Plastic ultrasonic welding design guide North Grenville

Plastic ultrasonic welding design guide

Design Guides for Plastics Tangram Ultrasonic Welding Trouble Shooting Guide PROBLEM PROBABLE CAUSES Too much energy into the part. Reduce pressure, trigger force and/or down speed Weld time too long.

Plastic Welding with Ultrasonics TELSONIC Ultrasonics

Design Laser Plastic Welding. Ultrasonic plastic welding is the joining or reforming of thermoplastics through the use of heat generated from high-frequency mechanical motion. It is accomplished by converting high-frequency electrical energy into high-frequency mechanical motion. That mechanical motion, along with applied force, creates frictional heat at the plastic, The welding horn is the element of the welding stack that supplies energy to the component being welded. A typical welding horn is shown in Fig.4. Design of the welding horn is critical to successful welding. It is strongly recommended that welding horn manufacture should only be carried out by companies specialising in ultrasonic welding..

Ultrasonic plastic welding is the joining or reforming of thermoplastics through the use of heat generated from high-frequency mechanical motion. It is accomplished by converting high-frequency electrical energy into high-frequency mechanical motion. That mechanical motion, along with applied force, creates frictional heat at the plastic Ultrasonic plastic welding can be used for practically all thermoplastics. The application areas can be seen here at a glance.

plastic after after after after horn horn horn horn metal plastic metal plastic metal plastic highprofile metal plastic highprofile lowprofile lowprofile 1.6d.6d.5d.25d.5d.8d 2.12d.75d.5d.375d h= 1.6d2 d2.5d d2= d1 2 d d d d d1 2d1 2d 2d 2d 1.5d 11/01/2014 · ultrasonic welding,ultrasonic plastic welding,ultrasonic welding basics,ultrasonic welding metal,ultrasonic welding design guide,ultrasonic welding process,ultrasonic welding branson,ultrasonic

Before examining common causes of ultrasonic welding problems, let’s take a moment to understand the welding cycle itself. In ultra- sonic welding, high-frequency vibrations are applied the surfaces of two parts by a vibrating tool, commonly called a “horn” or “sonotrode.” Welding occurs as the result of frictional heat generated at Determining The Right Part Joint Design For The Desired Welding Method. No matter which plastic assembly operation you choose, proper selection and design of component materials (i.e. stakes, joints, etc.) are critical to achieve strong fit-for-purpose welds. The pages linked below will give you an initial sense of which operations/parameters are best for the results …

In the paragraphs below we’ll share some advice on ultrasonic welding of plastic parts. Consider these your ultrasonic welding plastic part design guidelines. Ultrasonic Welding Basics. Ultrasonic welding uses friction to heat plastics to a temperature high enough that they’ll bond together. ULTRASONIC ASSEMBLY 17 Ultrasonic Welding 17 Ultrasonic Staking 18 Ultrasonic Spot Welding 18 Ultrasonic Inserts/Heat Inserts METAL INSERTS 22 Molded-In Metal Inserts 22 Coil-Threaded Inserts 22 Thread-Cutting Inserts 23 Expansion Inserts SNAP AND PRESS FITS 24 Snap Fits 25 Press Fits HEAT WELDING AND SEALING 26 Heat or Hot-Plate Welding 27 Bar

Welding of Plastics: Fundamentals and New Developments This paper provides a general introduction to welding funda-mentals (section 2) followed by sections on a few selected welding processes that have had significant developments or improvements over the last few years. The processes that are discussed are friction welding (section 3), hot plate welding (section 4), ultrasonic welding Welding of Plastics: Fundamentals and New Developments This paper provides a general introduction to welding funda-mentals (section 2) followed by sections on a few selected welding processes that have had significant developments or improvements over the last few years. The processes that are discussed are friction welding (section 3), hot plate welding (section 4), ultrasonic welding

If you are looking for the beginners guide to metal welding – Click here . What is plastic welding? Plastic welding is the process of creating a bond between to thermoplastics. There are 3 main steps to any weld; Pressing, Heating and Cooling. Plastic welding processes are differentiated by their heating processes. The production of a good Sonitek provides Heat Staking, Ultrasonic Welders and Air/Pneumatic presses for plastic joining, welding, and assembly.

