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1. TPE Elastomer compounding modified material for 실리콘 마스터 배치 900
DX900 is a high molecular weight silicone masterbatch with composite carrier. DX900 is mainly used in each PA, PC, ABS material, and engineering plastics. It has better dispersibility and compatibility in plastics, while having less impact on material mechanical properties.
DX900 has better demolding performance and smoothness. It also contain the performance of lubrication, wear resistance, and scratch resistance.
2. TPE elastomer compounding
TPE elastomer compounding is the process of combining various materials and additives to form customised TPE elastomer compounding. This compounding process optimises the physical and mechanical properties of the resulting material to meet specific application requirements.
During the compounding process, various raw materials such as elastomers, plasticisers, stabilisers, fillers and reinforcing agents are mixed together. The selection of these components is critical to obtaining the desired properties such as elasticity, tensile strength, abrasion resistance and temperature resistance.
TPE elastomer compounds are produced for a variety of applications that offer unique performance advantages. These applications include automotive parts, gaskets and seals, belts and hoses, footwear, toys and many other products requiring flexibility, durability and ease of processing.
Compound TPE elastomers allow for a high degree of customisation, enabling manufacturers to create materials that meet specific performance requirements while optimising cost and processing efficiencies. This is an important step in the production of high-quality TPE products.
The mixing process usually consists of several steps:
Mixing: The raw materials are blended together in a mixer or extruder to ensure a uniform distribution of the components.
Melting: The mixture is heated to a temperature that is sufficient to melt the thermoplastic components and allow them to mix evenly.
Extrusion: The molten material is then extruded through a die to form the desired shape or contour.
Cooling: The extruded material is cooled to allow it to cure, thus locking in the desired properties.
Testing and Quality Control: The composite TPE is then tested to ensure that it meets the required performance criteria. This may involve mechanical testing, chemical resistance testing and other relevant tests.
