coating Product List and Ranking from 567 Manufacturers, Suppliers and Companies

Last Updated：Nov 19, 2025 Aggregation Period:Oct 22, 2025～Nov 18, 2025
This ranking is based on the number of page views on our site.

coating Manufacturer, Suppliers and Company Rankings

Last Updated：Nov 19, 2025 Aggregation Period:Oct 22, 2025～Nov 18, 2025
This ranking is based on the number of page views on our site.

吉田ＳＫＴ Aichi//Manufacturing and processing contract
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大阪ガスケミカル株式会社　奈良表面加工センター Nara//Other manufacturing
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5 シャイン工芸 Nara//Manufacturing and processing contract

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coating Product ranking

Last Updated：Nov 19, 2025 Aggregation Period:Oct 22, 2025～Nov 18, 2025
This ranking is based on the number of page views on our site.

High-performance ceramic coating "CS Ceramic Coat"
Advantages and disadvantages of re-coating a non-stick frying pan. 吉田ＳＫＴ
Causes of Teflon coating peeling and how to address them. 吉田ＳＫＴ
4 Diamond-like carbon (DLC) coating process 栗田製作所本社・京都事業部
5 Fluororesin Coating: "Differences in Color and Selection Method" 吉田ＳＫＴ

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Presentation of Case Studies on Surface Treatment: Tips for Improving Production Process Troubles.

Packed with hints for improving manufacturing using surface treatment! Solve issues such as product release failures and adhesion to jigs! The mechanisms of adhesion are also explained.

Troubles such as the following can occur at any time on the production line: ■ Line stoppage ■ Delay in takt time ■ Increase in defects ■ etc... While prompt responses and identifying the causes are important when such issues arise, learning preventive measures in advance can help avert emergencies. Our company, which specializes in a wide range of surface treatments including functional coatings, is offering a comprehensive guide titled "Tips for Utilizing Surface Treatments (Release Properties)" that details how to resolve production line troubles. Additionally, we are also providing a separate booklet titled "Case Studies on Process Improvement" that showcases actual improvements made in production processes through the application of surface treatments for "release properties and slip properties." *For more details, please check the leaflet from the "Download" section!

Company：吉田ＳＫＴ
Price：Other

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[Surface Treatment Case] Surface treatment that streamlines the manufacturing process of lithium-ion batteries.

Prevention of adhesion of adhesive tape used in lithium-ion battery manufacturing. Achieving both extended maintenance periods and prevention of line stoppages with surface treatment suitable for cutting tools.

We would like to introduce a case study on the improvement of cutting equipment for insulation tape used in the manufacturing of lithium-ion batteries. ■ Key Issues - Problems arose when adhesive material adhered to the cutting blade, causing the line to stop. - The blade type is a shear type with two blades, similar to scissors. - To prevent line stoppages, frequent cleaning was required, which decreased production efficiency. ■ Selection Process - We wanted to perform surface treatment using commercially available blades. - It was necessary to select a surface treatment that does not change the cutting performance. - A long-lasting surface treatment was needed to prevent line stoppages and reduce cleaning frequency. ■ Effects of Coating - It was possible to strip the original surface treatment of commercially available blades for processing. - Adhesive adhesion was eliminated, reducing the labor required for cleaning. - Preventing line stoppages and the need for line stoppages for cleaning became unnecessary. Non-stick coating on blades contributes to improved productivity, cost reduction, and enhanced safety. We also have a collection of case studies and trial sets for improvements in the cutting process. ▽ Click here to apply for the collection of cutting process improvement case studies and trial sets ▽

Company：吉田ＳＫＴ
Price：Other

Processing Contract

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Surface treatment case: Surface treatment to prevent adhesion of fluororubber.

For preventing sticking of rubber products! Alloy-based non-stick coating that provides non-adhesive properties.