A Design Guide for Information and Technology Equipment. The American Plastics Council (APC) is a joint initiative with The Society of the Plastics Industry, Inc. The APC is working with industry to facilitate the recovery and reuse of plastics from durable goods and packaging materials. The mission of APC’s Information Technology Industry Subcommittee (for-merly the Computer and Business 11/01/2014 · ultrasonic welding,ultrasonic plastic welding,ultrasonic welding basics,ultrasonic welding metal,ultrasonic welding design guide,ultrasonic welding process,ultrasonic welding branson,ultrasonic

11/01/2014 · ultrasonic welding,ultrasonic plastic welding,ultrasonic welding basics,ultrasonic welding metal,ultrasonic welding design guide,ultrasonic welding process,ultrasonic welding branson,ultrasonic Laser Plastic Welding Design Guide for Engineers The complete design resource for ensuring the proper design of your part or application. Includes advice on material selection, joint design, clamping concepts, best practices, and how to design for inspection.

Ultrasonic welding is a common method for joining plastic parts without using adhesives, solvents, or mechanical fasteners. Ultrasonic welding equipment operates on the principle of converting electrical energy to mechanical vibratory energy. This vibratory energy is transmitted to plastic parts A Design Guide for Information and Technology Equipment. The American Plastics Council (APC) is a joint initiative with The Society of the Plastics Industry, Inc. The APC is working with industry to facilitate the recovery and reuse of plastics from durable goods and packaging materials. The mission of APC’s Information Technology Industry Subcommittee (for-merly the Computer and Business

6 Vibration Welding Guide 2.1 Basic principles In vibration welding, two plastic parts are in frictional contact with each other with a certain frequency, amplitude and pressure. As a result of the friction between both parts heat is generated which causes the polymer to … melting of plastic under continu-ous pressure forms the head. When staking, the right combina-tion of heat and pressure for the application is critical. ADVANTAGES: • Simplification of machinery • Reduced cost of machinery • Multiple fastening points • Allows higher density of welds compared to hot air cold form or ultrasonic welding

Welding with Ultrasonics TELSONIC Ultrasonics

Plastic ultrasonic welding design guide

How to Solve Common Ultrasonic Welding Problems Plastics. Sonitek provides Heat Staking, Ultrasonic Welders and Air/Pneumatic presses for plastic joining, welding, and assembly., If you are looking for the beginners guide to metal welding – Click here . What is plastic welding? Plastic welding is the process of creating a bond between to thermoplastics. There are 3 main steps to any weld; Pressing, Heating and Cooling. Plastic welding processes are differentiated by their heating processes. The production of a good.

Ultrasonic Welding Component Design and Weld Parameters. How To Use The Plastic Bonding Guide Chapters The Loctite® Design Guide for Bonding Plastics, Volume 6 3 Recycling Symbol Illustrates the appropriate recycling symbol for the indicated plastic type, when appropriate. Typical Property Table Provides data on typical physical properties for each plastic. Trade Names Lists common suppliers of each, Watch videos, read white papers, and download brochures, certifications, data sheets, design guides, forms, manuals, drawings and layouts..

Ultrasonic Welding of Plastic Parts Design Considerations

Plastic ultrasonic welding design guide

Vibration Welding Guide dsm.com. A Design Guide for Information and Technology Equipment. The American Plastics Council (APC) is a joint initiative with The Society of the Plastics Industry, Inc. The APC is working with industry to facilitate the recovery and reuse of plastics from durable goods and packaging materials. The mission of APC’s Information Technology Industry Subcommittee (for-merly the Computer and Business A Design Guide for Information and Technology Equipment. The American Plastics Council (APC) is a joint initiative with The Society of the Plastics Industry, Inc. The APC is working with industry to facilitate the recovery and reuse of plastics from durable goods and packaging materials. The mission of APC’s Information Technology Industry Subcommittee (for-merly the Computer and Business.

Plastic ultrasonic welding design guide

  • Thermal Staking Design Guidelines Emerson Electric
  • Ultrasonic Welding of Plastics – Materials Guide
  • Vibration Welding Guide dsm.com

  • A Design Guide for Information and Technology Equipment. The American Plastics Council (APC) is a joint initiative with The Society of the Plastics Industry, Inc. The APC is working with industry to facilitate the recovery and reuse of plastics from durable goods and packaging materials. The mission of APC’s Information Technology Industry Subcommittee (for-merly the Computer and Business Ultrasonic plastic welding can be used for practically all thermoplastics. The application areas can be seen here at a glance.

