Fluorine resin coating×吉田ＳＫＴ - List of Manufacturers, Suppliers, Companies and Products

Fluororesin Coating 'HBA-838'

Explanation of Yoshida SKT's fluororesin coating 'HBA-838'.

There are various types of resin for fluoropolymer coatings, depending on the application environment. At Yoshida SKT, we specify materials and processing based on the product number. 'HBA-838' is a type of PFA coating. By processing it to a thicker film, it results in a coating without pinholes, making it suitable for applications that require corrosion resistance. 【What is PFA (Perfluoroalkoxyalkane Polymer)?】 PFA is an improved resin of PTFE, with the same continuous use temperature of 260°C. Its melting point is around 310°C, and it has a lower thermal melt viscosity than PTFE, allowing for a continuous film with fewer pinholes that could not be achieved with PTFE during coating. As a corrosion-resistant coating, it has the best performance among fluoropolymer coatings. Additionally, PFA can exhibit superior non-stick properties compared to PTFE depending on the substrate, making it widely used for non-stick and release coatings. *For more details, please download the materials or contact us.

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What is the difference between lining and fluororesin (Teflon) coating?

I will explain the differences between fluororesin (Teflon) coating and lining.

■Difference Between Lining and Coating Lining is a method that protects the substrate with a relatively thick film, enhancing its corrosion resistance. The differences from coating include the thickness of the film, the presence of pinholes, and the intended use. There are no clear standards, but thick films used for corrosion protection are referred to as lining. ■What is Fluororesin Coating? Coating is a surface treatment technology that can impart the properties of fluororesin to the surface of a substrate, primarily using a baking paint method. The film thickness is generally around several tens of micrometers. ■What is Fluororesin Lining? Fluororesin lining can be processed using the same method as coating. It is particularly used for corrosion protection applications that leverage chemical resistance, and the film thickness is several hundred micrometers, making it thicker than coating. Additionally, to enhance corrosion resistance, processing without pinholes is possible. *You can download a document summarizing information about lining. *For more details, please click on "PDF Download" or feel free to contact us.

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Fluororesin coating that achieves both functionality and dimensional stability with a 10μm thin film.

A revolutionary thin-film fluororesin coating that achieves thin-film application while maintaining the performance of fluororesin coatings!

Solving the challenges of fluoropolymer coatings! Conventional fluoropolymer coatings required a thickness of 20-50μm to maintain good appearance and performance. However, the thick film affected the dimensional stability of the substrate. With its unique technology, 10under has achieved processing with a thin film of about 10μm. ■Features Processable with a film thickness of less than half of conventional coatings! (10μm) Reduces dimensional changes Suppresses transparency even with a thin film, achieving a beautiful appearance Available in two types: PFA and FEP, in two colors: black and green *For more details, please download the materials or contact us.

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Evolved thin film fluoropolymer coating '10under'

This is a groundbreaking fluororesin coating that has achieved thin film processing at a film thickness of 10μm, which was previously difficult.

10under is a fluororesin coating that enables thin film processing at a film thickness of 10μm, which was previously difficult to achieve. Traditional fluororesin coatings required a thickness of about 20-50μm, but 10under can be processed with a thin film of about 10μm. **Benefits of 10UNDER** - Reduction of dimensional changes The thinning of the film can reduce dimensional changes in the substrate. - Suppression of transparency Despite being a thin film, it suppresses transparency and prevents appearance defects. - Minimization of thin plate deformation It can minimize the deformation of thin plate substrates. If you want the same non-stick properties as standard fluororesin coatings while suppressing transparency and preventing appearance defects, and if you want to minimize the deformation of thin plate substrates, please consider 10UNDER. You can check specific comparisons and detailed information via the link.

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Fluororesin coating for plating jigs for electronic substrates.

New standard for plating jigs that achieve high durability and high insulation properties.

