PTFE Materials
PTFE (Teflon) possesses excellent resistance to high and low temperatures, chemical corrosion, low coefficient of friction, and non-stick properties, making it the base material for various Teflon composite materials. Fillers such as glass fiber, graphite, carbon fiber, and bronze powder can be added according to application requirements to improve wear resistance, mechanical strength, dimensional stability, and thermal conductivity.
Suitable for chemical equipment, semiconductor equipment, automated machinery, food machinery, electronic components, and various sealing elements. When equipment requires corrosion resistance, low friction, self-lubrication, or special performance enhancements, parts can be made from PTFE composite materials with different filler formulations.
Gaskets, bearings, sliders, seals, valve seats, guide rails, insulating parts, and various customized mechanical parts.
Hard Carbon Material
Hard carbon is a dense, high-hardness carbon-based material with excellent wear resistance, compressive strength, and low friction. It also possesses good dimensional stability and self-lubricating ability, maintaining stable operation under high load conditions and is not easily deformed or worn.
Suitable for high-load, high-pressure, and long-term sliding friction working environments, especially in mechanisms requiring reduced wear and extended service life. Commonly used in dry or insufficiently lubricated conditions.
Sliding bearings, guide rail liners, piston rings, compressor parts, pump seals, and various high-wear-resistant mechanical sliding components.
Soft Carbon Material
Soft carbon has good self-lubricating properties and smooth contact characteristics, with a low coefficient of friction, effectively reducing wear and noise during operation. Compared to hard carbon, its texture is more cushioning, gentler on mating surfaces, reducing seizing and abnormal wear, and contributing to improved operational smoothness and lifespan.
Suitable for mechanisms requiring low friction, low noise, and smooth sliding, especially in low to medium load applications where smooth movement is required. Suitable for equipment operating continuously for extended periods and where reduced maintenance frequency is desired.
Bearings, sliders, guides, sealing rings, and various low-noise sliding mechanisms; effectively extends component lifespan and improves operational stability.
Graphite Material
Graphite possesses excellent solid lubricity, electrical conductivity, and high-temperature resistance, effectively reducing the coefficient of friction and providing a stable self-lubricating effect. It also has good antistatic properties, preventing equipment interference or damage caused by static electricity accumulation.
Suitable for working environments requiring low friction, antistatic properties, or high electrical conductivity, especially in mechanisms that need stable operation under high-speed operation or dry lubrication conditions.
Sliding mechanisms in bearings, sliders, seals, conductive parts, and electronic and automation equipment can improve stability and extend service life.
Glass Fiber Material
Glass fiber possesses high strength, high rigidity, and good dimensional stability, effectively improving the compressive strength and deformation resistance of the substrate, while also enhancing wear resistance. It maintains a stable structure and is not easily deformed under high loads and prolonged stress.
Suitable for mechanical parts requiring high strength, high pressure resistance, and high wear resistance, especially in environments with concentrated stress or long-term pressure, significantly improving service life and stability.
Valve seats, sealing rings, pump parts, pressure gaskets, and various high-strength mechanical structural parts.
Carbon Fiber Material
Carbon fiber possesses high rigidity, high strength, and lightweight properties, while also exhibiting good dimensional stability and fatigue resistance. It maintains structural stability and is not easily deformed even under repeated stress or high loads.
Suitable for industrial equipment or mechanical structures that require both high strength and weight reduction, especially in high-speed operating or moving parts, where it can effectively reduce inertia and improve overall efficiency.
Mechanical supports, sliding parts, transmission components, structural parts for aerospace and automation equipment, and industrial components requiring high rigidity and lightweight.
Copper Powder Material
Copper powder possesses excellent thermal and electrical conductivity, effectively improving the heat dissipation capacity of materials. In composite materials, it also enhances wear resistance and compressive strength, ensuring stable operation of parts under high temperature and high friction conditions.
Suitable for environments requiring good heat dissipation or prolonged high-friction operation, especially in high-temperature, heavy-load, or heat-concentrated areas, effectively reducing temperature rise and extending service life.
Heat exchange components, sliding bearings, heat-conducting parts, seals, and wear-resistant components in various high-temperature industrial equipment.
Galvanized Iron Material
Galvanized iron possesses high strength, good corrosion resistance and oxidation resistance, and can maintain stable performance in humid, acidic, alkaline, or high-temperature environments. It is not prone to rusting or deterioration, and also has good mechanical strength and durability.
Suitable for chemical industries, marine environments, or working conditions with high humidity and strong corrosive media, especially for equipment parts requiring long-term stable operation and low maintenance frequency.
Valve components, pump parts, fasteners, bearings, structural supports, and various corrosion-resistant industrial equipment components.
TFM Material
TFM is a high-purity modified PTFE with a more compact and uniform molecular structure. It possesses better chemical resistance, low permeability, and surface smoothness than ordinary PTFE, while maintaining low friction and non-stick properties. It also exhibits good dimensional stability after processing.
Suitable for environments with extremely high requirements for cleanliness, material purity, and chemical stability, especially in situations where contamination, leakage, or material reactions must be avoided, such as in food, medical, and high-end chemical processing equipment.
Food-grade seals, medical device parts, pump and valve liners, chemical corrosion-resistant components, and high-purity fluid control system parts.
PEEK Material
PEEK possesses extremely high mechanical strength, rigidity, and wear resistance, while also exhibiting excellent high-temperature resistance (remaining stable even under high-temperature environments during long-term use). Furthermore, it also possesses good chemical resistance, fatigue resistance, and dimensional stability, making it one of the highest-grade engineering plastics.
Suitable for extreme or demanding working environments, such as equipment operating at high temperatures, high loads, high precision, or for extended periods of continuous operation. PEEK is often used as a high-performance alternative when metals are too heavy or PTFE materials lack sufficient strength.
Aerospace components, semiconductor equipment parts, medical implants and devices, precision mechanical sliding parts, gears, bearings, and structural components in high-temperature chemical environments.
Special Fluorine Materials
Special fluoropolymer materials are formulated based on PTFE or modified fluoropolymer resins. Colorants or functional fillers can be added as needed. While maintaining chemical resistance, temperature resistance, and low friction properties, they offer customizable colors and appearances, while also maintaining certain mechanical properties and stability.
Suitable for product designs requiring both functionality and visual distinctiveness, especially in high-end equipment or branded components, where color or appearance is needed to differentiate different specifications, functions, or systems.
High-end equipment housings, mechanical identification parts, decorative industrial components, customized equipment components, and engineering applications requiring color-coded management.
Contact Us
TEL: +886-7-3728580
FAX: +886-7-3728583
E-mail: sf.teflon@msa.hinet.net
Japanese Email: juliaapplew@gmail.com
Japan Sales : +886-921-367884
Factory Information
No. 40, Zhugong 3rd Ln., Renwu District,
Kaohsiung City, Taiwan
Shunfa Company Tax ID: 06721259
Shock Absorber Factory Tax ID: 25171521
Factory Registration No.: 99-663795-00
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