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

[Data Download] Surface Treatment "By Application" Chosen in the Semiconductor and Electronics Field

Coatings with anti-static properties, heat resistance, chemical resistance, and chemical inertness are widely used in semiconductor manufacturing equipment and electronic component manufacturing equipment.

■Applications such as plating jigs, soldering jigs, and semiconductor manufacturing lines - Selected surface treatment 'TEFLON (TM) fluororesin coating' ■Applications such as precision molds - Selected surface treatment 'Bicoat (R)' 'Nanoprocess (R)' ■Applications such as wafer and glass handling - Selected surface treatment 'Saflon (R)' 'PBI, PI coating' ■Applications such as precision nozzles, MEMS components, and optical lenses - Selected surface treatment 'Nanoprocess (R)' ■Applications such as chemical supply tanks - Selected surface treatment 'TEFLON (TM) fluororesin coating' 'Saflon (R) AP+' 'MY Lining (R)' ■Applications such as clean room walls, experimental equipment, and various tools - Selected surface treatment 'SeraShield F' ■Applications such as high-temperature equipment parts (rolls, heater covers) - Selected surface treatment 'SGN coating' *You can download the PDF of the surface treatment products introduced. For detailed product information, please visit the "Yoshida SKT Official Website."

Company：吉田ＳＫＴ
Price：Other

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Surface treatments chosen for corrosion-resistant applications in the chemical industry *Product documentation available

In fields where chemical substances are used, surface treatments aimed at enhancing corrosion resistance are required. We introduce thick film coatings made from high-performance resins.

Typical corrosion-resistant materials include rubber, glass, and graphite products, but each has its drawbacks. ■ Disadvantages and Concerns - Rubber → Weak against heat and solvent-based substances - Glass lining → Weak against alkaline chemicals, thermal shock, and mechanical shock - Graphite products → Excellent acid resistance but weak against strong oxidizing acids (such as fuming sulfuric acid) ■ Materials that Address Disadvantages and Concerns From the above perspective, perfluoro-based fluoropolymers have few drawbacks, and in terms of chemical resistance, fluoropolymer coatings and linings can be used in a versatile manner. Applications such as tanks, piping, valves, and pumps ■ Selected Surface Treatments - Teflon(TM) Coating - Fluoropolymer Coating - SafeFlon(R) - SafeFlon(R) AP+ - MY Lining(R) Applications such as reaction vessels and acid storage tanks ■ Selected Surface Treatments - MY Lining(R) Applications such as dryers and centrifuges ■ Selected Surface Treatments - SafeFlon(R) - SafeFlon(R) AP+ *You can download the PDF introducing the surface treatment products.

Company：吉田ＳＫＴ
Price：Other

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Presentation of Materials: Selection of Surface Treatments Chosen in the Medical and Pharmaceutical Fields

Non-stick, sliding, and wear-resistant surface treatments for chutes, guides, and sealers are effective for speeding up pharmaceutical packaging machines and making them maintenance-free.

The production sites for medical and pharmaceutical products require not only high productivity but also very strict cleanliness standards. In pharmaceutical packaging machines, there is a demand for speed-up for efficiency and maintenance-free operation, leading to the adoption of Bicoat® and fluoropolymer coatings to improve non-stick properties, slip resistance, and wear resistance for guides and sealers. In tablet production lines, Bicoat® is used on tablet presses, hoppers, and guides to enhance the slip properties of tablets, contributing to quality improvement. Additionally, fluoropolymer coatings are used on stages, hot plates, and parts that come into contact with paraffin in pathology testing equipment. ■ Applications for medical drip fusion sealers, pathology testing equipment, etc. - Selected surface treatments: 'Fluoropolymer coating', 'Bicoat®' ■ Applications for tanks, material supply machines, chutes, etc. - Selected surface treatments: 'Urethane coating', 'Saflon® AP+' ■ Applications for centrifuges, etc. - Selected surface treatments: 'Saflon® AP+' ■ Applications for adhesive drugs and tape transport fixtures, etc. - Selected surface treatments: 'TP series, CTT series, Super Alloy, CAT, CMT'

Company：吉田ＳＫＴ
Price：Other

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Fluororesin Coating: "What is the relationship between non-stick properties and water repellency?"

