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PVC
Polyethylene waxes exhibit intricate molecular configurations, encompassing carbon, hydrogen, and oxygen constituents whose structures are contingent upon the chosen synthesis methodology.
These waxes, distinguished by their complexity, manifest diverse performance profiles. Oxidized polyethylene waxes are recognized for their capability to augment fusion and moderate melt temperatures. Conversely, non-oxidized variants, characterized by near-zero acid numbers, exhibit a propensity to impede fusion and may exude during the melting process, potentially coating machinery surfaces.
In their molten state, each polyethylene wax variant assumes a transparent and luminous composition.These waxes serve as fundamental constituents in the formulation of lubricant systems.
TEXTILES
When incorporating oxidized polyethylene waxes into emulsions for fibers or textiles, a sophisticated enhancement in sewing lubrication is achieved. These emulsions exhibit a high efficacy in mitigating needle cutting, thereby significantly extending the operational lifespan of the needle, particularly when applied to dense fabrics.
Moreover, polyethylene-based emulsions not only amplify fabric robustness but also bolster resistance against abrasion, ensuring increased durability. The diverse grades of oxidized polyethylene polymers and copolymers play a pivotal role as constituents in textile softeners, notably in the formulation of napping softeners tailored for the production of elevated pile fabrics.
Polyethylene Waxes