    Laser Plastic Welding Design Guide for Engineers The complete design resource for ensuring the proper design of your part or application. Includes advice on material selection, joint design, clamping concepts, best practices, and how to design for inspection. A complete solutions for your Plastic Ultrasonic Welding needs. Our state of the art ultrasonic components applied in standard machines as well as customized machinery. . The applications of our products are welding, riveting, beading and calking of thermoplastic materials as well as cutting, welding and gluing of fabrics and non-woven

    How To Use The Plastic Bonding Guide Chapters The Loctite® Design Guide for Bonding Plastics, Volume 6 3 Recycling Symbol Illustrates the appropriate recycling symbol for the indicated plastic type, when appropriate. Typical Property Table Provides data on typical physical properties for each plastic. Trade Names Lists common suppliers of each Laser Plastic Welding Design Guide for Engineers The complete design resource for ensuring the proper design of your part or application. Includes advice on material selection, joint design, clamping concepts, best practices, and how to design for inspection.

    Part Design for Ultrasonic Welding Ultrasonic energy has been used to join ther-moplastics for over 35 years. Ultrasonic weld-ing of thermoplastic materials is by far the most common form of ultrasonic assembly, and is used extensively in all major industries including automotive, appliance, electronic, toy, packaging, textile, and medical. It A complete solutions for your Plastic Ultrasonic Welding needs. Our state of the art ultrasonic components applied in standard machines as well as customized machinery. . The applications of our products are welding, riveting, beading and calking of thermoplastic materials as well as cutting, welding and gluing of fabrics and non-woven

    – The ability to weld plastic is based upon a lot of factors including joint design, material fillers, process variables prior to welding, part geometry, good part design practice, part size, amplitude, fixturing, properly designed ultrasonic horns and the material flow during energy transfer. This chart displaying the ease of welding is meant to Perhaps the most widely known use case for ultrasonic welding is plastic packaging. Many small and medium sized consumer products are secured within plastic packaging. Not only can we design and form custom packaging, our ultrasonic equipment can add tamper proof seals to ensure your product is safe on retail shelves.

    11/01/2014 · ultrasonic welding,ultrasonic plastic welding,ultrasonic welding basics,ultrasonic welding metal,ultrasonic welding design guide,ultrasonic welding process,ultrasonic welding branson,ultrasonic Ultrasonic Plastic Joining Technical Information PW-3 Part Design for Ultrasonic Welding Ultrasonic energy has been used to join thermo - plastics for over 35 years. Ultrasonic welding of thermoplastic materials is by far the most common form of ultrasonic assembly, and is used extensively in all major industries including: automotive,

    ULTRASONIC ASSEMBLY 17 Ultrasonic Welding 17 Ultrasonic Staking 18 Ultrasonic Spot Welding 18 Ultrasonic Inserts/Heat Inserts METAL INSERTS 22 Molded-In Metal Inserts 22 Coil-Threaded Inserts 22 Thread-Cutting Inserts 23 Expansion Inserts SNAP AND PRESS FITS 24 Snap Fits 25 Press Fits HEAT WELDING AND SEALING 26 Heat or Hot-Plate Welding 27 Bar A commonly used additive to make plastic absorbent for IR laser light is carbon black (typically 0.2-0.4% by volume) since it is very economical. However, there is also a variety of other additives, including colorings, that are IR absorbent. Laser Plastic Welding . Design Guidelines “Light”

    In addition to welding, ultrasonic energy is commonly used for processes such as inserting metal parts into plastic or reforming thermoplastic parts to mechanically fasten components made from dissimilar materials. Ultrasonic welding is used in almost all major industries like automotive, electronic and appliances, medical, packaging etc. A The welding horn is the element of the welding stack that supplies energy to the component being welded. A typical welding horn is shown in Fig.4. Design of the welding horn is critical to successful welding. It is strongly recommended that welding horn manufacture should only be carried out by companies specialising in ultrasonic welding.