We would like to introduce a case of surface treatment that prevents the sticking of fluorine rubber and improves product productivity. ■Problem In the process of punching and cutting fluorine rubber sheets, the sheets were fixed with a pressing plate to prevent them from shifting during punching. However, the rubber sheets would stick to the pressing plate, causing the sheets to shift, wrinkle, and resulting in trouble with maintaining their fixed position. ■Background The customer was using a coating with a textured surface from another company on the pressing plate, but it was not sufficiently preventing adhesion, and the issues with rubber sticking persisted, leading them to consult us. ■Adopted Coating Super Alloy Coating ■Adoption Process and Effects At Yoshida SKT, we prepared test pieces and had the customer try out the adhesion of the actual rubber sheets. By adopting the Super Alloy Coating, we were able to effectively prevent the sticking of the rubber, making positioning smoother and improving production efficiency. *For more details, please visit the official Yoshida SKT website or contact us.

Company：吉田ＳＫＴ
Price：Other

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Introduction of the development product: Thin film fluororesin coating 10under.

This is a groundbreaking fluororesin coating that has made it possible to process thin films with a thickness of 10 μm, which was previously considered difficult to process.

■Development Background of Thin Film Fluororesin Coating "10under" Fluororesin coatings are sometimes requested to be processed in thin films of around 10μm when dimensional stability of the substrate is a priority. However, in the case of standard fluororesin coatings, a thickness of at least 20-50μm has been required to maintain good appearance and performance. Even so, when requests for thin film processing arise, we sometimes propose a "modified type" of fluororesin coating with a different coating structure. However, there were challenges with the modified type not being able to deliver the necessary functions. Yoshida SKT has worked on development to solve these challenges, resulting in the creation of the "Thin Film Fluororesin Coating '10under.'" ■Features of 10under - Non-stick properties equivalent to standard fluororesin coatings - Capable of processing thin films of around 10μm, reducing dimensional changes - While being a thin film, it suppresses transparency *For more details, please download the materials or contact us.*

Company：吉田ＳＫＴ
Price：Other

Surface treatment contract service

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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.

Company：吉田ＳＫＴ
Price：Other

Secondary Cells/Batteries

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Case study of mold release for molten metal: Coating that solved polypropylene stringing.

Reduce thread pulling during thermal welding of PP with surface treatment technology! Achieve long mold life!

■Consultation In our customer's process of thermally welding polypropylene products, issues such as thread pulling and adhesion to the welding mold have arisen. The welding mold required not only release properties but also heat resistance and thermal durability. ■Background and Effects of Surface Treatment Selection Our company considered a hybrid approach of ceramic-based CHC and fluororesin-based low contact area coatings to enhance release effects and prolong the lifespan of mold exchanges. We proposed "CHC-1311," which balances thermal hardness and reduced contact area. Currently, our customers are using it to achieve both release properties and long lifespan. If you are having trouble with the release properties of welding molds, please consult Yoshida SKT.

Company：吉田ＳＫＴ
Price：Other

Resin mold

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List of plastic materials, types, and characteristics.

We will introduce the types and characteristics of representative thermoplastic plastics.

Thermoplastic plastics are plastics that become soft when heated. Once softened, they can harden again upon cooling, which makes them excellent for processing such as molding. ■ Types and characteristics of thermoplastic plastics - Polyethylene (PE): The most widely produced plastic, used in items like shopping bags and food containers. - Polypropylene (PP): More heat-resistant than polyethylene, used in films and cases. - Polyvinyl chloride (PVC): Flame-resistant and durable, used in pipes and electrical wire coatings. - Fluororesin (PTFE): Excellent heat resistance, non-stick properties, and low friction characteristics. For more detailed information, please check the related link: "What are the differences between plastics, resins, and polymers? An explanation of the types of plastics and their advantages and disadvantages."

Company：吉田ＳＫＴ
Price：Other

Secondary Cells/Batteries

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What is "STP-HS"? An explanation of Yoshida SKT's coating.

Yoshida SKT's coating "STP-HS" is a revolutionary type of fluororesin coating that reduces the contact area.

