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Achieving liquid drop-off properties that surpass fluoropolymer PFA: "Nano Process NCFPC"

Achieving liquid drop-off properties that surpass fluoropolymer PFA: "Nano Process NCFPC"

An ultra-thin fluoropolymer coating with excellent water and oil repellency that surpasses PFA fluoropolymer! We are currently offering a document summarizing the renewed series.

The "Nano Process NCFPC Series" features an ultra-thin film surface treatment that excels in liquid repellency for water and oil compared to fluoropolymer PFA coatings, improving liquid drainage and flow. It causes almost no dimensional changes and maintains optical properties, making it possible to process "precision parts" and in fields that require high dimensional and surface accuracy, where fluoropolymer coatings have previously been difficult. <Application Examples> - Improvement of liquid drainage for water and oil - Improvement of liquid flow for water and oil - Prevention of oil diffusion in bearing components - Prevention of oil transfer in lubrication parts - Dirt resistance for components and equipment, etc. On Ipros, we also have a video comparing liquid flow of aluminum plates, NCFPC, and fluoropolymer. Please take this opportunity to see the differences in liquid repellency. If you are interested in more details or are facing challenges with surface treatment in precision fields, please download the materials or contact us directly.

  • Other semiconductors

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Fluororesin "Explanation of Electrical Properties"

Fluororesin "Explanation of Electrical Properties"

Fluororesin is a plastic material that is difficult to conduct electricity and has excellent heat resistance and cold resistance.

■ What are the electrical properties of plastic materials? The electrical properties of plastics, including fluororesins, include "insulating properties," "dielectric properties," and "electrical resistance." Plastic materials generally exhibit the characteristic of not conducting electricity and retaining it. ■ What are the electrical properties of fluororesin (PTFE)? The electrical properties of plastics fundamentally derive from the polymer structure that composes them. Fluororesin (PTFE) is classified as a "non-polar polymer" due to the dense and symmetrical arrangement of atoms within its molecules, resulting in extremely low charge polarization, and exhibits the following electrical properties. ■ Insulating properties of fluororesin The volume resistivity and surface resistivity of fluororesin (PTFE) are very low, making it a material that is difficult to conduct electricity. The dielectric strength of fluororesin (PTFE, 3.2mm thick) is 19KV/mm. Among heat-resistant plastics known as super engineering plastics, it is equivalent to PEEK's 19KV/mm and superior to PPS's 15KV/mm. *For more details, please visit the official website via the link below or feel free to contact us.

  • Processing Contract

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PTFE Lubricity

PTFE Lubricity

What are the reasons for the excellent sliding properties of fluoropolymer? We will introduce the characteristics of fluoropolymer PTFE, focusing on its lubricity and low friction. *Downloadable materials available.

■Low Friction and Sliding Properties of Fluoropolymer (PTFE) Fluoropolymers have a low coefficient of friction and are used for solid lubrication. 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 the characteristic of extremely low polarity in their target 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 Fluoropolymer PTFE - The strong atomic bonds within PTFE molecules reduce the intermolecular forces with the contacting material. - Friction (sliding) causes PTFE molecules to adhere slightly to the counterpart material, resulting in sliding between PTFE molecules. - The surface of PTFE molecules has a smooth structure with minimal irregularities. - The orientation of PTFE molecules makes it easier to alleviate frictional resistance. For these reasons, fluoropolymer PTFE is considered to have excellent lubricating properties. For more details, please download the materials or contact us.

  • Other Auto Parts

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Fluororesin: "What are the differences in types of resins?"

Fluororesin: "What are the differences in types of resins?"

