heart of it, it is a tube made of some ferromagnetic material surrounded by coils wire, these materials are more readily scavenged from the wreckage, made with simple enough tools(eg. Hammer, Forge, and Anvil) or simply bought from traders that travel to the various working manufactories (like the Union Transistor Company, though they don’t tend to sell pipes). It uses a sequence of capacitors and relays to send a large current to part of the coil, which makes a magnetic field that pulls a ferrous projectile quite fast.

Now this is all coil guns. Most coil guns make the metal projectile itself fly out, coil launchers are designed so that the projectile is a big metal shaft that gets caught at the end after the cycle, along the way it propels basically whatever you stuffed down the tube.

Now, there are often ways that these devices become repeaters, the most obvious is that you design it to feed some standard shape from a magazine, but, you know, dropping a marble down the barrel will still work in a pinch, it just won’t self-reload.

Finally there are the machine launchers and coilguns, these are rarer and mostly stationary as they typically use a high current alternator hooked up to some form of steam engine to provide the power without the need for charging, and use the reverse cycle to return it as the magazine feeds, strictly speaking these don’t need to be launchers, but frequently the launchers have a hopper feed as well as the magazine that you can just put random roughy spherical junk into to shoot.

Coil launchers have become the standard for wanderers because 1. They can shoot almost anything, 2. With the availability of iron-sulfide batteries to store a lot of electricity with little weight, and easy enough to manufacture components, and 3. No fooling around with explosives is needed.

#transistor apocalyptic

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pointlevelind4 · 2 years ago

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Point Level Indication

The Vital Role of Point Level Indication in Modern Industrial Processes

In the world of industrial manufacturing and processing, precise control and monitoring are paramount. To ensure efficiency, safety, and quality in various industries such as food production, chemical processing, and oil refining, the need for accurate level measurement is undeniable. This is where Point Level Indication comes into play. Point Level Indication is a critical component of process control and safety systems, providing a dependable means of monitoring and controlling liquid or solid material levels. In this article, we will explore the significance of Point Level Indication in modern industrial processes, its various applications, and the technologies that make it possible.

The Importance of Accurate Level Measurement

Accurate level measurement is a fundamental requirement in industrial processes for several reasons. It plays a crucial role in maintaining product quality, optimizing production efficiency, ensuring safety, and minimizing waste. Here are some key points highlighting why precise level measurement is indispensable:

Product Quality Assurance: In industries like food and pharmaceuticals, even a slight variation in material levels can lead to inconsistencies in the final product. Accurate level measurement ensures that ingredients are added in the right proportions, guaranteeing product consistency and quality.

Process Efficiency: Precise level measurement allows manufacturers to control material flow effectively. This optimization prevents overflows, underfills, or material shortages, leading to increased production efficiency and reduced production costs.

Safety: Maintaining appropriate levels of materials in tanks or vessels is essential to prevent potential disasters, such as overflows or spills. Point Level Indication systems provide real-time alerts to operators when levels reach critical points, mitigating safety risks.

Resource Conservation: Accurate level measurement minimizes material wastage. By ensuring that materials are used efficiently, industries can reduce resource consumption and minimize their environmental footprint.

Regulatory Compliance: Many industries must adhere to strict regulations regarding material handling and storage. Accurate level measurement is crucial for meeting these compliance standards and avoiding legal repercussions.

Now, let's delve into the specifics of Point Level Indication and why it's a fundamental technology in achieving these objectives.

Understanding Point Level Indication

Point Level Indication is a level measurement technique that provides binary output signals, typically indicating when a material level reaches a predefined point. This "point" is often referred to as the critical level or switch point. Point Level Indication systems are designed to trigger alarms, activate control actions, or simply indicate when a specific level has been reached.

Point Level Indication devices are used to monitor materials in various containers, such as tanks, silos, hoppers, and pipelines. These devices are installed at specific points within the vessel, usually at the desired high or low level to act as a level switch. There are different types of Point Level Indication technologies, each suited to specific applications and industries.

The Technology Behind Point Level Indication

Point Level Indication relies on various technologies to achieve accurate and reliable level measurements. The choice of technology depends on factors like the type of material being measured, the environmental conditions, and the industry requirements. Here are some common technologies used in Point Level Indication:

Float Switches: Float switches consist of a float and a magnetic switch. As the liquid level rises or falls, the float moves with it. When the float reaches a preset level, it triggers the magnetic switch, generating a signal. These switches are simple, cost-effective, and suitable for a wide range of applications.