[Function Explanation] Understanding the mechanism of adhesion reveals the best release and surface treatment! Surface energy and water repellency | What is the relationship between non-stickiness and water repellency?

Why does fluoropolymer coating repel water? We will introduce the relationship between surface energy, non-stick properties, and water repellency. ■ The relationship between water droplets and surface energy The reason the surface of fluoropolymer coating repels water is that the surface tension of water acts strongly. The same principle applies to sticky substances. In other words, "difficult to wet = difficult to stick." The action of liquid surface tension is strongly related to the surface free energy of solids. Surface free energy is the force that tries to attract the molecules of the contacting counterpart. Water is a substance with higher surface tension compared to oil. When in contact with a solid that has the same surface free energy, oil tends to spread and wet more easily, while water tends to bead up and is harder to wet. The smaller the surface free energy of the solid compared to the liquid it contacts, and the greater the difference, the more difficult it becomes for the liquid to wet (stick). The surface of fluoropolymer coating has very low surface free energy, which allows it to repel not only water but also oil, making it an effective surface treatment for release purposes due to its low tendency to stick. For more details, please check the official Yoshida SKT website from the link below.

Company：吉田ＳＫＴ
Price：Other

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[Presentation of Materials] List of Surface Treatments Selected for Food Factories by Application

Surface treatment that enables automation, labor-saving, and robotization of food factory lines. Contributes to speed-up and maintenance-free operation!

■Applications for automatic rice cooking lines, kneaders, rolls, baking molds, etc. - Selected surface treatments 'Teflon(TM) coating (fluororesin coating)' 'MRS coating (silicone-based coating)' ■Applications for packaging machine blades, tape feeding rolls, etc. - Selected surface treatments 'MRS coating (silicone-based coating)' 'Bicoat(R)' ■Applications for packaging machine guides, buckets, sealers, etc. - Selected surface treatments 'Bicoat(R)' 'Bicoat(R) Exceed' ■Applications for cutters, arms, claws, etc. - Selected surface treatments 'Nanoprocess(R)' ■Applications for confectionery molding molds, rice serving machines, food transport sections, lightweight cups, etc. - Selected surface treatments 'TP coating, Super TP coating' 'MRS coating' ■Applications for baking molds, baking sheets (to prevent sticking during food baking), etc. - Selected surface treatments 'Teflon fluororesin coating' ■Applications for rice shutters, etc. - Selected surface treatments 'CTT fabric sheet' *You can download the above surface treatment products in PDF format.

Company：吉田ＳＫＴ
Price：Other

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Fluororesin Coating "Functional Property Data"

Here is some reference data on the non-stick, water-repellent, heat-resistant, and slippery (low friction) properties of fluororesin.

■Non-stickiness: It refers to the property of being easily released from strongly adhesive substances, either not adhering at all or having a tendency to adhere less. ■Water repellency: It refers to the property of repelling liquids and not getting wet when they come into contact with the surface. 【Reference data for non-stickiness and water repellency】 ■Contact angle of water (°) PTFE ... 114 PFA ... 105-110 FEP ... 115 ETFE ... 96 ■Contact angle of n-HD (°) PTFE ... 34-45 PFA ... >45 FEP ... 41-45 ETFE ... 28 ■Surface free energy of solids (dyne/cm) PTFE ... 18.5 PFA ... 17.8 FEP ... 17.8 ETFE ... 22.1 ■Low friction: It has a slippery feel and a low coefficient of friction, providing excellent lubricity. 【Reference data for low friction】 ■Static friction coefficient (μ) PTFE ... 0.02-0.04 PFA ... 0.04-0.05 FEP ... 0.05-0.06 ETFE ... 0.07-0.08 *The values are general characteristics and are not guaranteed. *For more details, please contact us.