    01/09/2009 · Ultrasonic welding: A troubleshooting guide Your part may have been manufactured to spec, but if it needs ultrasonic welding, you're not home free yet. And unfortunately, there's more than one way to run into trouble with your ultrasonics. Canadian Plastics asked some of the experts to identify and solve the most common problems. Welding of Plastics: Fundamentals and New Developments This paper provides a general introduction to welding funda-mentals (section 2) followed by sections on a few selected welding processes that have had significant developments or improvements over the last few years. The processes that are discussed are friction welding (section 3), hot plate welding (section 4), ultrasonic welding

    Plastic Welding with Ultrasonics TELSONIC Ultrasonics

    Plastic ultrasonic welding design guide

    Heatstaking Design Guidelines Plastic Assembly Systems. Welding is possible in sheet up to a few millimeters thick without the need for additional absorbers. This is termed direct laser welding because the beam is not transmitted through an upper part to the joint line. Direct laser welding is not yet widely applied for joining plastics, but has potential for wider use., Job Knowledge 62 Introduction. One of the key factors to successful ultrasonic welding is good component design, in particular the shape of the surfaces to be joined ie the joint design. There are a variety of joint designs possible, each with specific features and advantages..

    Laser welding plastics A short guide Industrial Laser

    HOME PlasticUltrasonicWelding. Ultrasonic welding is used for applications involving both similar and dissimilar joints as well as the welding of polymers. The process is used to produce lap joints in metals, plastic sheets and plastic films in varied shapes as wires (crossed or parallel), ribbons and flat surfaces., ultrasonic welding of plastics - material suitability guide. The process of ultrasonic welding of plastics is achieved by applying a vibrating metal tool (horn) at 90° to the stationery plastic parts which then vibrate. When combined with pressure, friction produces heat & melts the parts at the horn contact point..

    A commonly used additive to make plastic absorbent for IR laser light is carbon black (typically 0.2-0.4% by volume) since it is very economical. However, there is also a variety of other additives, including colorings, that are IR absorbent. Laser Plastic Welding . Design Guidelines “Light” Ultrasonic plastic welding can be used to a limited extent for joining together two different thermoplastics (amorphous plastics). Ultrasonic welding is not suitable for use with thermo setting plastics. Today ultrasonic welding is used in every industry that processes plastics. Most common uses are in the Automotive, Medical, Textile, Food

    Ultrasonic welding is a common method for joining plastic parts without using adhesives, solvents, or mechanical fasteners. Ultrasonic welding equipment operates on the principle of converting electrical energy to mechanical vibratory energy. This vibratory energy is transmitted to plastic parts In the paragraphs below we’ll share some advice on ultrasonic welding of plastic parts. Consider these your ultrasonic welding plastic part design guidelines. Ultrasonic Welding Basics. Ultrasonic welding uses friction to heat plastics to a temperature high enough that they’ll bond together.

    18/07/2015 · Ultrasonic welding is a famous technique that is applied in the industries to unite materials together. It is done with high frequency vibration and high pressure to unite the pieces of materials A complete solutions for your Plastic Ultrasonic Welding needs. Our state of the art ultrasonic components applied in standard machines as well as customized machinery. . The applications of our products are welding, riveting, beading and calking of thermoplastic materials as well as cutting, welding and gluing of fabrics and non-woven

    A commonly used additive to make plastic absorbent for IR laser light is carbon black (typically 0.2-0.4% by volume) since it is very economical. However, there is also a variety of other additives, including colorings, that are IR absorbent. Laser Plastic Welding . Design Guidelines “Light” Components of an Ultrasonic Assembly System. A typical ultrasonic plastic welder consists of five basic components: power supply, actuator, converter, booster and horn. The power supply converts 115V 60 Hz electrical energy into 15, 20, 30 or 40 kHz electrical energy. The welding stand houses the converter, booster and horn in a rigid,

    6 Vibration Welding Guide 2.1 Basic principles In vibration welding, two plastic parts are in frictional contact with each other with a certain frequency, amplitude and pressure. As a result of the friction between both parts heat is generated which causes the polymer to … Ultrasonic plastic welding can be used for practically all thermoplastics. The application areas can be seen here at a glance.

    If you are looking for the beginners guide to metal welding – Click here . What is plastic welding? Plastic welding is the process of creating a bond between to thermoplastics. There are 3 main steps to any weld; Pressing, Heating and Cooling. Plastic welding processes are differentiated by their heating processes. The production of a good Sonitek provides Heat Staking, Ultrasonic Welders and Air/Pneumatic presses for plastic joining, welding, and assembly.

