Kane Ace™ MX is Kaneka’s novel coreshell rubber (CSR) toughening system for thermo set resins. It is a predispersed CSR Masterbatch which enhances the physical properties of the resins through optimal dispersion of core-shell particles. The revolutionary liquid impact modifiers of Kane Ace™ MX achieve highly improved strength, improved fracture toughness and endurance without losing the heat resistant characteristics of thermoset resins. The liquid nature guarantees an easy handling and mixing into your system, which will save you time and reduces the production cost.
Belgium
Kaneka liquid polymers are widely recognized as the premium choice of base resins for producing sealants, adhesives, and coatings. Their unique properties enable KANEKA MS POLYMER™, KANEKA SILYL™, and KANEKA XMAP™ based products to deliver outstanding performance for a wide variety of markets, including construction, industrial, transportation, flooring, waterproofing, DIY, and specialty markets. Kaneka’s continuous pursuit of innovation is reflected in our broad product portfolio covering various applications.
Request for a quoteBelgium
Kaneka has positioned four business domains to implement its research and business development strategy: Materials, Quality of Life, Health Care, and Nutrition. Within these domains, we further innovate our technologies, expand business models, and create new ones. We set the purpose of our research and business development activities from the perspective of markets and customers.
Request for a quoteBelgium
The cyclic lipopeptide structure, consisting of seven amino acids, contributes to unique, distinguishing properties. KANEKA Surfactin can create D-phase, emulsion, a bi-continuous phase that incorporates both oil and water, using a very low dosage (3 ppm). The D-phase KANEKA Surfactin can be used to formulate cleansing oil gel and small particle emulsion, and many other skincare and cosmetics products.
Request for a quoteBelgium
The sustainable innovation spirit of this material is indisputable. No matter where this material ends up, it will degrade into water, CO2, and biomass by the microorganisms available in nature. It allows producing innovative packaging, entirely in line with the circular economy, integrating the added value of compostability as end-of-life, and opens up new perspectives in waste management systems.
Request for a quote