PVC is widely used in various industries, including construction, healthcare, electronics, automotive, and more. In the construction sector, it is commonly used to manufacture window and door profiles, pipes, insulation materials, and soundproofing materials. In healthcare, PVC is widely applied in medical devices such as intravenous tubes, gloves, and protective clothing. In the electronics and automotive industries, it is used to produce cables, insulating materials, and automotive interior parts.
Additionally, PVC is utilized in fields like aerospace, packaging, and daily consumer goods. Through different production processes, such as extrusion, injection molding, and blow molding, PVC can be transformed into various forms, including granules, films, sheets, tubes, shoes, and composite materials. With its versatility and adaptability, PVC has become an essential material in modern industries, providing diverse solutions for different sectors.
PVC resin - SG3 K-Value 72-71, Average degree of polymerization 1350-1250
PVC resin - SG4 K-Value 70-69, Average degree of polymerization 1250-1150
PVC resin - SG5 K-Value 68-66, Average degree of polymerization 1100-1000
PVC resin - SG6 K-Value 65-63, Average degree of polymerization 950-850
PVC resin - SG7 K-Value 62-60, Average degree of polymerization 850-750
PVC resin - SG8 K-Value 59-55, Average degree of polymerization 750-650
SG-3 is suitable for cable and wires, films, high-grade artificial leather, etc.
SG-5 is suitable for the processing of hard products such as profiled materials, pipes and hard
plates.It can also be applied to film, leather cloth, plastic sandals, soles, and various soft products.
SG-7 is suitable for the processing of transparent sheet, packaging, foam board and other products.
SG-8 is suitable for packaging transparent sheets, plates, elbows of high-strength pipe fittings
and other products.
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