Capacitance Sensors: Capacitance sensors measure the dielectric constant of the material to determine its level. When the level reaches a specific point, the capacitance changes, triggering the sensor to activate an output signal. These sensors are widely used for both liquid and solid level detection.

Ultrasonic Sensors: Ultrasonic level sensors use sound waves to measure the distance between the sensor and the material's surface. When the distance matches the predefined level, the sensor sends an output signal. Ultrasonic sensors are effective for non-contact level measurement and are ideal for materials with irregular surfaces.

Vibrating Fork Sensors: Vibrating fork sensors work by vibrating a fork-shaped probe. When the probe comes into contact with the material, its vibration frequency changes. This change in frequency triggers a signal when the material level reaches the sensor's set point. These sensors are reliable for detecting both liquids and solids.

Rotary Paddle Switches: Rotary paddle switches employ a rotating blade that extends into the material. When the material level reaches the blade, it impedes the rotation, activating the switch. These switches are commonly used in applications where materials may form bridges or develop irregular surfaces.

Applications of Point Level Indication

Point Level Indication finds applications in a wide range of industries, serving as an essential tool for level control and monitoring. Let's explore some of the primary industries where Point Level Indication is indispensable:

Food and Beverage: In the food industry, precise level measurement is crucial for ingredient handling, filling processes, and quality control. Point Level Indication ensures that ingredients are added in the right amounts and that production processes run smoothly.

Chemical Processing: Chemical plants require accurate level measurement to prevent spills, overflows, and safety hazards. Point Level Indication is used to monitor the levels of various chemicals in storage tanks and reactors.

Oil and Gas: In the oil and gas industry, the storage and transport of hazardous materials demand precise level measurement. Point Level Indication devices are used in tanks, pipelines, and offshore platforms to prevent accidents and ensure efficient operations.

Pharmaceuticals: In pharmaceutical manufacturing, consistent product quality is vital. Point Level Indication plays a crucial role in ensuring that ingredients are mixed in the right proportions and that the production process meets strict quality standards.

Agriculture: Farmers and agricultural businesses use Point Level Indication to monitor grain levels in silos and tanks. This helps prevent overfills, maintain proper inventory management, and ensure the timely delivery of crops.

Wastewater Treatment: Municipal wastewater treatment plants rely on Point Level Indication to monitor and control liquid levels in various treatment tanks. This helps maintain the efficiency of the treatment process and prevent overflows.

Mining and Minerals: Point Level Indication is used in the mining industry to monitor the levels of raw materials in hoppers, chutes, and storage containers. This helps optimize material handling and prevent blockages.

The Benefits of Point Level Indication

The adoption of Point Level Indication offers numerous benefits to industries that rely on accurate level measurement. Here are some of the key advantages:

Safety Enhancement: The foremost benefit of Point Level Indication is its contribution to safety. By providing real-time alerts when material levels approach critical points, these systems help prevent overflows, spills, and safety hazards.

Cost Savings: Accurate level measurement reduces material wastage, leading to cost savings. Industries can optimize their material usage, minimize overfills, and reduce production downtime caused by material shortages.

Process Optimization: Point Level Indication enables efficient process control by ensuring that materials are added or removed at the right time. This, in turn, enhances production efficiency and consistency.

Environmental Responsibility: With precise level measurement, industries can reduce their environmental footprint by minimizing material waste and preventing spills that could harm the environment.

Compliance with Regulations: Many industries are subject to stringent regulations regarding material handling. Point Level Indication helps them meet compliance standards, avoiding

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ambicagroup · 2 years ago

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Ambica Engineering & Wire Industries: Pioneering Excellence in Extruder Screens and Wire Cloth Manufacturing

In the realm of industrial manufacturing, where precision and quality reign supreme, Ambica Group stands high as one of India's leading manufacturers and suppliers of extruder screens, melt filters, and woven wire cloth. Established in 1972 by Mr. Vinod Patel, Ambica Group has etched its legacy on the pillars of 'Quality, Assurance, and Reliability.' This article delves into the rich history and remarkable journey of Ambica Engineering & Wire Industries, highlighting its diverse product range, commitment to innovation, and unwavering dedication to customer satisfaction.