The fluororesin coating for plating jigs provided by Yoshida SKT Co., Ltd. addresses the challenges of quality stabilization and cost reduction in the electronic circuit board manufacturing industry. To overcome the deterioration and reduced insulation properties that were difficult to manage with conventional PVC-coated jigs, we adopted a special fluororesin coating. This coating offers superior processability compared to standard PFA coatings and allows for thick film processing. This results in the following advantages: - Increased lifespan: Achieves overwhelming durability compared to PVC coatings, reducing the frequency of jig replacements. - Reduced carryover of plating solution: Excellent water repellency prevents the carryover of plating solution to the next process over an extended period. - Stable insulation properties: Minimal deterioration from plating solution allows for long-term maintenance of insulation performance. - Total cost reduction: Although initial investment is higher, the increased lifespan of jigs and reduced maintenance frequency lead to long-term cost savings. As electronic devices become smaller and more high-performance, Yoshida SKT's innovative coating technology aims to enhance the performance and efficiency of plating jigs. *For more details, please refer to the PDF document or feel free to contact us.*

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Fluororesin coating tailored to conditions: "What functions are necessary in industrial fields?"

Selecting the appropriate fluororesin coating tailored to specific conditions is essential for improving the productivity of production equipment. Introducing the functions of fluororesin coatings for each field!

Thanks to our accumulated know-how, we propose fluoropolymer coatings tailored to the base materials, usage environments, and conditions. Depending on the conditions, fluoropolymer coatings can be applied not only to metals but also to rubber, ceramics, and resins. ■ We have a proven track record in many industrial sectors. (Some of the adopted fields) - Automotive parts - Semiconductor industry - Aerospace industry - Chemical industry - Medical and pharmaceutical fields - General industrial sector - Food industry ■ Automotive parts ● Required functions of fluoropolymer coatings 【Non-stick / Slip / Electrical insulation】 ■ Semiconductor industry ● Required functions of fluoropolymer coatings 【Non-stick / Arc / Purity】 ■ Medical and pharmaceutical fields ● Required functions of fluoropolymer coatings 【Non-stick / Slip / Corrosion resistance / Purity】 ■ Chemical industry ● Required functions of fluoropolymer coatings 【Non-stick / Corrosion resistance / Insulation】 ■ Food industry ● Required functions of fluoropolymer coatings 【Non-stick / Slip / Water repellency】 ■ General industrial sector ● Required functions of fluoropolymer coatings 【Non-stick / Slip / Release】 *For more details, please download the PDF or contact us.

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Electrostatic Prevention Fluororesin Coating 'Safron(R) AP+'

Thick film processing that can be used for applications requiring corrosion resistance is possible. It also accommodates cases where static electricity is a concern and fluororesin coatings cannot be used.

■What is SafeLon(R) AP+? SafeLon(R) AP+ is an anti-static fluoropolymer coating that further enhances the functions of Yoshida SKT's anti-static fluoropolymer coating, "SafeLon(R)." ■Features of SafeLon AP+ By enhancing three functions: "release performance," "anti-static performance," and "blister resistance," improvements in corrosion resistance, non-stick properties, and coating lifespan can be expected. 【Upgraded Functions from SafeLon】 - Release Performance Improved release performance by creating a smoother surface. - Anti-Static Performance Achieves a leakage resistance value of 10^4-5Ω by directly dissipating generated charges to the substrate (metal). - Blister Resistance Reduces blister formation to about half that of conventional fluoropolymer coatings. *For more details, please refer to the PDF document or feel free to contact us.

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What are the differences between fluoropolymer coatings: PTFE, PFA, and FEP?

We will introduce the differences between fluoropolymer PTFE, PFA, and FEP.

Differences in 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 excels in non-stick and low friction properties. ■ 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 firing. ■ Alternative Name 4F6F, Tetra-hexafluoride

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Fluororesin coating "Types suitable for applications"

What types of fluororesins are suitable for applications such as non-adhesiveness, slip properties, and corrosion resistance? It is necessary to consider the characteristics and properties of the resin, as well as the selection of processing methods.

