Fluorine resin coating Product List and Ranking from 39 Manufacturers, Suppliers and Companies

Last Updated：Oct 08, 2025 Aggregation Period:Sep 10, 2025～Oct 07, 2025
This ranking is based on the number of page views on our site.

Fluorine resin coating Manufacturer, Suppliers and Company Rankings

Last Updated：Oct 08, 2025 Aggregation Period:Sep 10, 2025～Oct 07, 2025
This ranking is based on the number of page views on our site.

吉田ＳＫＴ Aichi//Manufacturing and processing contract
フロロコート Saitama//others
竹中製作所 Osaka//Machine elements and parts
4 null/null
5 東海ライニング工業 Gifu//Manufacturing and processing contract

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Fluorine resin coating Product ranking

Last Updated：Oct 08, 2025 Aggregation Period:Sep 10, 2025～Oct 07, 2025
This ranking is based on the number of page views on our site.

Advantages and disadvantages of re-coating a non-stick frying pan. 吉田ＳＫＴ
Fluororesin Coating: "Differences in Color and Selection Method" 吉田ＳＫＴ
Causes of Teflon coating peeling and how to address them. 吉田ＳＫＴ
4 Fluororesin coating "Adron Coating in Such Places" フロロコート
5 Regulations on Teflon? Regarding the PFAS regulation proposal. 吉田ＳＫＴ

Fluorine resin coating Product List

241～255 item / All 364 items

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Here are some terms related to molds.

We will introduce terms related to molds, as well as surface treatments and case studies that can solve molding troubles.

Terms related to molds include the following: [Mold-Related Terms] - Shot: The unit amount of molten resin injected from the injection port in injection molding. - Gate: The part within the mold where molten resin flows in during injection molding. - Ejector Pin: A pin that moves with the operation of the mold to remove the molded product from the mold. - Laminated Plate: An element that constitutes the mold, consisting of multiple stacked plates. - Drilling Process: One of the manufacturing processes for molds, involving creating holes in metal plates, etc. - Heat Treatment: A process of heating and rapidly cooling metal materials to extend the durability and lifespan of the mold. - Wear: Refers to the wear that occurs due to the use of the mold, which affects the mold's lifespan. - Casting Mold: A mold used in casting. - Design Drawing: A drawing created by the designer in the mold design process. - Assembly: The process of assembling the various components of the mold. - Mold Surface Treatment: A technique that can improve wear resistance or release properties on the surface of the mold. These are basic terms that people involved in mold manufacturing, operation, and maintenance should be familiar with. Below, we will introduce surface treatments.

Company：吉田ＳＫＴ
Price：Other

Other molds

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What is the semiconductor manufacturing process? An introduction to surface treatment that supports semiconductor manufacturing.

What is the semiconductor manufacturing process? This introduces the surface treatments used in semiconductor manufacturing equipment.

The semiconductor manufacturing process refers to a series of steps involved in designing, producing, and shipping semiconductor devices. Semiconductor devices are essential components used in various modern electronic devices such as computers, smartphones, automotive electronics, and LEDs. The semiconductor manufacturing process requires high purity and precision technology, and is often conducted in automated clean rooms. 1. Design → Photomask production Logic circuit design, layout design, photomask production 2. Front-end process (wafer processing) Procurement of silicon wafers → Cleaning → Film deposition → Photolithography → Ion implantation → Wiring → Inspection 3. Back-end process (assembly) Dicing → Die bonding → Wire bonding → Encapsulation → Solder ball mounting → Separation → Stamping → Inspection → Packaging and shipping In the semiconductor manufacturing process, especially in the front-end process, a high level of precision at the nano level is required, necessitating high purity and precision. Surface treatments, including fluororesin coating, support semiconductor manufacturing and play a significant role in semiconductor manufacturing equipment, an area in which Japan excels. Below, we will introduce surface treatments that are indispensable in semiconductor manufacturing.

Company：吉田ＳＫＴ
Price：Other

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[Presentation of Materials] A Comprehensive Guide to Fluororesin Coating from Basics to Applications in One Volume

Packed with content that connects theory to practice, this comprehensive 38-page book covers everything you need to know about fluororesin coating from the basics to advanced applications.

