Fluorine resin coating Product List and Ranking from 38 Manufacturers, Suppliers and Companies

Introduction to fluoropolymer resins: ETFE, PVDF, PCTFE, ECTFE.

What are the various types of fluororesins? We will introduce the characteristics of ETFE, PCTFE, ECTFE, PVdF, and PVF resins.

■ETFE (Ethylene Tetra Fluoro Ethylene copolymer) A copolymer of TFE and ethylene, it is a resin with excellent processability. Since it is not a perfluoropolymer, its chemical resistance is slightly lower. Melting point: 220-270℃ ■PVdF (Poly Vinylidene Fluoride) A homopolymer of vinylidene fluoride (VdF), it is hard and has the highest dielectric constant among fluoropolymers, dissolving in polar solvents at high temperatures. Melting point: 170-175℃ ■ECTFE (Ethylene Chloro Tri Fluoro Ethylene copolymer) A copolymer of chlorotrifluoroethylene (CTFE) and ethylene, it has excellent processability and superior flame resistance and hardness compared to ETFE. Melting point: 230-250℃ ■PCTFE (Poly Chloro Tri Fluoro Ethylene) A homopolymer of chlorotrifluoroethylene (CTFE), it is transparent and hard, with the lowest gas permeability among fluoropolymers. Melting point: 210-215℃ For more details, please download the PDF document or contact us.

Company：吉田ＳＫＴ
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[Presentation of Materials] Contributing to the reduction of product defects and improvement of productivity! Utilization methods for surface treatment.

By adopting surface treatment for production lines and equipment parts, we can improve the production site and move closer to enhancing productivity.

■ We respond to improvement requests in the production field with surface treatment. ● Stabilization of quality and operation ● Reduction of material costs ● Reduction of work loss ● Speeding up ● Compliance with safety and environmental measures ● Realization of development needs For example, to stabilize quality and operation, we clarify the necessary functions, such as seeking "non-stick properties" to minimize material adhesion to equipment. The functions required on-site are not singular but are interrelated in a complex manner. To maximize the desired effects, it is essential to arrive at optimally customized surface treatments through broad technical considerations. ■ Yoshida SKT translates the desired functions into necessary functions through surface treatment. ● Non-stick properties ● Slipperiness ● Chemical resistance ● Heat resistance / Cold resistance ● Water and oil repellency ● Hydrophilicity ● Wear resistance ● Electrical properties ● Static electricity prevention ● Dimensional stability ● Coating surface roughness adjustment Yoshida SKT proposes optimal surface treatments based on a wide range of coating materials and unique technologies. In cases where the desired effects are not achieved with fluororesin coatings (Teflon coatings), we investigate the causes and derive treatments with the appropriate functions added.

Company：吉田ＳＫＴ
Price：Other

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ステンレスガイドの滑り・耐摩耗を実現！自動包装機への表面処理採用

フッ素樹脂コーティングの摩耗対策に！今まで諦めていた滑り性と耐摩耗性を両立させた表面処理採用事例をご紹介します。

■お悩み食品の包装時の搬送工程で、ステンレスガイドが製品搬送の抵抗になり、ラインが詰まってしまう現象が発生していました。それによって装置が停止し、製品がストップしまうことがお悩みでした。 ■背景搬送ガイドには、通常はステンレスの磨き材を使用しますが、搬送製品が高速で大量に搬送されるため、少しでも滑りにくい状態になると、製品が詰まって装置が停止してしまいます。包装機の製品の滑り性向上に実績のある「フッ素樹脂コーティング」を検討しましたが、製品が高速で流れるためコーティングの摩耗紛による異物混入の懸念があり採用にはいたりませんでした。 ■採用されたコーティングバイコート(R) ■実現できた効果バイコート(R)は無機系材料と有機系材料を複合化した高耐久フッ素系有機コーティングです。HV700-900の硬い被膜と、フッ素樹脂が持つ潤滑性の特性で、耐摩耗性と滑り性を両立。製品のスムーズな搬送とコーティングの摩耗問題を解決できました。 ※『バイコート(R)』の製品情報をPDFでダウンロード頂けます。

Company：吉田ＳＫＴ
Price：Other

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[Packaging Machine Case Study] Wear-Resistant and Non-Stick Coating for Heat Sealers

A heat sealer that requires compatibility with packaging materials! Troubles are resolved with Bi-Coat, which combines non-stick properties and durability.