A Legacy of Quality and Reliability

Ambica Group's inception was marked by a singular vision: to create products that set the industry standard for quality and reliability. Starting with wire mesh and extruder screens, the company soon embarked on a path of expansion, venturing into the development of various shapes and sizes to meet evolving industry demands.

Evolution Over Five Decades

With over five decades of industry experience, Ambica Group has honed its manufacturing processes, establishing itself as a symbol of trust and excellence. The journey has been marked by continuous innovation, adaptability, and a relentless pursuit of customer-centric solutions.

Innovation and Research

At the heart of Ambica Group's success lies its avant-garde Research & Development Centre. This dedicated facility is a hub of innovation, constantly pushing the boundaries to meet evolving industry requirements.

Customer-Centric Approach

Ambica Engineering & Wire Industries takes pride in its team of in-house experts who work closely with customers to identify the ideal solutions for their filtration needs. The company's commitment to providing high-quality products and exceptional customer experiences remains unwavering.

Product Portfolio

Ambica Group's product portfolio is as diverse as it is comprehensive, catering to the needs of various industries. Some of its key offerings include:

Circular Screens

Circular screens also known as melt filters; play a pivotal role in the extrusion process. Ambica Group's circular screens are renowned for their precision and durability, ensuring seamless production.

Multilayer Circular Screen Packs

Spot Welded Multilayer Circular Screen Packs are a testament to Ambica's commitment to innovation. These packs enhance filtration efficiency, ensuring superior product quality.

Multilayer Cylindrical Screen Pack

Candle filters, part of the Multilayer Cylindrical Screen Pack range, are designed for applications requiring the highest level of filtration accuracy.

Multimesh Circular Screen

Ambica Group offers various types of Multimesh circular screens, including Plain Dutch Weave and Twill Dutch Weave Filter Cloth, catering to a wide range of filtration requirements.

Designer Screens

For specialized applications, Ambica Group provides designer screens that combine form and function, meeting the most demanding industry standards.

Filter Discs

Filter discs are essential components in various filtration processes, and Ambica Group manufactures them with precision and consistency.

Stainless Steel Wire Mesh

As a trusted source for stainless steel wire mesh, Ambica Group ensures the highest quality in every weave, meeting stringent industry specifications.

Stainless Steel Hopper Magnet

Ambica Group's stainless steel hopper magnets contribute to product purity and equipment protection, enhancing overall production efficiency. Ambica Group's journey from its inception in 1972 to becoming a frontrunner in the field of Plastic & Rubber Industry is a testament to its commitment to excellence. With a legacy built on quality, reliability, and innovation, Ambica Group continues to shape the industry and offer unparalleled value to its customers.

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kumarmagnetics · 4 years ago

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Magnetic Separator, Magnetic Destoner, Coolant Separator Manufacturer

We are Leading Manufacturer of Magnetic Separator, Magnetic Destoner, Rare Earth Magnetic Drums, Rare Earth Tube Magnet, Lifting Magnets, Hopper Magnets, Permanent Magnetic Drum, Magnetic Floor Sweeper, Permanent Magnetic Drum Separator, Double Deck Vibrating Screening Machine, Magnetic Coolant Separator, Hump Magnetic Separators, Inline Drum Type Magnetic Separators, Permanent Magnetic Pulley, Rare Earth Magnets.

For More Details, Visit:-https://www.kumarmagnetics.com/ Contact us:-+91-9824022397/+91-8000202090

#Magnetic Separator #Magnetic Destoner #kumarmagnetics

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automatedfl0 · 4 years ago

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The best way to ensure your product, and thereby your company’s, success, then, is to develop the most effective factory setup possible. As most operations work with screws or different fasteners, this consists of choosing the proper automatic screw feeding system to make sure your assembly process can meet your manufacturing quotas in a timely manner, in full, every time. In order to determine the best automated screw feeding system in your operation, it’s essential to take a close look at the options out there from the highest suppliers. If you might be on the lookout for an automated screwdriver and screw feeder system, give us a name. We do automatic screw feeding, and we do it well.