There are various types of resin for fluoropolymer coatings depending on the application environment. At Yoshida SKT, we specify materials and processing according to the product number. "STP-HS" is a type of fluoropolymer coating designed to reduce contact area and is one of the "Super TP Coating Hemisphere Graphics." Super TP Coating uniquely forms a convex surface using only fluoropolymer, characterized by excellent release properties and slip resistance against adhesives. For more details, please download the materials or contact us.

Company：吉田ＳＫＴ
Price：Other

Secondary Cells/Batteries

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What is "TP-753"? An explanation of Yoshida SKT's coating.

TP-753" is Yoshida SKT's "contact area reduction type fluororesin coating.

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. "TP-753" is a type of fluoropolymer coating designed to reduce contact area, and is one of the "TP Coatings." TP Coatings are characterized by their ability to form a unique convex surface solely from fluoropolymer, offering excellent release properties and slip resistance against adhesive materials. For more details, please download the materials or contact us.

Company：吉田ＳＫＴ
Price：Other

Secondary Cells/Batteries

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List of Mold Release Coatings - Surface Treatments Excellent in Release Properties and Prevention of Eye Goo

When you want to reduce adhesion for mold release applications, it is effective in simplifying mold cleaning and stabilizing product quality!

In mold forming, to stabilize product quality, it is important to improve release properties and prevent mold contamination. Measures such as PVD coating, DLC coating, and chrome plating are being implemented, but depending on the molding conditions, issues can arise where parts of the product stick, or eye residue becomes a cause of product defects. We would like to introduce coatings that have a proven track record of improving the release properties of molds. 【Selected Coatings (Partial)】 ■ Release properties, high hardness, dimensional stability (durable parts, molds) - Bi-Coat ■ Release properties, eye residue prevention - MRS Coating ■ Resin release at high temperatures - FSR Coating ■ Non-stick and slip properties - Teflon / Fluororesin Coating ■ Release properties, precision (precision parts, precision molds) - Nano Process *For more details, please refer to the PDF document or feel free to contact us.

Company：吉田ＳＫＴ
Price：Other

Processing Contract

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What is a method to reduce the release resistance of the ejector pin? Countermeasures through surface treatment.

Solve ejector pin troubles with surface treatment technology! Easy demolding even with soft resins that are less likely to stick.

■What is an ejector pin? Also known as a push-out pin, it is a pin incorporated into a mold to push out and remove molded products from the mold. Ejector pins are used in most injection molding molds and come in various shapes, materials, and sizes. It is important to choose the appropriate pin for demolding based on combinations of shapes such as round pins, square pins, and middle flange pins, as well as materials like SKD-61 and SKH-51. ■Methods to reduce the demolding resistance of ejector pins To reduce the demolding resistance of ejector pins, methods include mold design, pin arrangement and shape selection, and reviewing molding conditions. However, in cases of materials that tend to stick or soft resins, sticking can lead to demolding failures. In such cases, it is necessary to consider utilizing surface treatment technologies. ■Surface treatments to improve the demoldability of ejector pins Ejector pins need to protrude from the mold, so they require not only demoldability but also wear resistance and dimensional stability. Yoshida SKT's Bicoat has a proven track record of achieving smooth demolding when applied to ejector pins. For more details on Bicoat, please download the catalog and check.

Company：吉田ＳＫＴ
Price：Other

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Advantages and disadvantages of re-coating a non-stick frying pan.

A professional introduces the advantages and disadvantages of reprocessing the non-stick coating and Teflon coating of household frying pans.

When using a household frying pan for a long time, the fluoropolymer coating may peel off or wear down, leading to sticking issues. The fluoropolymer coating can be removed and reprocessed. However, household frying pans are not designed with reprocessing in mind, which brings both advantages and disadvantages. ■ Advantages - The coating of a beloved cooking tool is renewed, restoring the non-stick properties and ease of maintenance similar to that of a new product. - There is no need to buy new equipment, and disposing of the old frying pan is not a problem. ■ Disadvantages - Reprocessing requires high-temperature heat treatment (over 400°C), necessitating the removal of handles made of resin or plastic. (If they cannot be removed, reprocessing is generally not possible.) - A frying pan that has been used for a long time may have corrosion on the metal parts, and even if the coating is reprocessed, it may not return to a like-new condition. - Especially in cases where the metal thickness is thin, reprocessing may cause distortion and deformation. - There may be adverse effects on the exterior, resulting in a poor appearance. As such, reprocessing has many disadvantages as well as advantages, so caution is necessary when it comes to household cooking utensils.