We will introduce examples of surface treatment in pillow packaging machines used for packaging food and pharmaceuticals. ■ Adhesion Issues with Heat Sealers The films used for pillow packaging vary in thickness and functionality depending on their application. In thicker packaging films that excel in preserving product quality, a resin that melts easily is used on the inner surface. When heat sealing, the resin on the sealing surface adheres to the heating part of the sealer, leading to issues such as product contamination. ■ Coating Used Bicoat "NYF-11-S" ■ Background and Effects of Adoption While plating treatment is often used to prevent adhesion on heat sealers, the soft, melted resin tends to stick to the heat sealer and does not come off. Fluororesin coatings were considered, but under high temperature and pressure conditions, there was a high risk of the coating peeling off, making it unsuitable for use. Yoshida SKT's Bicoat eliminates resin adhesion to the sealer due to its excellent release properties, and the high hardness coating with superior adhesion improves durability. This has led to a reduction in product defects and successful packaging using new materials. You can request a sample book of coatings suitable for sealers through the link provided.

Company：吉田ＳＫＴ
Price：Other

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[Pharmaceutical Industry Surface Treatment Case] Achieving Automation of Transport Equipment in Sterile Rooms

Solve the "clogging" of the eye drop resin bottle production line! Achieve reduced maintenance of transport equipment and automation of the clean room with fluorine coating!

This is a case of surface treatment for equipment that transports eye drop bottles arranged in a line, which are dispensed from a prescription. ■Problems to Solve Eye drop bottles were being transported in a manner where they were pushed out one after another over the transport chute. However, on the flat metal surface of the chute, the bottles tended to stick and were difficult to slide, leading to blockages and tipping during transport. ■Goals to Achieve Due to the need for minimal human traffic in the sterile room, it was necessary to use the equipment for at least six months without maintenance, and a surface treatment that improves sliding was requested. ■Background for Coating Selection While fluororesin coatings, which have excellent sliding properties, initially performed well, the surface would become polished due to friction with the bottles. Once worn down to a flat and smooth state, the sliding ability decreased, leading to issues. Additionally, a method was considered where the substrate would be pre-treated to form a rough surface before coating, thereby reducing the contact area. However, since different metals such as aluminum and stainless steel were used for the chute substrate, variations in hardness led to significant changes in surface roughness, and difficulties in processing arose depending on the material. ■Adopted Coating 'TP Coating' ▼ Click here for details on the coating!

Company：吉田ＳＫＴ
Price：Other

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Fluororesin coating "Wear resistance for coatings!"

For those who want to introduce fluoropolymer coatings but are concerned about wear and peeling of the coating. Measures against peeling and wear of fluoropolymer coatings!

■Are you facing any of these issues with surface treatment? - You are using fluororesin coating to improve product slip properties, but it wears out quickly and requires reprocessing. - You want to introduce fluororesin coating for production line improvement, but you are concerned about coating wear and peeling. "We have a coating at Yoshida SKT that can address such concerns." Bicoat® is a coating that pursues a balance of [durability and strength] and [anti-adhesion and slip effect]. It reduces the possibility of troubles caused by "functional decline due to coating scratches and peeling, foreign matter contamination, and defects," which can lead to decreased production efficiency. - Provides slip properties to conveyor chutes, preventing blockages of transported items. Reduces the risk of coating peeling and foreign matter contamination. - Prevents sticking of heat sealer's bonding film and coating peeling. - Contributes to improved release properties of resin molding molds. Maintains dimensional accuracy, allows for low-temperature processing, and preserves mold quality. 'Bicoat®' samples are currently available for free. Please try the anti-adhesion and slip properties with actual materials. ▼ You can apply from the official Yoshida SKT website below.

