Zeolite Micronized
Zeolites are crystalline, aluminosilicate minerals with a porous structure. They have a wide range of applications due to their unique properties, including in the field of polymers. Here are several ways zeolites can be used in polymers: Fillers and Reinforcements Zeolites can be used as fillers or reinforcing agents in polymer composites to improve mechanical […]
Trisodium Phosphate ( Micronized)
Micronized trisodium phosphate (TSP) can be utilized in polymer applications for various purposes, offering several advantages due to its chemical properties. Here are some potential uses of micronized trisodium phosphate in polymers: Flame Retardancy Trisodium phosphate can function as a flame retardant in polymers. It releases water vapor when exposed to high temperatures, which helps […]
Trimagnesium Phosphate Micronized
Micronized trimagnesium phosphate (TMP) can serve various purposes in polymer applications, offering several benefits due to its chemical and physical properties. Here’s how micronized trimagnesium phosphate can be used in polymers: Flame Retardancy Micronized trimagnesium phosphate can act as a flame retardant in polymers. It can release water vapor and inhibit the generation of flammable […]
Talc (Micronized Magnesium Silicate) Micronized
Micronized magnesium silicate, also known as talc, finds various applications in the polymer industry due to its unique properties. Here are some common uses: Reinforcement Agent Micronized magnesium silicate can be used as a reinforcing filler in polymer composites to improve mechanical properties such as stiffness, strength, and dimensional stability. It enhances the modulus and […]
Talc (Micronized) Uses And Applications
Talc is a mineral that is commonly used as an inert carrier in various industries due to its physical and chemical properties. As an inert carrier, talc serves as a non-reactive medium or support for other substances without actively participating in chemical reactions. Here are a few examples of how talc is used in this […]
Talc (Surface-Modified)
Surface-modified talc refers to talc particles that have been chemically treated or modified to improve their compatibility with polymer matrices and enhance their performance in composite materials. Surface modification alters the chemical composition and surface characteristics of talc particles, often through the introduction of organic functional groups or coatings. Here are some common methods used […]
Talc (Magnesium Silicate) Micronized
TALC CAS Number : 14807-96-6 Chemical Formula : Mg3Si4O10(OH)2 Theoretically chemical composition of Pure talc by weight is 19.2% magnesium, 29.6% silicon, 50.7% oxygen and 0.5% hydrogen. In terms of metal oxides 31.7% MgO and 63.5% SiO2 with remaining 4.8% being H2O. Other elements found in talc are impurities such as Ca, Al, Fe […]
Talc (Micronized) As Filler In Pp Pipes
Talc is one of the most useful mineral fillers which are compatible with the polypropylene (PP). Talc filled PP is used to produce water pipes. Different types of Pipes are Cold & Hot Water Pipes Drinking Water Pipes, Pressurised Water Pipes, Sewage Water Pipes. Talc increases rigidity, creep strength and impact resistance (particularly at low […]
Sodium Metasilicate Micronized
Micronized sodium metasilicate, also known as microfine sodium metasilicate or micronized water glass, is a finely powdered form of sodium metasilicate (Na2SiO3). In polymer applications, micronized sodium metasilicate can serve several purposes: Alkaline pH Adjustment Sodium metasilicate is an alkaline compound and can be used to adjust the pH of polymer solutions or emulsions. Controlling […]
Sodium Metasilicate Micronized As Transparent Filler For Polymer Films
Micronized sodium metasilicate can indeed be used as a filler in transparent films for various applications. Here are several ways it can be utilized: Reinforcement Micronized sodium metasilicate can serve as a reinforcing filler in transparent films, improving mechanical properties such as tensile strength, modulus, and tear resistance. Its fine particle size and high aspect […]