    Welding is possible in sheet up to a few millimeters thick without the need for additional absorbers. This is termed direct laser welding because the beam is not transmitted through an upper part to the joint line. Direct laser welding is not yet widely applied for joining plastics, but has potential for wider use. Welding of Plastics: Fundamentals and New Developments This paper provides a general introduction to welding funda-mentals (section 2) followed by sections on a few selected welding processes that have had significant developments or improvements over the last few years. The processes that are discussed are friction welding (section 3), hot plate welding (section 4), ultrasonic welding

    ultrasonic welding of plastics - material suitability guide. The process of ultrasonic welding of plastics is achieved by applying a vibrating metal tool (horn) at 90° to the stationery plastic parts which then vibrate. When combined with pressure, friction produces heat & melts the parts at the horn contact point. ULTRASONIC ASSEMBLY 17 Ultrasonic Welding 17 Ultrasonic Staking 18 Ultrasonic Spot Welding 18 Ultrasonic Inserts/Heat Inserts METAL INSERTS 22 Molded-In Metal Inserts 22 Coil-Threaded Inserts 22 Thread-Cutting Inserts 23 Expansion Inserts SNAP AND PRESS FITS 24 Snap Fits 25 Press Fits HEAT WELDING AND SEALING 26 Heat or Hot-Plate Welding 27 Bar

    Part Design for Ultrasonic Welding. Welding of Plastics: Fundamentals and New Developments This paper provides a general introduction to welding funda-mentals (section 2) followed by sections on a few selected welding processes that have had significant developments or improvements over the last few years. The processes that are discussed are friction welding (section 3), hot plate welding (section 4), ultrasonic welding, Watch videos, read white papers, and download brochures, certifications, data sheets, design guides, forms, manuals, drawings and layouts..

    Ultrasonic welding and assembly of engineering plastics

    Plastic ultrasonic welding design guide

    Part Design for Ultrasonic Welding hankyan.com. Ultrasonic welding is a common method for joining plastic parts without using adhesives, solvents, or mechanical fasteners. Ultrasonic welding equipment operates on the principle of converting electrical energy to mechanical vibratory energy. This vibratory energy is transmitted to plastic parts, This design guide is an elaboration on the original LPKF Design Guidelines for Laser Plastic Welding. You will find this document has a specific focus on automotive exterior lighting. All of the considerations have been adapted to this topic and other details have been added. The purpose of this Automotive….

    Ultrasonic Staking and Spot Welding of Thermoplastic

    Plastic ultrasonic welding design guide

    Thermal Staking Design Guidelines Emerson Electric. Guide to Ultrasonic Plastics Assembly 2 How Ultrasonic Assembly Is Done Ultrasonic assembly is accomplished by converting high frequency electrical energy into high frequency mechanical motion. That me - chanical motion, along with applied force, creates frictional heat at the plastic components’ mating surfaces (joint area) so the plastic Ultrasonic welding is a common method for joining plastic parts without using adhesives, solvents, or mechanical fasteners. Ultrasonic welding equipment operates on the principle of converting electrical energy to mechanical vibratory energy. This vibratory energy is transmitted to plastic parts.

    Plastic ultrasonic welding design guide


    Design Guides for Plastics Clive Maier, Econology Ltd TANGRAM TECHNOLOGY. This publication is made up of a series of articles published in Plastics and Rubber Weekly as a piece work. The kind assistance of the author and PRW is acknowledged in the publication of the work. The publication will be updated in a regular basis as new sections of the guide are published by PRW. The design hints in – The ability to weld plastic is based upon a lot of factors including joint design, material fillers, process variables prior to welding, part geometry, good part design practice, part size, amplitude, fixturing, properly designed ultrasonic horns and the material flow during energy transfer. This chart displaying the ease of welding is meant to

    6 Vibration Welding Guide 2.1 Basic principles In vibration welding, two plastic parts are in frictional contact with each other with a certain frequency, amplitude and pressure. As a result of the friction between both parts heat is generated which causes the polymer to … Ultrasonic welding is an industrial technique whereby high-frequency ultrasonic acoustic vibrations are locally applied to workpieces being held together under pressure to create a solid-state weld.It is commonly used for plastics and metals, and especially for joining dissimilar materials.In ultrasonic welding, there are no connective bolts, nails, soldering materials, or adhesives necessary

    Ultrasonic welding is a common method for joining plastic parts without using adhesives, solvents, or mechanical fasteners. Ultrasonic welding equipment operates on the principle of converting electrical energy to mechanical vibratory energy. This vibratory energy is transmitted to plastic parts ultrasonic welding of plastics - material suitability guide. The process of ultrasonic welding of plastics is achieved by applying a vibrating metal tool (horn) at 90° to the stationery plastic parts which then vibrate. When combined with pressure, friction produces heat & melts the parts at the horn contact point.