Company：吉田ＳＫＴ
Price：Other

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Sustained release properties surpassing fluororesin! The release effect of resin-welded plates has improved threefold.

The welding process for containers and lids necessary in the production line of lead-acid batteries. We will introduce examples of coatings that suppress resin adhesion to the welding mold and allow for long-term use!

■Concerns Lead-acid batteries, widely used in automobiles and commercial power sources. In the production process, after filling a resin box with electrodes and other components, the container and lid are welded to seal them. The heating plates used for welding are made of aluminum and are heated to over 200°C, but due to the occurrence of melted resin and stringing, a fluororesin (PTFE) coating was applied. ■Background In a production line that operates at temperatures above 200°C and produces several thousand shots a day, the coating on the heating plates peels off in less than a week. Reprocessing the coating has caused issues such as the hassle of changing setups and damage to molds, leading to decreased production efficiency. ■Adopted Coating "CHC-1111CR" ■Adoption Background and Effects Therefore, we proposed the newly developed "CHC-1111CR," which has equivalent release properties to fluororesin coatings and high hardness of the coating film during heating, making it resistant to peeling and wear. Testing on the actual line showed no stringing of the resin and no peeling of the coating, allowing for use in tens of thousands of shots and achieving a lifespan approximately three times that of conventional coatings. *For more details, please refer to the PDF document.*

Company：吉田ＳＫＴ
Price：Other

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Fluororesin Coating: "What is 'Blasting' in Surface Preparation?"

Surface treatment for firmly adhering a non-stick "fluoropolymer coating" to the substrate. This explains "blasting."

■What is blasting? Blasting is a surface treatment method that involves spraying blast materials (various abrasive particles) onto the surface of a product using compressed air or similar means to remove rust and dirt from the substrate surface. The particles that collide with the surface act as "impact" or "cutting." Although the energy of a single blast particle is minimal, the continuous bombardment of countless particles results in a significant effect on the surface. ■Blasting as a pre-treatment In addition to cleaning the surface, blasting increases the surface area through roughening, which generates an anchor effect that greatly enhances adhesion during coating processes. Therefore, it is extremely effective not only for fluoropolymer coatings but also as a pre-treatment for processes such as thermal spraying and plating. Additionally, blasting can improve the wettability of liquids. To fully realize the performance of fluoropolymer coatings, pre-treatment is a crucial process. At Yoshida SKT, we select blast materials and treatment methods suitable for coatings and substrates to process fluoropolymer coatings. *For more details, please check the link below or feel free to contact us.

Company：吉田ＳＫＴ
Price：Other

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Fluororesin Coating: "What is the 'Air Baking' in the Degreasing Process?"

A degreasing process to ensure strong adhesion of the non-stick "fluororesin coating" to the substrate. This explains "pre-baking."

■ What is the degreasing process? It is the process of removing oils, fats, and dirt that are attached to the surface to be coated. ■ Issues arising from insufficient degreasing It can lead to problems such as the coating material repelling, poor adhesion of the paint film, and the occurrence of appearance defects like stains. ■ Types of degreasing methods - Air roasting - Solvent cleaning ■ Air roasting process The substrate is heated in a roasting furnace to a temperature above the coating processing temperature, allowing oils and other substances to be oxidized and burned off. Typically, roasting is performed for several hours at temperatures exceeding 400°C. ■ Advantages of air roasting - No toxic gases are generated during the decomposition of oils, which are broken down into water and carbon dioxide. - It can completely decompose all organic components that could cause problems during the coating firing process. - It can accommodate large products as long as they fit into the roasting furnace. Fluoropolymer coatings, which excel in non-stick properties, adhere firmly to the substrate and perform effectively when a proper degreasing process (surface preparation) is carried out. * For an overview of the fluoropolymer coating process, please download the PDF or feel free to consult us.