Company：吉田ＳＫＴ
Price：Other

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[Electronics Industry Improvement Case] Enabling Continuous Cutting of Adhesive Packages!

Achieve continuous cutting of adhesive-backed packages with thin film coating! The excellent non-adhesiveness of the thin film coating maintains the sharpness of the blades.

We would like to introduce a case where we achieved prevention of adhesive residue on cutting blades when disposing of adhesive-laden packages. ■ Background of Surface Treatment Consideration In the device that removes products from the package, a mechanism was needed to automatically cut and dispose of adhesive-laden packages into smaller pieces. ■ What We Wanted to Achieve The device operates unmanned, with human intervention only required when the finely cut packages fill the dust box. Therefore, it was essential to prevent the adhesive from sticking to the cutting blades, allowing for maintenance-free operation. ■ Conditions for Selecting Treatment Initially, a fluororesin coating, effective in preventing adhesive residue, was selected and tested. However, the thickness of the fluororesin coating, approximately 30μm, caused a decrease in the sharpness of the blades. As a solution, we polished the coating only on the cutting edge and conducted retesting, but this resulted in the cutting edge being uncoated, leading to adhesive sticking. Continuous cutting of packages became impossible. ■ Adopted Coating 'MRS Coating' ▼ We are currently offering a free collection of improvement case studies and a coating trial set! ▼

Company：吉田ＳＫＴ
Price：Other

Other packaging machines

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[Case Study on Surface Treatment] Non-Stick Coating for Rubber Punching Blades *Materials Available

Prevent line stoppage of cutting tools for urethane rubber products. Improve production efficiency by solving adhesion issues with a thin film coating on the cutting blades.

■Concern We received a consultation regarding a problem where a blade used to punch out polyurethane rubber shapes causes the device to stop due to fragments of polyurethane rubber sticking to the blade. Upon checking, we found that the device sometimes stops on the first shot, significantly reducing the production efficiency of the product. ■Background In the case of punching blades, both release properties to prevent polyurethane rubber from sticking to the blade and slip properties to cut through the rubber without resistance when the blade is pressed into the rubber are necessary. The customer considered a fluororesin coating that excels in both release and slip properties and contacted us. ■Conditions for Choosing Treatment During the hearing, we understood that maintaining the sharpness of the blade edge is necessary for the punching blade to maintain the product shape, and that this is difficult to achieve with a fluororesin coating. We also learned that the customer has been achieving results with silicone release agents as an improvement measure. ■Adopted Coating 'MRS-014' ▼ We are currently offering a free collection of case studies on blade improvements in cutting processes and a trial set! ▼

Company：吉田ＳＫＴ
Price：Other

Other packaging machines

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[Pharmaceutical Industry Case] Solving Infusion Pack Transportation Issues with Fluorine Coating

Transport troubles with infusion packs. Solved with superior slip properties over fluororesin coatings! Improving the slip properties of resin containers such as drip packs.

■Concern This was a consultation regarding the transportation line where liquid-filled packs are conveyed by sliding them down a stainless steel chute. The issue was that the stainless steel chute and the liquid packs had poor sliding properties, causing the packs to stop midway and leading to line stoppages. Although a pusher was installed on the transport line to address this, it was inefficient, and improving the sliding properties of the chute remained a challenge. ■Background As a countermeasure, the customer polished the surface of the stainless steel chute with a buff and applied a fluororesin coating. While some improvement was observed, the process using the pusher did not change. Co-deposited fluororesin plating was also attempted, but it did not lead to any significant improvement. ■Adopted Coating "Super TP HL" ■Achieved Effect At Yoshida SKT, we proposed "Super TP HL," which can control surface shape using only fluororesin. After processing one of the actual chutes for testing, it began to slide without the use of a pusher. Currently, it has been adopted across all lines, and it is being used without any issues. *Product information PDF is available for download.

