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Three fundamental stages are used in the manufacture of MFCs. The first step involves melting together two immiscible polymers that have significantly different melting points. In the second stage, the extruded filament is hot or cold drawn, which results in the development of microfibers in both blend components.
The final step is to create a specimen by isotropizing (injection or compression moulding) at a temperature between the melting points of the two components. Due to the lower melting temperature component melting as a result, an isotropic and relaxed MFC matrix is created.
The reinforcing phase is simultaneously formed from the microfibers of the higher melting-point component, which keep their molecular orientation and shape (without major modifications).
The Global Polyhydroxy polyolefin oligomer market accounted for $XX Billion in 2021 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2022 to 2030.
A polyhydroxy polyolefin oligomer called POLYTAIL was created using a unique catalyst method. Its terminal hydroxyl (-OH) group and polyolefin skeleton are both present. POLYTAIL ads adhesion, flexibility, lubrication, and dispersive qualities to polyolefin elastomers like EPDM, etc.
POLYTAIL has a hydroxyl group (-OH) at the end and a polyolefin oligomer structure in the main chain.
When used with polyolefin elastomers like EPDM, it works well.
One can add substances to polyolefin resin or rubber to give them qualities like adhesion, pliability, lubricity, dispersibility, etc.
The terminal hydroxyl group can be used in a variety of processes to create different polymers and denaturate existing ones.