Development of ultra-fine particle grade! High molecular polyethylene with even smaller particle diameter.

Can be added to inks and coatings for thin films, as well as thin film coatings, to improve lubricity, wear resistance, durability, and noise reduction. Can be used as a substitute for PTFE.

last updated Aug 19, 2024

Development of heat-resistant grade! Microparticles of ultra-high molecular weight polyethylene with improved heat resistance.

Conventional products deform when exposed to heat, which prevents them from demonstrating sufficient performance. We have developed a product that improves the weakness of heat resistance.

last updated Aug 19, 2024

PTFE substitute for micro-particle polyethylene powder used for improving the sliding properties of coatings, rubber, etc.

There are proven results for adoption as a PTFE substitute! Micron-sized ultra-high molecular weight polyethylene that imparts lubricity and wear resistance to coatings, rubber, engineering plastics, etc., as a sliding modification additive!

last updated Aug 13, 2024

Functional polyethylene for coatings, rubber, lubricants, and sintered filters.

Improves lubricity, wear resistance, durability, and quietness when added to rubber products, paints, and grease. It can also be used as a sintering material for resin-based porous filters.

last updated Aug 13, 2024

Proposing fine particle and ultra-high molecular weight polyethylene for the modification of the sliding properties of rubber coating films.

We propose the use of fine particles and ultra-high molecular weight polyethylene as additives for rubber coatings in automotive rubber parts, cameras, and office automation equipment to improve lubricity and enhance durability.

last updated Aug 13, 2024

Micronized polyethylene for modifying resin and metal coating films and for matte applications.

Proposed as an additive for surface coatings of plastics and metals to improve slip properties, durability, and for matte finishes. Excellent dispersibility allows for use in both solvent-based and water-based systems!

last updated Aug 13, 2024

Alternative to PTFE particles! Microparticle polyethylene powder for surface modification.

Improved surface slip resistance, scratch resistance, and wear resistance without using PTFE powder. Ultra-high molecular weight polyethylene with a spherical shape and narrow particle size distribution, excellent dispersibility.

last updated Jan 26, 2025

Improving the durability by suppressing the sliding and abrasion of rubber products! Microparticle polyethylene.

When added to industrial rubber components and medical rubber components, it improves sliding properties, suppresses abrasion, and enhances durability. It can also be used as a hardness adjusting agent.

last updated Aug 13, 2024

Ultra-high molecular weight polyethylene as the material for plastic sintered porous filters.

Polyethylene powder that enables delicate pore size control due to the characteristics of true spherical microparticles and narrow particle size distribution, allowing for the formation of high-quality sintered filters with high filtration capability.

last updated Aug 13, 2024

Ultra-high molecular weight polyethylene that realizes the modification of sliding properties of coatings and rubber, as well as sintered filters.

As a sliding modifier, it is added to rubber products, paints, and greases to improve durability and noise reduction. It can also be used as a raw material for high-performance porous various filter materials.

last updated Aug 13, 2024

Shall we start considering alternatives to fluorine (PTFE) particles?

Ultra-high molecular weight polyethylene with true spherical shape, excellent wear resistance and heat resistance. It can improve surface slip properties, scratch resistance, and wear resistance without using PTFE.

last updated Aug 13, 2024