Company：吉田ＳＫＴ
Price：Other

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Prevention of adhesive adhesion on laminated processing paper for transport shoots! *Surface treatment example

[Surface Treatment Solution Case] Preventing adhesive adhesion on polyethylene laminated paper. We improve transport equipment with our unique convex fluorine coating.

■Concern The paper used for packaging liquids such as milk cartons is laminated with resin such as polyethylene on its surface. The adhesive used for the lamination process was causing issues by oozing out from the processed paper and sticking to the transport chute, leading to foreign substances adhering to the product (processed paper) and resulting in product defects. ■Background The customer we consulted was using an overseas-made device, which had surface treatment on the transport section since its introduction. Upon inspection, it was found that a fluororesin coating had been applied, but adhesive residue that oozed out from the paper was sticking and hardening, worsening the product's slip characteristics, necessitating frequent cleaning. ■Adopted Coating 'Super TP Hemispherical Graphic HL' ■Effects of Adoption The reduction in contact area of the 'Super TP Coating' and the excellent slip properties of the fluororesin successfully prevented the adhesion of adhesive residue. The smooth convex surface allowed for smooth transport without scratching the laminated paper. As a result, the need for regular cleaning has been eliminated, achieving both a reduction in product defects and an increase in production efficiency.

Company：吉田ＳＫＴ
Price：Other

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Examples of preventing adhesion of ion exchange resins! Special fluoropolymer coating.

We will smoothly transport ion exchange resins that are prone to sticking. Here, we present a case study of a solution using convex fluororesin coating to reduce contact area.

■Concern We were using equipment to transport ion exchange resin, including hoppers, screws, and casings. Since the ion exchange resin is transported in a wet state, it tends to stick to the equipment due to moisture. Additionally, the resin that sticks gradually loses moisture and changes its properties, so measures to prevent sticking in the transport equipment were necessary. ■Background Initially, fluoropolymer coatings were considered for preventing the sticking of ion exchange resin. Fluoropolymers such as PTFE and PFA are known for their excellent non-stick properties and are used for releasing various materials. In this case, when we tested samples with ion exchange resin, we found that it stuck just like it did to metal and could not be removed. ■Adopted Coating TP Coating TP-431 ■Adoption Process and Effect In experiments, it was found that the ion exchange resin, being in small bead form and wet, stuck to the flat surface of the fluoropolymer due to moisture. To reduce the impact of moisture, we tested the TP coating, which forms fine convex surfaces on the surface. After several tests, TP-431, which showed the least sticking, was adopted. *For more details, please visit the official Yoshida SKT website or contact us.*

Company：吉田ＳＫＴ
Price：Other

Other conveying machines

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Fluororesin Coating: "What is the difference in fluororesin?"

I will explain the differences between the representative fluororesins "PTFE," "PFA," and "FEP."

Types and Characteristics of Representative Resins for Teflon Coating and Fluororesin Coating ■ Resin Name PTFE (Polytetrafluoroethylene) ■ Characteristics It has the highest continuous use temperature of 260°C, and in addition to heat resistance, it also excels in non-stick properties and low friction characteristics. ■ Alternative Name Tetrafluoroethylene, 4F ■ Resin Name PFA (Perfluoroalkoxyalkane Polymer) ■ Characteristics An improved resin of PTFE, it has the same continuous use temperature of 260°C as PTFE. It has a low thermal melt viscosity, allowing for a continuous coating with fewer pinholes that could not be achieved with PTFE, making it the best-performing fluororesin for corrosion-resistant coatings. Additionally, PFA is superior in non-stick properties compared to PTFE for certain applications, making it suitable for high-temperature release coatings. ■ Resin Name FEP (Perfluoroethylene Propylene Copolymer) ■ Characteristics An improved resin of PTFE, but with lower heat resistance than PTFE. It can achieve a smooth coating with fewer pinholes through sintering. ■ Alternative Name 4F6F, Tetrafluoro-hexafluoropropylene

Company：吉田ＳＫＴ
Price：Other

Secondary Cells/Batteries

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The lifespan of fluorine coating improved up to four times: Case study on the improvement of resin thermal fusion process.