The screws are snapped up from meeting tools with a magnetized bit. The compact system can fit into any work environment for easy accessibility and is low price answer compared to extremely costly screw feeding system. No matter what used an computerized screw feeder machine is given, it'll make the investment back very quickly. Automatic Screw Feeder Machine Supplier

Depending on the appliance you’ll give to this machine, you may as properly take your Assembly course of to the next stage and make your entire enterprise grow exponentially. The computerized screw arranging machine is especially developed and designed to simplify the operation process of staff and reduce the labor depth of employees within the conventional screw locking process. It is widely used in the electronics trade. Automatic screw presenters are important tools for any meeting process that requires large numbers of screws.

Based in Lexington, KY, Visumatic Industrial Products provides both entry-level screw presenters and customized screw feeding techniques. The entry-level presenters are easy and reasonably priced, making them strong contenders for most elementary manufacturing operations. Their customized feeding systems may be engineered to deal with anything from widespread to extremely troublesome fasteners, with escapements designed for any sort of tool tip. Like Dixon, Visumatic additionally offers large hoppers, reducing the variety of refills needed. Additionally, their hoppers have smart circulate features to maintain the optimum level of fasteners within the bowl always. The screw presentation options available from Visumatic are good selections for each primary and mid-level manufacturing operations, together with these with specialised wants. Carlson Engineering and Manufacturing, based in San Dimas, California, has been crafting screwdrivers and screw feeding merchandise and systems for 30 years.

Our computerized screw driving techniques work with the most recent collaborative robots . Single & multi-spindle automatic screwdrivers automate the screw driving course of alongside manufacturing assembly lines.

So, in terms of assembling Helicopter or Plane parts, you need them to be tightly joint by the right Screw, and this is easily carried out with the assistance of an automated screw feeder machine. screw feeder machine that are accessible in distinct shapes, sizes, colours, options and material qualities depending in your requirements. screw feeder machine belts are available in distinct sorts similar to PVC belts, chrome steel belts, plastic bag friction feeder belts, etc, and plenty of more. screw feeder machine on the site are heat resistant, fireproof, rustproof, and equipped with dependable brakes when not in use. screw feeder machine are made from sturdy supplies that provide enhanced sturdiness for the products over time and are resistant towards all sorts of impacts, masses, wears, and so forth.

H base unit dimensions & eight ft. to 15 ft. feed hose length. Screw feeding & driving methods can be found for feeding screws, nuts, bolts, rivets, spikes, drives screws, terminals & specialty fasteners. Manufacturer of screw feeding & driving systems together with robotic screwdrivers & hand manipulated automated screwdrivers for lean meeting purposes. Feeding systems are rotary bowl know-how available in both all pneumatic or electro-pneumatic configurations depending upon application.

There are additionally screws on the market manufactured from plastic or different light-weight supplies that can be more simply bent, deformed, or destroyed than metal and different alloys. When working with most of these screws, it’s necessary to choose a screw feeder that takes careful handling into consideration.

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trumentechnologiesworld-blog · 6 years ago

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Solid, Liquid, and High Level Switch in India at Affordable Price.

Trumen at a Glance

We are an ISO 9001:2015 certified manufacturer & exporter of level sensing, measurement, indication and control instruments. Trumen came into existence in 2009 and initially started with the manufacturing of Tuning Fork Level Switch for liquid and solid applications. With time, the manufacturing range increased with the addition of Capacitance Level Transmitter & Capacitance Level Switch, RF Admittance Level Switches, Rotating Paddle Level Switches, Conductivity Type Solid Level Switch, Vibrating Rod Level Switches, Hydrostatic Level Transmitter, and Radar Level Transmitter & Ultrasonic Liquid Level Switch Transmitter

“To be among the leading solution provider for process sensing, control & automation by working for continuous excellence and innovation in process sensing, measurement, indication and control instruments contributing to dependable process control.”

Solid Level Switch

a) Rotating Paddle Level Switch for Solids

b) Vibrating Fork Point Level Switch for Solids

Electronics of LSV excites the piezo-electric-crystals inside the tuning fork, which makes the fork tines vibrate at their natural resonance frequency in free air.

c) Vibrating Rod Point Level Switch for Solids

Vibrating rod is a single element tunned mechanical element-type Solid Level Switch sensing device. Electronics of LSV-R excites the piezo-electric-crystals inside the tuning rod, which makes the rod vibrate at its natural resonance frequency in free air.

d) Compact Vibrating Fork Point Level Switch for Liquids & Solids

Electronics of LFV11 excites the piezo-electric-crystals inside the tuning fork, which makes the fork tines vibrate at their natural resonance frequency in free air.