We are currently offering a textbook that allows you to learn the basics of "fluoropolymer coating" from our company, a specialist manufacturer of surface treatment and fluoropolymer coatings! This document, consisting of 38 pages, is packed with content that connects the fundamentals of fluoropolymers to their applications. With this single book, you can learn the basics of fluoropolymers, practical case studies, and tips for selecting coatings. [Contents (excerpt)] ■ What is fluoropolymer? ■ Explanation of the characteristics of fluoropolymers ■ What is fluoropolymer coating? ■ Processing methods for fluoropolymer coatings ■ Tips for selecting fluoropolymer coatings ■ Suitable substrates for fluoropolymer coatings ■ Case studies of fluoropolymer coatings If you are interested, please download the document from the link below and take a look.

Company：吉田ＳＫＴ
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Fluororesin coating "Method of reprocessing"

What is the method for reprocessing fluororesin coatings?

Fluororesin coating can experience wear and peeling depending on the application, environment, and conditions. In such cases, it is possible to strip the coating and reprocess it. Reprocessing places a greater burden on the substrate compared to the initial processing, so consultation according to the application is necessary. 【Overview of Processing Steps】 ■Receiving the Substrate ○ Inspection of the substrate is conducted. ■Preheating ○ The substrate is heated in a furnace to thermally decompose oils, dirt, and fluororesin. ■Surface Preparation ・Blasting ○ The processing surface is blasted to remove rust and dirt, and to create a moderately rough surface. ■Primer Coating ○ A primer that enhances adhesion between the substrate and fluororesin is applied. ■Baking ○ The primer is cured. ■Coating ・Powder Coating ○ Fluororesin powder is applied using a special coating machine. ・Enamel Coating ○ Fluororesin enamel is applied either by machine or manually. ■Baking ○ The fluororesin is heated and melted to form a coating. ■Inspection ○ After processing is complete, an inspection is conducted to ensure that the processing meets specifications and agreements. For inquiries regarding reprocessing, please contact Yoshida SKT.

Company：吉田ＳＫＴ
Price：Other

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[Example] Surface treatment to prevent eye mucus in elastomer extrusion molding.

We will introduce examples of surface treatments to prevent eye discharge that occurs during the extrusion molding of elastomers.

An elastomer is a type of synthetic resin that possesses elasticity and can change shape, being a polymer compound that has both rubber and plastic properties. This time, we received a consultation regarding the inability to produce stable products due to the occurrence of eye mucus in the mold during the extrusion molding of elastomers. ■ Background for Coating Adoption - Without surface treatment, the elastomer adhered to the mold to the extent that almost no products could be manufactured. - By adopting our Bi-Coat, we were able to prevent adhesion to a level that allowed for production. - It was found that after about a month of mass production, defects due to the adhesion of eye mucus occurred. ■ Effects of Surface Treatment Adoption - After adopting our 'MRS-102' and starting tests, eye mucus did occur, but it did not adhere to the mold and could be easily removed, which helped suppress the occurrence of defects, allowing for continuous use for six months. *For details on the adopted 'MRS-102', please refer to the materials or contact us.

Company：吉田ＳＫＴ
Price：Other

Processing Contract

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Surface treatment case study: Improvement case of molding dies for dog toys.

We will introduce examples of surface treatments that improve production efficiency with release properties and smoothness that surpass fluoropolymer coatings.

We would like to introduce a case of surface treatment for molding molds that ensure the quality of dog toys. ■Consultation Details We received an inquiry from a customer who molds toys that pets chew and play with. The mold already had a fluororesin coating applied, and they were seeking further improvements. ■Background of Selection The mold had a fluororesin coating applied to prevent material adhesion. Additionally, by processing a surface treatment that could further reduce adhesion, they were expecting improvements in production efficiency, and it was necessary to consider the smoothness of the mold as well. ■Adopted Coating 'MRS Coating' ■Adoption Background and Effects We proposed 'MRS-102', which excels in release properties and smoothness. Compared to the existing fluororesin coating, the release properties were significantly improved, and the customer was satisfied. *For more details, please refer to the materials or contact us directly.

Company：吉田ＳＫＴ
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What is a fluoropolymer?