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

Types and Characteristics of Representative Fluororesins ■Resin Name PTFE (Polytetrafluoroethylene) ■Characteristics It has the highest continuous use temperature of 260°C, and is excellent in heat resistance, non-stick properties, and low friction characteristics. It has a high melt viscosity, making common molding methods for thermoplastic resins unsuitable. ■Also Known As Tetrafluoroethylene, 4F ■Resin Name PFA (Perfluoroalkoxyalkane Polymer) ■Characteristics An improved resin of PTFE, it has the same continuous use temperature of 260°C. It has a low thermal melt viscosity, allowing processing using molding methods for thermoplastic resins such as injection molding and extrusion. ■Resin Name FEP (Perfluoroethylene Propylene Copolymer) ■Characteristics An improved resin of PTFE, but with lower heat resistance than PTFE. Similar to PFA, it can be processed using molding methods for thermoplastic resins. ■Also Known As 4F6F, Tetrahexafluoride

  • Secondary Cells/Batteries

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Fluororesin: "Why is it not affected by chemicals?"

Fluororesin: "Why is it not affected by chemicals?"

Fluororesin is well-known as a plastic that is not affected by acids or alkalis. I will explain the principle of why it does not dissolve in solvents such as acids and alkalis.

■Chemical Resistance of Fluororesin Fluororesin has high chemical resistance and does not dissolve, swell, or react with most acids, alkalis, and organic solvents. ■Reasons for High Chemical Resistance A major reason for the excellent chemical resistance of fluororesin is its stable molecular structure. Fluororesin is a high molecular polymer with a linear molecular structure formed by the bonding of carbon atoms and fluorine atoms. The bond energy between carbon and fluorine atoms (C-F) is very strong among chemical bonds, and furthermore, the C-C bond sections between carbon atoms are tightly covered by fluorine atoms in a helical manner. Therefore, it remains inert when in contact with chemicals or solvents, and does not degrade or dissolve as a resin, which means it has excellent chemical resistance. ■Applications of Fluororesin's Chemical Resistance - Various gaskets - Packing materials - Piping and hoses - Storage tanks - Reaction vessels - Heat exchangers *For more details, please download the materials or refer to the link below.*

  • Surface treatment contract service

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What are the differences between fluororesin, PTFE, and ETFE?

What are the differences between fluororesin, PTFE, and ETFE?

[Presentation of Materials] We will introduce the differences in characteristics between fluororesin "PTFE" and "ETFE" resins and coatings.

This explains the differences in characteristics between the fluoropolymer "PTFE" and "ETFE." ■Resin Name PTFE (Polytetrafluoroethylene) ■Characteristics It is the first resin discovered and developed among fluoropolymers. It has a continuous use temperature of 260°C, excellent heat resistance, low friction properties, and non-stick characteristics. Although it has a high melting viscosity, making injection molding difficult, it is used as a coating for frying pans and hot plates. ■Resin Name ETFE (Ethylene Tetrafluoroethylene Copolymer) ■Characteristics Unlike perfluorinated fluoropolymers, ETFE contains hydrogen atoms (H) in its molecular structure. Therefore, its chemical resistance and heat resistance are lower compared to PTFE and FEP, with a continuous use temperature of 150°C compared to PTFE's 260°C. On the other hand, ETFE has high mechanical strength and can be processed at low melting points, making it suitable for applications requiring corrosion lining and wear resistance. *For more details, please click on "PDF Download" or feel free to contact us.*

  • Surface treatment contract service

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What is the difference between fluororubber, Teflon, and fluororesin?

What is the difference between fluororubber, Teflon, and fluororesin?

I will introduce the differences between fluororubber and Teflon fluororesin.

Fluoroelastomers have C-F bonds in their copolymer structure, providing excellent chemical resistance, oil resistance, and durability among rubbers. A representative example is FKM. On the other hand, fluoropolymers are plastics that contain fluorine atoms in their structure, such as PTFE, FEP, and PFA. ■Differences in Characteristics 【Fluoroelastomers】 (FKM) They exhibit excellent resistance to petroleum-based oils and fuels. They are durable against ultraviolet rays and atmospheric pollutants, making them suitable for outdoor use. Generally, they can be used at temperatures up to about 230°C. 【Fluoropolymers】 (PTFE) They demonstrate resistance to many substances, including acids, alkalis, solvents, fuels, and organic materials with a high oxygen index. Due to their very smooth and highly non-stick nature, other materials are less likely to adhere to them. This is widely known as the characteristic of PTFE (polytetrafluoroethylene), which is famous under the trademark name Teflon. Fluoropolymers have excellent resistance to high temperatures and can typically be used at temperatures up to 260°C. *By applying fluoropolymer processing to fluoroelastomers, the surface can gain the properties of fluoropolymers. For more details, please contact us.