**Representative Types** ■ PTFE (Polytetrafluoroethylene) It has the highest continuous use temperature of 260°C and excels in non-stick and low friction properties. ■ PFA (Perfluoroalkoxyalkane Polymer) It has a low melt viscosity and can achieve a continuous coating with fewer pinholes than PTFE. It is the best-performing fluororesin for high-temperature corrosion resistance. ■ FEP (Perfluoroethylene Propylene Copolymer) An improved resin of PTFE, it has a lower continuous use temperature than PTFE but can achieve a smooth coating with fewer pinholes through sintering. ■ ETFE (Ethylene-Tetrafluoroethylene Copolymer) Due to its excellent mechanical properties, it is highly resistant to wear and is often used for anti-corrosion applications. ■ Modified Types ◎ High-temperature modified type ◎ Low-temperature modified type **Representative Processing Methods** ○ The enamel of fluororesin is applied using a painting machine or manually. ○ Fluororesin powder is applied using electrostatic or special painting machines. Coating processing is easily adaptable to complex shapes and is used in numerous industries. *For more details, please download the PDF and take a look.*

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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.

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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.

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Fluororesin Coating: "What is a Coating with Excellent Corrosion Resistance?"

Fluororesin has excellent chemical resistance and is suitable for applications that require corrosion resistance and purity. The coating protects metals and prevents the leaching of metal ions.

◆Features of Fluororesin Coating with Excellent Corrosion Resistance◆ ■Chemical Resistance of Fluororesin Fluororesin is chemically stable, so it is not affected by most acids, alkalis, or other chemical agents, and ions do not dissolve and leak out. ■Pinhole-Free Coating Technology By applying a fluororesin coating without electrical pinholes to substrates with shapes that cannot be lined with sheets or rotationally molded, we protect against highly corrosive liquids and gases such as acids and alkalis, and prevent the leaching of metal ions from the substrate. ■Prevention of Liquid Penetration and Excellent Blister Resistance Compared to standard fluororesin coatings, our MY lining significantly reduces blister formation and offers a lifespan over ten times longer, with a maximum film thickness of up to 2000μm possible due to our unique processing technology (depending on substrate conditions). With this technology, we provide fluororesin coatings with excellent corrosion resistance. *For more details, please refer to the catalog or contact us directly.

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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

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Fluororesin coating: What is "corrosion resistance of thick film coating"?

Teflon fluoropolymer, used for corrosion-resistant lining to protect substrates from chemicals. This explains the corrosion resistance of thick fluoropolymer coatings.

■ What is "corrosion resistance"? "Corrosion resistance" refers to the property of being less prone to corrosion reactions and oxidation. In the field of corrosion prevention, which requires corrosion (anti-corrosion) properties, terms such as "light anti-corrosion" and "heavy anti-corrosion" may be used depending on the degree of corrosiveness. You can find detailed information in the PDF document below. ーーーーーーーーーーーーーーーーーーーーーーーーーーーーーーー 1. What is corrosion resistance? 2. How to prevent corrosion 3. Corrosion resistance of Teflon fluoropolymer coatings 4. Characteristics of Teflon fluoropolymer coatings for corrosion-resistant applications 4-1. No pinholes or defects in the coating film 4-2. Thickening of the coating film 5. What can be achieved by utilizing the corrosion resistance of Teflon fluoropolymer coatings ーーーーーーーーーーーーーーーーーーーーーーーーーーーーーーー * For more details, you can download the document or view it at the link below. ▼ "Protecting the substrate from chemicals!" Explanation of the corrosion resistance of Teflon fluoropolymer coatings ▼

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Fluororesin coating "Strong against thermal environments with composite technology with ceramics"

A coating technology that minimizes the decrease in film hardness even in high-temperature environments by combining fluororesin and ceramic!

CHC (Ceramic Hard Coat) is a new type of fluoropolymer coating that achieves both non-stick properties and high film hardness at elevated temperatures, comparable to standard fluoropolymer coatings. ■ Features - Non-stick properties equivalent to PTFE and PFA - High film hardness at temperatures above 200°C (compared to PTFE) * Based on internal testing ■ Applications - Resin welding plates - Resin molding molds - Heater plates * For detailed product information, please download the PDF or refer to the link below.

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Resin mold

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Fluorine resin coating×吉田ＳＫＴ - List of Manufacturers, Suppliers, Companies and Products

Fluorine resin coating Product List