Level Switch

a) Admittance Point Level Switch

RF Admittance is a static level sensor with no moving parts. Its sensing parts are:- 1) Earth Extension (body) 2) Compensation Shield 3) Sensing Rod

b) Capacitance Point(s) Level Switch

LMC Capacitance type limit Level Switch is a static level sensor, Sensing parts of LMC capacitance level limit switch is: 1) Earth Extension (metallic process connection may be used as earth in-place of earth extension tubes). 2) Sensing Rod (or Rope as per application).

c) Compact Capacitance Level Switch

LMC30 is a compact capacitance Solid Level Switch limit switch for solids specially intended for see-through plastic window material sensing in packing hoppers. LMC30 can be mounted on any M30 compatible mounting hole and it is supported by two supplied mounting nuts. LMC30 deploys touch sense on its rear, so as to set its switching point and no potentiometer or touch button is presently enhancing the operational life of the device.

d) Top Mounted Magnetic Level Switch MLS20

It operates on the basic buoyancy principle. It uses a float that glides on the surface of liquids. This Level Switch consists of – Terminal Enclosure, Float Stem with Hermetically sealed Reed Switches and Float with magnets assembled inside. As the float rises or falls with a liquid level, the internal magnet moves in or out of the field of the switch resulting in its opening or closing. A non-magnetic barrier tube containing the reed switch isolates it from the process. These type level controls are available for controlling level at up to four different preset locations and can virtually be made of any length. This switch is highly effective and costs shedding and also finds use in a wide range of industries.

Liquid Level Switch

a) Rotating Paddle Level Switch for Solids

Rotating paddle type Level Switch are basically a spring-loaded, eccentrically driven rotating vanes or blades which rotate at a very slow rotation of one revolution per minute, using an ac synchronous motor. The Level Switch LMFS is capable of faithfully detecting industrial fluids and powders using Frequency Sweep technology. Utilizing the resonance of electrical capacitance created by media di-electric and conductivity, LMFS learns the signature of the media to be sensed and thus performs better than other level detection methods for fluids and powders.

b) Conductivity Point(s) Level Switch for conductive liquids

LWS Conductivity Liquid Level Switch is static rendered furnished devices with no moving parts. A low voltage sine-wave is provided into the liquid using a reference rod (or electrode). The electronics continuously scans the sensing rod (or electrode) for the presence of a sine-wave signal on it.

c) Compact Tuning Fork Point Level Switch for Liquids

Electronics of LFV12 excites the piezo-electric-crystals inside the tuning fork, which makes the fork tines vibrate at their natural resonance frequency in free air. When the fork tines are immersed in liquid, the frequency of fork vibration falls due to the density of the liquid.

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notecountingmachine · 6 months ago

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ELCONS MIX VALUE COUNTING MACHINE Note Counting Machine (Counting Speed - 1000 notes/min)

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Brand

ELCONS

Model Name

MIX VALUE COUNTING MACHINE

Counting Speed

1000 notes/min

Detection Technology

UV Sensor, Magnetic Sensor, IR Sensor, Watermark Sensor, Metal Thread Detective Sensor

Acceptable Denominations

10 20 50 100 200 500 2000

Suitable Currency

INR , USD ETC

Adjustable Speed

Countable Note Size

50*110-90*190

Stacker Capacity

200 Notes

Hopper Capacity

300 Notes

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cashcountingmachinebybankomat · 1 year ago

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What is Note counting machine

A note counting machine is a device that counts money, specifically stacks of banknotes or loose collections of notes. These machines can be purely mechanical or use electronic components to count and sort currency. Types of Note Counting Machines:

Banknote-only: Basic models provide a total count of notes in the supply hopper, while more advanced ones can identify different denominations to calculate the total currency value of mixed banknotes. Some can also detect counterfeit notes using magnetic and/or ultraviolet (UV) light detection.

Banknote and Coin: Counting scales that can count batches of notes or coins without processing them individually, introduced in Great Britain in 1980 and now widely used by banks, retailers, and food service outlets.