Here are the features of fluoropolymer.

Fluoropolymer refers to a type of polymer that contains fluorine atoms as a major component. Fluorine is a very distinctive element, and its properties are prominently reflected in the polymer. Below, I will explain the main characteristics and common applications of fluoropolymers in detail. ■Characteristics Very low adhesion Fluoropolymers are generally very smooth and have almost no adhesion, which is why they are known as "non-stick" or "non-adhesive." High chemical resistance Fluoropolymers possess excellent chemical resistance. They show resistance to many corrosive substances and solvents, and have chemically stable properties. This makes them suitable for applications such as chemical containers, piping, and gaskets. High heat resistance Fluoropolymers have the ability to withstand high temperatures. In particular, PTFE can endure very high temperatures (around 260°C or 500°F). This property makes them suitable for applications that require use under high-temperature conditions. Electrical insulation Fluoropolymers have excellent electrical insulation properties. This is one of the reasons they are widely used as insulating materials for electronic components and cables.

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[Surface Treatment Example] Prevention of Epoxy Adhesive Adhesion on Electronic Component Transport Plates

Introducing a case study of precision surface treatment that prevents adhesion of epoxy adhesives used for bonding electronic components.

■Problems We Wanted to Solve We received an inquiry from a customer who wanted to resolve the issue of epoxy adhesive used for bonding parts overflowing and sticking to the transport plate. ■Conditions for Choosing the Treatment - Heat resistance of 150°C that can withstand the curing process - A tolerance of warping of less than 1mm to maintain precision - Silicone-free - Durable and washable ■Adopted Treatment TLS-200 (Nano Process) ■Achieved Effects After testing with samples and confirming with prototypes, it was adopted for mass production processes. If you want to prevent adhesion of epoxy adhesive, want to know more about the nano process, or are struggling with surface treatment in the precision field, please download the materials or contact us directly.

Company：吉田ＳＫＴ
Price：Other

Other semiconductors

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I will introduce the characteristics of different types of fluororesins.

I will explain nine types of fluororesins.

List of 9 Representative Fluororesins ■PTFE Also known as polytetrafluoroethylene or tetrafluoroethylene, it is a white fluororesin with excellent sliding properties, non-stick characteristics, chemical resistance, and electrical properties. ■FEP A melt-processable perfluoropolymer developed after PTFE, it is a copolymer of TFE and hexafluoropropylene (HFP). Although its continuous use temperature is inferior to that of PTFE, it excels in moldability and non-stick properties. ■PFA A fluororesin developed to lower the melt viscosity while maintaining heat resistance equivalent to PTFE. It is a copolymer of tetrafluoroethylene (TFE) and perfluorovinyl ether (PFVE). ■ETFE A copolymer of TFE and ethylene, it is partially fluorinated. While it has excellent processability, its heat resistance and chemical resistance are lower compared to the above three types since it is not a perfluoropolymer.

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Causes of Teflon coating peeling and how to address them.

Teflon coating, which is widely used on frying pans and hot plates, will be explained regarding the causes of peeling and how to address them.

Teflon coating is applied to frying pans and hot plates to prevent sticking. This explains the causes of peeling and how to address them. ■ Causes of Peeling Teflon is a brand name for fluoropolymer. Fluoropolymer is a type of plastic, making it softer and more prone to scratches compared to metal. The continuous use temperature is also lower, at up to 260°C, compared to metal. Therefore, simply scraping with a metal spatula or scrubbing hard with an abrasive sponge can cause scratches and lead to peeling. Additionally, extreme high-temperature environments, such as dry heating, can cause degradation or decomposition, so caution is necessary. Use a spatula made of resin, clean with a soft sponge, and if using a neutral detergent, it is important to rinse thoroughly. Residual surfactants can make the surface more prone to sticking. ■ Solutions In principle, Teflon coatings and fluoropolymer coatings cannot be partially repaired. Therefore, if it is a frying pan, we recommend replacing it. For industrial parts, reprocessing for peeling may be considered. Please contact us regarding the peeling methods and suitable base materials. Teflon-coated products can be used for a long time depending on how they are used. We recommend utilizing their features effectively.

