PA (polyamide, commonly known as nylon), POM (polyoxymethylene), POK (polyketone), and PPS (polyphenylene sulfide) are all high-performance engineering plastics with excellent properties such as high strength, wear resistance, and chemical corrosion resistance. Their sheets are widely used in electronics, automotive, machinery, and medical fields. Due to significant differences in the melting characteristics, flowability, and thermal stability of these four materials, the corresponding sheet production equipment needs to be designed specifically for each material. Regardless of the material, the core process of sheet production equipment is "raw material processing → melt extrusion → calendering and shaping → cooling and traction → cutting and winding".
PA (polyamide), POM (polyoxymethylene), POK (polyketone), and PPS (polyphenylene sulfide) sheet processing equipment are specialized sheet production equipment designed specifically for the processing characteristics of these four high-performance engineering plastics. Due to the significant differences in melting point, melt flow, thermal stability, and crystallization characteristics among these four raw materials, the corresponding equipment differs significantly in core aspects such as structural design, temperature control system, screw configuration, and calendering/extrusion modules. Ultimately, all serve the core goal of "stable production of high-performance, high-precision sheets." The core value of PA/POM/POK/PPS sheet processing equipment lies in "matching equipment characteristics to raw material characteristics"—through customized structural design and control systems, it solves pain points in the processing of high-performance engineering plastics such as "degradation, uneven crystallization, and high internal stress," ultimately producing high-precision, high-performance sheets that meet the needs of high-end manufacturing (automotive, electronics, chemical) industries.
PA (polyamide), POM (polyoxymethylene), POK (polyketone), and PPS (polyphenylene sulfide) sheets are all high-performance engineering plastic sheets.
High mechanical strength:
They can withstand large loads and are suitable for manufacturing parts that bear certain mechanical stresses, such as gears and bearings.
Good oil resistance: They maintain stable performance in environments in contact with oil and can be used for oil-resistant parts in the automotive and machinery industries.
Excellent self-lubricating properties:
They have a low coefficient of friction, reducing component wear, extending service life, and lowering lubrication costs.
Wide operating temperature range:
They maintain stable performance over a wide temperature range, adapting to different working environments.