Coin: A coin counter may refer to a device that sorts and counts coins simultaneously or only counts presorted coins of the same size. A typical counter of presorted coins uses a bowl with a flat spinning disc at the bottom to distribute coins around the bowl perimeter.

First Examples and History: De La Rue marketed their first banknote counting machine in 1957, while Kokuei manufactured a coin counter in Japan in 1952. These companies continued to produce a wide variety of cash handling equipment. In 1971, Kokuei changed its name to Glory, and in 2008, De La Rue Cash Systems was renamed Talaris. In 2013, Glory acquired Talaris.Features and Benefits:

Precise detection of old and new denominations using UV, magnetic, and infrared sensors

Large front-facing LED display for easy operation and tracking of note counts

High-speed counting of up to 1,000 notes per minute with a 1 in 1,000,000 chance of missing counterfeit currency

Easy-to-use modes like count, add, and batch for simple money counting

Automatic start, stop, and clearing functions for efficient operation

Popular Models and Brands:Some popular note counting machine models include Bankomat classic note counting machine and manual note counting machine, Mix value note counting machine. Floor and Desktop model. Bankomat is a popular note counting machine brand in India every business and business man used Bankomat note counting machine to count their cash.

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jwood719 · 6 years ago

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A Walking Tour of Iron History on the Monongahela River.

When Pittsburgh’s Quantum Theatre announced that it would be producing King Lear at the Carrie Furnace, interest exploded. True enough that Quantum’s productions are consistently pretty damn good and are well attended, but couple a pretty damn good show with an old Iron City industrial site? Wow! The Associated Press took up the story, too, and news outlets ran the wire copy as far from Pittsburgh as Japan. Perhaps needless to say, there was a waiting list for “rush” tickets, which went up 15 minutes before curtain (and seating was limited, anyway).

“General view of blast furnace plant, known as the Carrie Furnaces...Carrie Furnaces No. 6 and No. 7 are on the left, No. 3 and No. 4 are on the right. The town of Rankin is in the background.” Jet Lowe, 1989. {2}

The Carrie Blast Furnaces were first built in 1884 on the north (or is that east?) bank of the Monongahela River, and were in operation until 1982. From fairly humble beginnings as a private operation, selling iron to whomever would buy, the Carrie Furnaces were purchased by Andrew Carnegie and expanded to include 7 massive furnaces (some of which are pictured above) operating 24/7 for the Homestead Works, and continued to churn out iron when Carnegie’s steel company was restructured as United States Steel.

Interior of the AC Power House, now used for tour introductions and special event receptions. {1}

“Big Steel” in Pittsburgh went from supplying a quarter of all the steel on the planet to “big bust,” and the furnaces went cold along with the rest of the sprawling Homestead Works.

Satellite view of the Mon River Valley: what is now the Waterfront retail development (outlined in yellow) was once Andrew Carnegie’s signature Homestead Steel Works; the Carrie Furnaces are circled on the opposite bank. {3}

"’Pittsburgh was once a giant in that particular space. You can't be at the site without feeling the enormity of industry and the enormity of the fact that the industry collapsed and we were stripped as a region of this power,’ said Karla Boos, artistic director and founder of [Quantum Theatre]. ‘All very wonderful metaphors for King Lear.’" {4}

Beginning the walking tour: guests approach the No. 6 Furnace between the AC Power House (left) and the Blowing Engine House (right). {1}

“General interior view of low pressure turbo blower wing [for] No. 3 power house...” Martin Stupich, 1989. {2}

Carnegie was an early adopter of “vertical integration,” as Henry Ford would do a couple decades later. If there was a way to bring any aspect of iron and steel manufacturing under the company’s direct control, such would be done -- like buying the blast furnaces across the river instead of buying from them.

Satellite view of the Carrie Furnace site, below Rankin. {3}

The furnaces as they exist today are basically as they were when built in 1907. For that condition (deterioration aside) they are listed on the National Register of Historic Places: they are the among the last of the pre-World War II blast furnaces that still stand essentially unchanged.

Looking up at Number 6. {1}

The interceding decades have seen some changes, of course, since the furnaces were shuttered. Environmental contamination has been remediated to some extent, and the large surfaces have proved a magnet to “urban artists” who went over or under fences. Many of the operating ports and moving parts were rendered inoperable, and naturally the structure has been subject to the weather.

