EVA foam is a popular material for many things, including shoe materials, sports equipment, protective coverings, and bag linings, due to its smooth surface, chemical stability, and resistance to aging and ozone exposure. Its softness and flexibility further enhance its appeal in high-foam EVA sheets.
Talc powder plays a key role as a filler in EVA foam production, enhancing not only the material's processing efficiency but also its performance. Our specialized talc formulations provide the following advantages:
- By adding talc, manufacturers not only reduce production costs but also ensure a smoother melt flow during processing, leading to more efficient production.
- It speeds up the forming process while cutting energy consumption, all while enhancing the final product’s tensile strength, wear resistance, crack prevention, and impact resistance.
- Talc also improves melt strength, helping prevent bubble formation during the foaming process.
Our Advantages
- We offer customized talc solutions tailored to your specific material processing needs, including parameters like whiteness and particle size, ensuring that the product fits seamlessly into your manufacturing process
- With extensive experience in producing, customizing, and supplying talc for EVA shoe materials, our talc has been used by major global sports shoe brands, delivering consistent quality and performance
- Compared to traditional talc products, we provide more cost-effective and high-quality solutions, helping you significantly reduce production costs without compromising on performance
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Industrial Grade Talc
Our industrial-grade talcum powder is a filler powder commonly used in plastics, resins, paints, and ceramics. Featuring a whiteness range of 70-100% and particle sizes between 2.5μm and 15μm, this talc stands out for its excellent dispersibility. It’s widely applied in various industries such as rubber, composite materials, household appliances, automotive parts, and even honeycomb ceramics.
- SiO₂: 35% - 60%
- Whiteness: 70% - 100%
- Oil Absorption: 22% - 55%
- Loss on Ignition: 6% - 20%
- Particle Size (D50): 2.5μm - 15μm