1. Description of anti slip masterbatch
Shoe Anti-slip masterbatch is a material developed by our company for shoe anti-slip, which is mainly used in the field of shoe materials with soft rubber as the base material, and improves the effect of high friction coefficient of shoe materials in contact with the ground, and enhances the optimization of safety performance and functionality, as well as some other products to increase the coefficient of friction.
2. Data of anti slip masterbatch series
Класс | Внешний вид | Перевозчик | Дозировка | Область применения |
DX106 | Translucent пеллеты | полимерный коллоид | 0.5-5.0 | ПЕЕВА |
DX108 | Трanslucent | полимерный коллоид | 0.5-5.0 | ПЕЕВА |
3. Performance of anti slip masterbatch series
1.High-temperature stability using anti slip masterbatch
The high-temperature stability of shoe materials is influenced by various factors such as their material properties, manufacturing processes, and the use of additives. For example, some synthetic materials such as plastic and rubber may soften, deform, or produce harmful substances at high temperatures, while some natural materials such as leather and fabric may have good high-temperature stability.
In addition, the use of manufacturing processes and additives can also have an impact on the high-temperature stability of shoe materials.
2.Environmentally friendly, easy to process using anti slip masterbatch
The environmental friendliness of materials has been increasingly valued in recent years, and with the increasing awareness of health and environmental protection among consumers, the requirements for shoe materials are also increasing. Environmentally friendly shoe materials not only help reduce environmental pollution, but also promote effective resource recycling.
3.No precipitation, low dosage using anti slip masterbatch
4. Application of anti slip masterbatch series.
1. High-performance shoe materials
2. Electrical sheaths
3. Soft rubber modification
5. Description of Shoe material high elasticity TPE materials
High elasticity TPE shoe material as the same with anti slip masterbatch, which is our company launched to olefin elastomer-based polymer materials, mainly used for high elasticity foaming shoe system materials, play a role in enhancing the role of high elasticity, improve production efficiency and product stability and yield, low compression, high rebound, foam uniformity, good fit, etc.
6. Data of Shoe material high elasticity TPE materials
Класс | Внешний вид | Перевозчик | Дозировка | Область применения |
GT4500 | Translucent | Oлефин | 15-30 | EVA、TPE |
GT5000 | Натуральные гранулы | Oлефин | 15-30 | EVA、TPE |
GT8500 | Translucent пеллеты | Oлефин | 20-70 | EVA、TPE |
GT8510 | Прозрачные гранулы | Oлефин | 20-70 | EVA、TPE |
7. Performance of Shoe material high elasticity TPE materials
1. Short compounding time, high efficiency
2. Environmentally friendly, high strength, high elasticity
3. Temperature resistance, low shrinkage
8. Promise from us
Xiamen Xiangxi New Material is a high-tech enterprise specializing in R&D, production, sales and service of organosilicon derivatives. The company has a number of senior experts in the field of organosilicon to provide personalized solutions and potential applications for customers with different needs.
Anti slip masterbatch uesd high molecular weight siloxane, it does not precipitate, and is proportioned by automatic measuring equipment. It is extruded and cut into particles through twin-screw extrusion to ensure uniform product standards and avoid errors caused by manual measurement.
The standardization of testing is achieved by conducting incoming raw material testing, sampling testing during production, and testing every ton of finished products to ensure that each ton of product is qualified. The product is halogen-free and non-toxic, and has passed various environmental certifications such as SGS, ROHS, REACH, PAHS, etc.
New technologies improve product stability and productivity, and increase product competitiveness. In the field of r & d, we use the concepts of physical compounding and chemical polymer bonding to achieve a high dispersion of incompatible systems, laying the foundation for polymer manufacturers to produce and use their products.