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What are the differences between Teflon, fluororesin, PTFE, and PFA?

What are the differences between Teflon, fluororesin, PTFE, and PFA?

[Presentation of Materials] We will introduce the differences in features between Teflon fluoropolymer "PTFE" and "PFA" resins and coatings.

Differences in the characteristics of representative Teflon fluoropolymers "PTFE" and "PFA" ■ Resin Name PTFE (Polytetrafluoroethylene) ■ Characteristics This is the first fluororesin discovered and developed. It has a continuous use temperature of 260°C, excellent heat resistance, low friction properties, and non-stick characteristics. It has a high melt viscosity, making injection molding difficult, but it is used as a coating for frying pans and hot plates. ■ Resin Name PFA (Perfluoroalkoxyalkane Polymer) ■ Characteristics This is an improved resin of PTFE, with the same continuous use temperature of 260°C. It has a low thermal melt viscosity, allowing for molding such as injection molding. It can achieve a coating with fewer pinholes, which was not possible with PTFE, making it the fluororesin with the best performance for corrosion-resistant coating materials, including chemical resistance and heat resistance. Additionally, PFA is superior in non-stick properties for certain applications compared to PTFE, and it is also used as a coating material for release coatings, being processed for items like the inner pot of rice cookers. *For more details, please download the PDF and check.

  • Other semiconductor manufacturing equipment

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The pinnacle of plastic: What is fluororesin?

The pinnacle of plastic: What is fluororesin?

Among plastics, fluororesins possess rare characteristics. An explanation of the representative fluororesins "PTFE," "PFA," and "FEP."

What are the representative fluoropolymers with the highest characteristics of plastic? Here, we will explain three representative fluoropolymers. ■Resin Name PTFE (Polytetrafluoroethylene) ■Features It has the highest continuous use temperature of 260°C, and is excellent in heat resistance, non-stick properties, and low friction characteristics. ■Also Known As Tetrafluoroethylene, 4F ■Resin Name FEP (Perfluoroethylene Propylene Copolymer) ■Features This is a modified resin of PTFE, with a continuous use temperature of 200°C. It has a low thermal melt viscosity, allowing for molding through injection molding, which was not possible with PTFE. Its heat resistance temperature is lower than that of PTFE. ■Also Known As 4F6F, Tetrafluoro-hexafluoropropylene ■Resin Name PFA (Perfluoroalkoxy Alkane Polymer) ■Features This is a modified resin of PTFE that has the same heat resistance of 260°C as PTFE. It has a low melt viscosity, making injection molding possible, which was not feasible with PTFE. ▼For a detailed explanation about fluoropolymers, click the related link URL!▼

  • Secondary Cells/Batteries

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Plastic with excellent electrical properties, fluororesin (PTFE)

Plastic with excellent electrical properties, fluororesin (PTFE)

Fluororesin is an excellent plastic material with superior electrical properties.

■ What are the electrical properties of plastic materials? The electrical properties of plastics include "insulation," "dielectric," and "electrical resistance." ■ What are the electrical properties of fluoropolymer (PTFE)? Fluoropolymer (PTFE) is classified as a "non-polar polymer" due to the dense and symmetrical arrangement of atoms within its molecules, resulting in extremely low charge polarization, and exhibits the following electrical properties. ■ Insulation properties of the representative fluoropolymer, PTFE PTFE has very low volume resistivity and surface resistivity, making it a material that is difficult to conduct electricity. The dielectric strength of PTFE with a thickness of 3.2mm is 19KV/mm. The dielectric strength of PTFE is equivalent to that of PEEK at 19KV/mm and superior to that of PPS at 15KV/mm. *For more details, please visit the official website via the link below or feel free to contact us.