The ore bridge: a massive gantry that was used for spreading iron ore pellets through the ore yard, using the clam shell bucket at right. That bucket is twice the height of the average man. Some of the urban art can bee seen at center, where a pair of stag heads have been painted, as well as on the retaining wall in the far right distance, which has been a “canvas” for a great deal of spray can paint application. Rivers of Steel now allows (regulated) application of urban art in select locations. {1}

“View of Carrie No. 3 and No. 4 ore bridge, ore yard and furnaces...” Martin Stupich, 1989. {2}

Allegheny County bought the site in 2005, and it is now managed by the non-profit Rivers of Steel, a local heritage organization formed in 1988 to save the history of what had been an economic powerhouse (if an ecological disaster area). To help in their preservation efforts, Rivers of Steel offers tours across the region, including walking tours around and through the Carrie Furnace site. Quantum had the option of an hour long tour for patrons before curtain, but those sold out as fast as the shows -- so I booked a regular tour with Rivers of Steel that I attended the day before I saw Lear.

Tour leader Doug Styles with guests on the stationary car dumper.

The stationary car dumper was installed to speed the unloading of iron ore cars; instead of a team of men shoveling for a several hours to empty a rail car of iron, the entire car would be heaved up and tipped out in a half-hour so. An entire shipment of ore, on a 150+ car consist, could be processed in a few hours.

The iron ore was brought down mainly from the Iron Range in the Great Lakes region, shipped first by lake boats to Ashtabula or Conneaut, Ohio, then by rail to Pittsburgh and other plants up and down the rivers.

The lake boat port of Ashtabula, Ohio, in 2015. {1}

Also shipped were loads of coke, and limestone, for in-furnace filtering-out of impurities. The raw iron was kept in the ore yard, as large an area as a couple three football fields, in quantities to last for up to three months of operation -- as the lake boats couldn’t always get through in winter; y’know: because ice.

The view down the ore yard, with the ore bridge above. {1}

The tour in the ore yard. The iron ore was piled up nearly as high as the top of the retaining wall of the stock house in the middle distance. The Number 7 Furnace is above. {1}

“Carrie Furnaces No 6 and No 7 from across ore yard...” Martin Stupich, 1989. {2}

It’s odd, and a little sad, to look at the images taken in 1989 and see that nothing much has moved since. In the two preceding images it can be seen that the hoist cars on the Number 7 have been stuck in the same place, probably since the plant closed in ‘82. But, I suppose there isn’t much need to move them, nor the means to do so, other than cutting the cables.

The hoist cars on their car way at No. 7 Furnace. The stock building held ore, limestone, and coke, which was transferred in measured quantities to the hoist cars for delivery to the top of the furnace where they were tipped in. {1}

Looking down the stock house. The various ingredients of the blast furnace process were kept in the hoppers overhead, and then dispensed as needed into the “larry car,” which would then transfer the material to the hoist cars at a central loading pit. {1}

Tour leader Doug Styles spent as much time describing the conditions of the furnace operation as he did the mechanics of it -- which was, in fact, a good balance of information. As much as the steel heritage of Pittsburgh can be lauded, it was also a dirty, dangerous employment, done for bosses who would happily replace a recalcitrant worker. As the saying goes: “You don’t like the job? There’s 16 guys at the gate who’ll take it if y’don’t want it.” The hoist cars, for instance, were apt to suffer broken cables, which would result in a 4 ton load sliding down an inclined plane at high speed -- to the detriment of the men in the central loading pit under the car way, unless they managed to get the hell out the way.

Approaching the No. 7 Furnace; the remains of the cast house are seen above the tour group, with the stock house to the right, and the hoist car-way angling up to the top of the furnace structure. To the left, above the encroaching foliage, can be seen the giant wire deer head. {1}

Because the interior of the furnace was, well, hot enough to melt iron, a metal structure was in danger of melting, too. To stave off the otherwise inevitable, the interior of the furnace was lined with fire brick several inches thick, and the exterior was clad with heat abating plates and wrapped in water pipes that helped keep the outside cool (or cool enough). The water was pumped from the Mon River, sent through the system, and back into the river. None of the water used in the iron or steel making processes were subject to any regulation on pollution: “pollution” didn’t exist at a regulatory level -- not until the Environmental Protection Agency was established, but that wasn’t until 1973.