Solving the issue of fluororesin coating peeling in the polypropylene container welding process! Achieving four times the maximum usage count, resulting in increased productivity and reduced costs.

■Concern For customers manufacturing resin containers made of PP (polypropylene), there was a process of adjusting the size and welding them in the middle for containers that are split vertically into two parts. ■Background To prevent adhesion of PP on the heat welding plates (heater plates) used for welding PP resin, PTFE coating (fluororesin coating) was adopted. The heater temperature is high, reaching up to 250°C, and since it is pressed against the PP resin during use, the PTFE coating would get scratched, leading to delamination at the interface between the heat welding plate and the coating, necessitating immediate replacement. ■Adopted Coating "CHC-1111CR" ■Adoption Background and Effects While PTFE has high heat resistance and is less likely to soften when heated, we proposed "CHC-1111CR," which has even higher film hardness during heating. In actual machine tests, where PTFE could no longer be used after one cycle, it was found that it could now be used for four cycles, leading to its adoption. The adhesion prevention performance for PP remains unchanged compared to PTFE. *For more details, please download the PDF or contact us.*

Company：吉田ＳＫＴ
Price：Other

Other Auto Parts

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[Surface Treatment Example] Improved Release Properties of Heat Plates for Tray Sealers!

[Food Industry Case Study] Improved Non-Stick Properties of Welded Plates with Special Fluoropolymer Coating! Measures to Prevent Adhesion of Films that Stick Even with Fluoropolymer Coatings.

We would like to introduce a case of a coating that resolved the sticking issues of melt film that could not be solved with fluororesin coatings. ■ Background of the Consultation A certain customer was handling a tray sealer that covers plastic trays with film. In the process of covering plastic containers with film, the film is melted and thermally bonded to the plastic container. The thermal bonding plate is heated to over 100°C, causing the film surface to melt. To prevent the film from sticking to the heating plate, a fluororesin coating was applied. ■ Background of Coating Selection Fluororesin coatings are often used for their excellent non-stick properties, but depending on the material of the film and the melting temperature, they were causing product defects by sticking to the heating plate. Additionally, the heating plate had small holes for vacuuming the film, which limited the options available. ■ Coating Adopted 'TP Coating' *Please scroll down for more details. *For more information, please refer to the materials or contact us directly.

Company：吉田ＳＫＴ
Price：Other

Food Packaging Machinery

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Explaining the non-stick properties of Teflon and fluoropolymer resins! "Why don't they stick?"

What is non-stickiness? Why do ingredients not stick to Teflon-coated frying pans? We present an explanatory document that answers such questions about non-stickiness!

Teflon fluoropolymer, known for its Teflon coating and fluorine coating. What kind of mechanism enables its characteristic of being difficult for things to stick? By understanding the non-stick mechanism of fluoropolymer, you will be able to use it appropriately. We present the following three-part document explaining non-stick properties. ■□■□■□■□■□■□■□■□■□■□■□■□■□■□■□■□ INDEX 1. The property of non-stickiness 2. Reasons why Teflon fluoropolymer excels in non-stickiness 2-1. High repellency 2-2. Low affinity 2-3. Chemically stable molecular structure 3. Examples of solutions utilizing non-stick properties - Case studies introduction - ■□■□■□■□■□■□■□■□■□■□■□■□■□■□■□■□ For more details, please download the document or check the link below. ▼ "Why doesn't it stick?!" Explanation of the non-stick properties of Teflon fluoropolymer ▼

Company：吉田ＳＫＴ
Price：Other

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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