Company：吉田ＳＫＴ
Price：Other

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Fluororesin Coating: "What is the Lubricity of PTFE?"

[Presentation of Information] What makes fluoropolymer excellent in lubrication? We will introduce the characteristics of fluoropolymer PTFE, focusing on its lubrication and low friction properties.

■Types of Lubrication Lubrication can be broadly divided into liquid lubrication using liquids and solid lubrication using solids. A representative example of liquid lubrication is lubrication with oil. On the other hand, lubrication with fluororesin falls under the category of solid lubrication. ■Characteristics of Solid Lubrication Solid lubrication is used in cases where liquids cannot be used or when liquids evaporate or detach in a vacuum. For example, when sliding products, solid lubrication is useful in cases where liquid lubricants would dirty the products. ■Lubricity and Low Friction of Fluororesin (PTFE) Fluororesin has a low coefficient of friction and is used as a solid lubricant. Fluororesin PTFE is structured such that fluorine atoms surround carbon atoms without gaps. The free energy of the fluorine atoms on the molecular surface is low, and the molecules have a very small polarity due to their symmetrical structure. The low coefficient of friction of PTFE is believed to be influenced by this type of molecular structure. ■Reasons for the Low Coefficient of Friction of Fluororesin PTFE → For more details, please check the basic information section.

Company：吉田ＳＫＴ
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[Surface Treatment Example] Preventing Oil Sludge Adhesion with Ultra-Thin Fluorine Coating

Achieve high water and oil repellency and non-stick properties with an ultra-thin film! Fluorine coating with a thickness of less than 100 nanometers, 'Nano Process TC-10S' *Case studies and product materials available.

Ultra-thin film fluorine coating 'Nano Process TC-10S' Prevents oil sludge adhesion on engine parts! ■Challenges - Oil sludge was adhering to automotive engine parts, hindering sliding and significantly reducing engine performance and lifespan. - To prevent sludge adhesion, high oil-repellent properties and heat resistance of 200°C were necessary for use inside the engine. - Conventional Teflon coatings, which excel in heat resistance, have a thick film that cannot meet the stringent dimensional accuracy required to improve engine combustion efficiency. ■Solutions - TC-10S has excellent water and oil repellency and can be processed to a thickness of less than 1μm. - It sufficiently accommodates the tolerances of engine parts without affecting engine function. - It maintains oil-repellent properties even in environments exceeding 200°C. ■Features of TC-10S Due to minimal dimensional changes and the ability to maintain optical properties, it enables processing in areas where fluorine resin coatings have been difficult, such as 'precision parts' and 'fields requiring high dimensional and surface accuracy.' *For case studies and detailed surface treatment information, please refer to the PDF document or feel free to contact us.

Company：吉田ＳＫＴ
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Fluororesin Coating "Key Points for Introduction" *Materials Provided

What are the key points when processing fluororesin coatings (Teflon coatings) for production equipment? An explanation of three important checkpoints!

When considering the introduction of fluoropolymer coatings, do you have any of the following concerns? - I’m not sure where to start… - I’m not very familiar with fluoropolymer coatings in the first place… For those who want to know more about the introduction of fluoropolymer coatings, we have prepared a "Guide to Introduction." [Overview of the Document] 1. The purpose of introducing coatings 2. The materials to be coated 3. The usage environment and conditions for the coatings In fact, by introducing fluoropolymer coatings into production equipment, we have received various feedback such as: - "The adhesion of paint to jigs has decreased." - "Cleaning time has been reduced." - "The number of defective products has decreased, and productivity has improved." For more details, please download the PDF or visit our company website.

Company：吉田ＳＫＴ
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Fluororesin Coating: "Differences in Color and Selection Method"

We will introduce the differences in color and how to choose coatings that encapsulate fluororesin, such as fluorine processing and fluororesin coatings.