    Design Guides for Plastics Clive Maier, Econology Ltd TANGRAM TECHNOLOGY. This publication is made up of a series of articles published in Plastics and Rubber Weekly as a piece work. The kind assistance of the author and PRW is acknowledged in the publication of the work. The publication will be updated in a regular basis as new sections of the guide are published by PRW. The design hints in ULTRASONIC ASSEMBLY 17 Ultrasonic Welding 17 Ultrasonic Staking 18 Ultrasonic Spot Welding 18 Ultrasonic Inserts/Heat Inserts METAL INSERTS 22 Molded-In Metal Inserts 22 Coil-Threaded Inserts 22 Thread-Cutting Inserts 23 Expansion Inserts SNAP AND PRESS FITS 24 Snap Fits 25 Press Fits HEAT WELDING AND SEALING 26 Heat or Hot-Plate Welding 27 Bar

    Components of an Ultrasonic Assembly System. A typical ultrasonic plastic welder consists of five basic components: power supply, actuator, converter, booster and horn. The power supply converts 115V 60 Hz electrical energy into 15, 20, 30 or 40 kHz electrical energy. The welding stand houses the converter, booster and horn in a rigid, Laser Plastic Welding Design Guide for Engineers The complete design resource for ensuring the proper design of your part or application. Includes advice on material selection, joint design, clamping concepts, best practices, and how to design for inspection.

    The welding horn is the element of the welding stack that supplies energy to the component being welded. A typical welding horn is shown in Fig.4. Design of the welding horn is critical to successful welding. It is strongly recommended that welding horn manufacture should only be carried out by companies specialising in ultrasonic welding. In addition to welding, ultrasonic energy is commonly used for processes such as inserting metal parts into plastic or reforming thermoplastic parts to mechanically fasten components made from dissimilar materials. Ultrasonic welding is used in almost all major industries like automotive, electronic and appliances, medical, packaging etc. A

    A Design Guide for Information and Technology Equipment. The American Plastics Council (APC) is a joint initiative with The Society of the Plastics Industry, Inc. The APC is working with industry to facilitate the recovery and reuse of plastics from durable goods and packaging materials. The mission of APC’s Information Technology Industry Subcommittee (for-merly the Computer and Business 11/01/2014 · ultrasonic welding,ultrasonic plastic welding,ultrasonic welding basics,ultrasonic welding metal,ultrasonic welding design guide,ultrasonic welding process,ultrasonic welding branson,ultrasonic

    Ultrasonic welding is an industrial technique whereby high-frequency ultrasonic acoustic vibrations are locally applied to workpieces being held together under pressure to create a solid-state weld.It is commonly used for plastics and metals, and especially for joining dissimilar materials.In ultrasonic welding, there are no connective bolts, nails, soldering materials, or adhesives necessary Laser Plastic Welding Design Guide for Engineers The complete design resource for ensuring the proper design of your part or application. Includes advice on material selection, joint design, clamping concepts, best practices, and how to design for inspection.

    ULTRASONIC ASSEMBLY 17 Ultrasonic Welding 17 Ultrasonic Staking 18 Ultrasonic Spot Welding 18 Ultrasonic Inserts/Heat Inserts METAL INSERTS 22 Molded-In Metal Inserts 22 Coil-Threaded Inserts 22 Thread-Cutting Inserts 23 Expansion Inserts SNAP AND PRESS FITS 24 Snap Fits 25 Press Fits HEAT WELDING AND SEALING 26 Heat or Hot-Plate Welding 27 Bar Ultrasonic plastic welding can be used to a limited extent for joining together two different thermoplastics (amorphous plastics). Ultrasonic welding is not suitable for use with thermo setting plastics. Today ultrasonic welding is used in every industry that processes plastics. Most common uses are in the Automotive, Medical, Textile, Food