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Explanation of the molecular structures and properties of PTFE, PFA, FEP, and ETFE.

[Presentation of Materials] A detailed explanation of the differences between PTFE and PFA, which are surprisingly not well known, including molecular structure and properties!

The technical document "Differences Between PTFE and PFA" provides a detailed explanation of PTFE, PFA, FEP, and ETFE, covering everything from molecular structure to properties. Fluoropolymers are well-known for their functionality, such as being non-stick and slippery, but many people may not be aware of their various types and differences. This single book allows you to thoroughly understand the differences and characteristics of each. If you are interested, please feel free to download it. [Contents (excerpt)] ■ Types and properties of fluoropolymers ■ Differences between PTFE and PFA / Overview of FEP and ETFE ■ Differences among four types of fluoropolymer coatings

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[Pharmaceutical Industry Case Study] What is Coating that Reduces Workload in Pharmaceutical Manufacturing?

We will introduce a coating case that facilitates the transportation of containers for administering laxatives, thereby improving productivity.

■Customer's Concern A customer who manufactures pharmaceuticals such as laxatives reported an issue where, when filling products into containers shaped like tears and sending them on trays to the next process, the trays and containers had poor sliding, requiring significant force and time to push them out. ■Solution to the Problem By adopting the Super TP Hemisphere Graphic, we formed unevenness of fluororesin on the surface of the tray, improving its slip properties. As a result, products can be slid with much less force compared to the current trays, successfully reducing the workload. ■Coating that Led to the Solution Yoshida SKT Super TP Hemisphere Graphic

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[Surface Treatment Case] MRS Coating Solves Challenges in Adhesive Tape Transport

We will introduce examples of how it has become possible to prevent the adhesion of paste and the wrapping of tape.

■Issues to be Resolved The adhesive from the packing tape was adhering and accumulating on the tape transport rollers, causing tape entanglement. As a result, manual cleaning was necessary, leading to unavoidable line stoppages. ■Solution MRS coating was applied to the surface of the rollers to improve their non-stick properties. ■Effects Adhesion of the adhesive and tape sticking were eliminated, resolving the line stoppages. The effort required for cleaning was significantly reduced, leading to improved production efficiency. ■Summary of the Case MRS coating is a coating technology that excels in non-stick properties for adhesive tapes. In this case, by applying MRS coating to the packing tape transport rollers, we successfully prevented adhesive accumulation and tape sticking, resolving line stoppages and improving production efficiency.

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Increase Production Efficiency: Solve the Problems of Automatic Tape Application Devices!

[Presentation of Materials] Solving the Problems of Automatic Tape Application Devices! Achieving Zero Line Stops with Non-Stick Coating.

■Customer Issues - Adhesive from the tape adheres to and accumulates on the rollers, causing entanglement. - Manual cleaning becomes necessary, forcing line stoppages. - Decrease in production efficiency. ■Solution - Apply "MRS Coating" to the surface of the feed rollers to enhance non-stick properties. - Enhance effectiveness by processing the already adopted knurled rollers. ■Implementation Effects - Suppress adhesive attachment and tape sticking, achieving zero line stoppages. - Eliminate the need for cleaning, significantly improving production efficiency. - Considering implementation in other lines as well. For details on the adopted MRS Coating, please download the materials for confirmation.

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New Possibilities of Thin Film Fluororesin Coating '10under'

A groundbreaking thin-film fluororesin coating that achieves thin-film technology while maintaining the performance of fluororesin coatings!

The 10under thin film fluoropolymer coating possesses non-stick properties equivalent to standard fluoropolymer coatings while being processable at a thickness of approximately 10μm. As a result, the dimensional changes due to film thickness are reduced compared to the standard type. Additionally, despite being a thin film, it minimizes transparency and prevents aesthetic defects. When compared to other fluoropolymer coating products, it is generally considered that a thickness of at least 20-50μm is required to maintain good appearance and performance. Therefore, when requesting processing with a thin film like 10under, it was common to propose a "modified type" fluoropolymer coating; however, there are challenges where the modified type may not exhibit the necessary functions. 10under addresses such challenges and is capable of demonstrating high performance while being a thin film. For specific comparisons and detailed information, please check the link.

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