Company：吉田ＳＫＴ
Price：Other

Surface treatment contract service

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Proposal for PFAS regulations on fluoropolymer coatings.

Explanation of the impact of the EU's PFAS regulation proposal on fluoropolymer coatings.

Fluoropolymer coatings are used in numerous industries, including: - Automotive parts - Semiconductor - Aerospace - Chemical industry - Medical and pharmaceutical - Food industry, among others Currently, a regulatory proposal is being considered within the EU to minimize the emissions of PFAS. ■ Target of the regulatory proposal Fluorine-based surface treatment agents: water and oil repellents, release agents, fluoropolymer-containing plating, etc. Coating materials: PTFE, PFA, FEP, ETFE, and other fluoropolymers (for applications such as corrosion-resistant lining, non-stick, lubrication, etc.) Molded and processed products: PTFE, PFA, FEP, ETFE, and other fluoropolymers (lining sheets, fabric sheets, etc.) Fluorine-based surfactants, fluorine-based oils, low molecular weight PTFE, fluorine-based molding aids, etc. The current regulatory proposal includes fluoropolymers, which are considered extremely stable and pose no toxicological or environmental concerns, and there is a possibility that fluoropolymer coatings may also be subject to regulation. For more details, please check our website through the related link to download the materials.

Company：吉田ＳＫＴ
Price：Other

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PFAS-free corrosion-resistant coating "Cerashield"

PFAS-free corrosion-resistant coating! It can be used for corrosion prevention and permeation prevention against gases and chemicals.

The organic-inorganic oxyalkylene oligomer coating system "Cerashield" is a corrosion-resistant coating material that reduces the frequency of updates for industrial equipment such as tanks by preventing corrosion and permeation. It is a hardening type paint with excellent corrosion prevention effects, forming a coating film with high crosslink density. Additionally, it can be applied to a wide range of substrates including metals, plastics, wood, concrete, and ceramics, demonstrating excellent adhesion. There are two types available: the room temperature curing type "Cerashield CST-1108" and the heat curing type "Cerashield CST-1508." 【Features】 ■ Reliable corrosion resistance ■ All-around chemical resistance (heat curing type) ■ Room temperature processing available (room temperature curing type) ■ Excellent hardness ■ Electrical insulation ■ Advantageous for aftercare *For more details, please refer to the PDF document or feel free to contact us. For coatings considering the use of PFAS, please contact our company.

Company：吉田ＳＫＴ
Price：Other

Coating Agent

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Surface treatment examples: Precision and release surface treatment applicable to polyester mesh.

We will introduce examples of release surface treatments that can be processed using fixtures made of polyester mesh.

We received an inquiry from a customer whose business is designing automatic machines regarding measures to prevent adhesive from sticking out from laminated films. ■Inquiry Details In a lamination device for films used in automotive parts, the adhesive that protrudes was sticking to the positioning jig, hindering automation. ■Background for Selection To prevent adhesive from sticking, surface treatment of the jig was considered, but due to the use of polyester mesh for the jig, "low-temperature processability" and "precision" became necessary. ■Coating Adopted 'Nano Process TLS-200' ■Adoption Background and Effects We proposed a nano process that combines precision of about 1μm, low-temperature processability below 100°C, and excellent adhesion prevention. The adhesion of the adhesive material was eliminated, allowing products that pass the user's quality inspection to be produced by the automatic machine. *For more details, please refer to the materials or contact us directly.

Company：吉田ＳＫＴ
Price：Other

Surface treatment contract service

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