“Electrostatic precipitator for Carrie Furnace No. 7...” Martin Stupich, 1989. {2} Compare to following image:

Doug Styles describing the events surrounding the Homestead Strike of 1892 at Quantum’s act 1 setting. The electrostatic precipitator is above to the right, with the great Carrie Furnace Deer Head up center. {1}

Crafted by urban artists with materials found on the site, the Deer Head is held together with “zip” ties, wire, and fast acting adhesive compounds. According to Mr. Styles, the Carrie Furnace can’t be fully designated as a National Historic Site unless the urban art, like the Deer Head, is removed, as the graffiti and the constructs were all executed after and beyond the original construction and intent of usage.

The view of the ancillary structures between No’s 6 and 7. {1}

Above: “General interior view of Carrie No. 6 cast house...” Martin Stupich, 1989. {2} Below: interior view of the No. 6 cast house, 2019. {1}

The molten iron produced from the furnaces was, at first, cast into iron ingots that could then be shipped to any buyer for further refining into steel. To reduce time and costs, the Homestead operation sent the molten steel across the Mon River to the steel works in “torpedo” or “bottle” rail cars, on the appropriately named Hot Metal Bridge (one of two that still exist over the Mon). Ports at the bottom of the furnace could be opened to allow the molten iron to flow down sand lined troughs in the floor, where it would then drop into the bottle cars for shipment.

Detail highlighting two of the furnace ports, and one of the troughs. The ports are around the base of the furnace in several places, and all have been sealed. {1}

I would say “as might be imagined,” but I’m not sure I can reasonably imagine the heat that would blow through the cast house when the furnace was operating, much less when molten iron was flowing down the ways to the bottle cars. I mean, maybe turn your oven on to “broil” and try sticking your head inside?

Mr. Styles noted that much of the agitation for unionization was about employee safety more than for wages. The hours worked, the dangers of moving mountains of raw material, the heat and other hazards of handling molten metal, all took their toll on the workforce. Safety demands at the federal level did make some changes, as did unionization when it finally landed in 1936, but the relationship between labor and management never really did improve.

Tour leader Doug Styles beneath the No. 6 Furnace. Mr. Styles spent 30 years working steel in Canada.

And steel in the United States didn’t go bust just because of cheaper overseas steel finally being produced, nor was it just automation, though both did affect the market. Among other things, Mr. Styles explained, it was because companies like U.S. Steel were still literally operating as if they were producing in 1910, not 1975: modernization never came to Homestead, despite improved methods of steel production being available. The unions didn’t help themselves, and neither did management -- both sides were stuck in the past, too, the union employees frittering work hours away while they waited for “repairs,” while the owners had no wish to spend any money that might eat at quarterly profits -- and neither side trusting the other.

Looking up the No. 6. {1}

The Edgar Thomson Works, Andrew Carnegie’s original plant, still operates about two miles up the Mon from the Carrie site. It was modernized, however, and while never as large as the Homestead operation, it today turns out 5 or 10 times the steel it used to, with a quarter of the labor force. Such is the case with most steel concerns in the 21st Century.

Looking up at the No. 7 gas washer and other ancillary structures. {1}

The evening light on the No. 7, with Lear audience members meandering prior to the performance. {1}

And, yes, there will likely be more from Carrie Furnace. Rivers of Steel offers other options for visiting the site, and I’m of a mind to take them up on the offers. So, stay tuned!

Rivers of Steel official site: “Founded on the principles of heritage development, community partnership, and a reverence for the region’s natural and shared resources, Rivers of Steel strengthens the economic and cultural fabric of western Pennsylvania by fostering dynamic initiatives and transformative experiences.”

Associated Press story, “Theatre Company Brings Shakespeare to Steel,” as displayed by The New York Times, May 26, 2019.

{1} Photos by R. Jake Wood, 2015-2019.

{2} Images from the Library of Congress Prints and Photographs Online Catalog. The Carrie Furnace photos as well as other images taken in and around the Homestead Works are part of the Library’s Historic American Buildings Survey. Minor processing by Jake Wood, 2019.

{3} Satellite images by Google Maps, with minor processing by Jake Wood, 2019.

{4} Karla Boos as quoted by the Associated Press, May, 2019 (see link above).

Last light over the ore bridge. {1}

#photography #pittsburgh #rivers of steel #carrie furnace site #our shots

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