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Explanation of fluoropolymer, a plastic material strong against chemicals.

Explanation of fluoropolymer, a plastic material strong against chemicals.

Fluororesin, famous for being resistant to acids and alkalis. I will explain the principle of why it does not dissolve in solvents such as acids and alkalis.

■Is the chemical resistance of fluoropolymer high? Fluoropolymers have high chemical resistance and do not dissolve, swell, or react with most acids, alkalis, and organic solvents. ■Reasons for the high chemical resistance of fluoropolymers A major reason for the excellent chemical resistance of fluoropolymers is their stable molecular structure. Fluoropolymers are high molecular weight polymers with carbon atoms and fluorine atoms bonded in a linear chain structure. The bond energy between carbon and fluorine atoms (C-F) is very strong among chemical bonds, and furthermore, the C-C bond sections between carbon atoms are completely covered by fluorine atoms in a helical manner. Therefore, they remain inert when in contact with chemicals or solvents, and do not degrade or dissolve as a resin, which means they have excellent chemical resistance. ■Uses of fluoropolymers The chemical resistance of fluoropolymers is utilized in the chemical industry, semiconductor industry, and medical and pharmaceutical fields in products such as: - Various gaskets - Seals - Piping and hoses - Storage tanks - Reaction vessels - Heat exchangers *For more details, please download the materials or refer to the link below.

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High-slip lubricating plastic material: fluororesin.

High-slip lubricating plastic material: fluororesin.

What makes fluoropolymer, particularly PTFE, excellent in terms of sliding properties among plastics? We will introduce its characteristics, focusing on the lubricity and low friction of fluoropolymer PTFE.

■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 may evaporate or detach in a vacuum. For example, when sliding products, solid lubrication is helpful in situations where liquid lubricants may dirty the products. ■Low Friction and Sliding Properties of Fluororesin (PTFE) Fluororesin has a low coefficient of friction and is utilized for solid lubrication. 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 molecule has a very small polarity in its target 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 → Please check the basic information section for more details.

  • Other Auto Parts

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Fluororesin: "What is the non-stick property of fluororesin?"

Fluororesin: "What is the non-stick property of fluororesin?"

What is the characteristic of fluoropolymer known as "non-stick"? Let me introduce the non-stick function.

■What "Non-Stick Properties" of Fluoropolymer Means Non-stick properties refer to the characteristic of being easy to release and not adhere, or to adhere less, even to strongly adhesive substances. For example, fluoropolymers excel in water and oil repellency, have a large contact angle, and possess a molecular structure that makes them difficult to wet. The measure of wettability, known as "critical surface tension (γc)," is extremely low for fluoropolymers, making it easy for liquids to bead up and difficult for them to wet the surface. Coatings that utilize this functionality are effective for release applications, applications where adhesion needs to be minimized, and for simplifying cleaning. *For detailed information on non-stick properties, please download the PDF or contact us.*

  • Resin mold

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What is the difference between Teflon and fluoropolymer?

What is the difference between Teflon and fluoropolymer?

I will explain in detail the differences between Teflon and fluoropolymer, which are often confused.

■Difference Between Teflon and Fluoropolymer Teflon is a trademark of Chemours and is a brand name for fluoropolymers. Fluoropolymers include various types such as PTFE, FEP, PFA, and ETFE, but Teflon is a trademark for some of these. Teflon is a registered trademark of DuPont, represented by the 'R mark', while Chemours uses the 'TM mark'. Teflon-coated frying pans have popularized the term "Teflon coating" in society. Nowadays, the name Teflon is more well-known than the term fluoropolymer. Other chemical manufacturers also produce fluoropolymers, which are marketed under different product names. Industrial Teflon processing can be done at factories that have entered into licensing agreements with Chemours (DuPont). Yoshida SKT signed a contract with DuPont in January 1968 to become a Licensed Industrial Applicator (designated factory for industrial coatings).

  • Other semiconductor manufacturing equipment

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