■What color is fluoropolymer? The fluoropolymer coating commonly seen on household frying pans is often a dark color, but PTFE, which is frequently used for frying pan coatings, appears milky white under sunlight. ■Colors of fluoropolymer coatings Fluoropolymer coatings come in various colors, including green and gray, in addition to dark colors. This is because the coating materials are colored to enhance aesthetics and allow for differentiation based on purpose. ■Differences by color The differences in color of fluoropolymer coatings are not closely related to the type or characteristics of the resin. For example, green does not necessarily indicate PFA, nor does black indicate PTFE. Since fluoropolymer coatings are functional films, it is essential to choose them appropriately based on their intended use and environment. In such cases, it is important to consult a reliable processing company rather than selecting based solely on color. ■Fluoropolymer coatings for specific applications Fluoropolymer coatings demonstrate various functions depending on the type of resin, film thickness, and processing methods, across different applications and environments. It is crucial to select the appropriate coating based on the intended use, such as for non-stick purposes or corrosion resistance.

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Presenting case studies of "Bycoat" solutions [Collection of improvement case studies in equipment processes]!

[8 case studies included] For those seeking both "strength" and "anti-adhesion" in molding and packaging processes! We are offering a collection of case studies summarizing specific examples and their effects.

Yoshida SKT's surface treatment "Bicoat" is a technology that achieves both "durability" and "non-stick/slippery properties" on the coated surface. Generally, the challenges in the molding and packaging processes involve complex factors, and there are many cases where the desired functions are not met with current coatings. Examples: - High durability but insufficient slipperiness... - Anti-adhesion is achieved, but the coating peels off quickly... - Insufficient dimensional stability for molding dies... Our original surface treatment "Bicoat" can solve these challenges. We have received the following feedback from companies that have implemented it: - Drastically reduced application amount of release agents - Reduced defects in molded products - Extended lifespan of molds - Improved accuracy and quality in the packaging process Currently, we are offering a collection of improvement case studies featuring eight examples of how Bicoat has resolved issues in molding and packaging processes! [Features] - Amazing durability - High hardness, resistant to scratches - Excellent wear resistance - Outstanding non-stick and release properties - Reliable for molds requiring micron-level dimensional accuracy *For more details, please download the materials or contact us through our website.

Company：吉田ＳＫＴ
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[Surface Treatment Solution Case] Achieving both high-temperature release and long lifespan with thermal welding type!

Improvement of the thermal fusion process of the filter case through surface treatment. Achieving reduced thread pulling and long lifespan with heat-resistant fluorine coating!

■Consultation In the production process of cartridge filters, the adhesion of resin to the heat welding plate used for welding the products has been a problem. The products are completed by thermally welding polypropylene containers and lids, but PP resin tends to cause stringing and adhesion to the welding jigs, negatively affecting the product's airtightness, appearance, and production efficiency. Therefore, the heat welding plates required not only excellent release properties but also heat resistance and thermal durability. ■Background of Coating Selection In the prototype, in addition to the standard fluororesin coating, we proposed a contact area-reducing fluorine coating "TP-855." Since the welding process involved relatively low pressure, the release properties improved, making stringing and adhesion less likely. Additionally, it was used for a relatively long lifespan. ■History and Effects of Coating To further extend the lifespan of the release effect, we considered hybridizing the high thermal hardness CHC series with the contact area-reducing coating. Aiming for even longer lifespan, we proposed "CHC-1311," which balances thermal hardness and contact area reduction. Currently, there is no metal exposure due to wear, and it is being used effectively. If you are facing issues in the heat welding process, please consult Yoshida SKT.

Company：吉田ＳＫＴ
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Fluorine resin coating Product List and Ranking from 38 Manufacturers, Suppliers and Companies

Fluorine resin coating Manufacturer, Suppliers and Company Rankings

Fluorine resin coating Product ranking