PA46纯树脂TW271F6
Stanyl TE263F6尼龙46冲击改性;热稳定性
Stanyl TE300尼龙46热稳定性
Stanyl TE341尼龙46润滑;热稳定性工业应用
Stanyl TE351尼龙46润滑;热稳定性;阻燃性工业应用
Stanyl TE373尼龙46热稳定性工业应用
Stanyl TQ261F2尼龙46热稳定性工业应用
Stanyl TQ261F5尼龙46热稳定性工业应用
STANYLTE200F8 Nylon 46 electroplate; thermal stability Stanyl TE250F3Nylon 46 electroplate; Lubrication; thermal stability; FlameRetardant Spool; connector Stanyl TE250F6 Nylon 46 electroplate;Lubrication; thermal stability; Flame Retardant Safety Helmet;Laminate; Automotive Applications; Electrical / ElectronicApplications; Spool; insulation; Connector Stanyl TE250F8 Nylon 46electroplated; Lubrication; thermal stability; Flame RetardantElectrical / electronic applications; Spool; connector StanylTE250F9 Nylon 46 electroplated; Lubrication; thermal stability;flame retardant connector
PA46 is akind of aliphatic polyamide formed by condensation of butanediamineand ADIPIC acid. Although it has a similar molecular structure asNylon 66, Stanyl PA46 has more amide groups per given length chainand more symmetrical chain structure The highly symmetrical chainstructure results in higher crystallinity (about 70%) , highermelting point (295 °c) , higher thermal deformation temperature,and longer service temperature CUT 5000 hours up to 163 °C. Theseproperties give Stanyl PA46 a technological advantage over otherengineering plastics such as PA6, PA66, PPA and polyester in termsof heat resistance, high temperature mechanical strength, wearresistance, etc. . 2 High Performance Polyamide 46 has incomparableperformance and value in automotive and electronic applications,providing superior, mechanical, superior, wear resistance and lowfriction as well as superior, mobility at high and temperatureconditions, the processing is more convenient and the specialdesign is more flexible. STANYL outperforms PPA, PA6T, PA9T and isgenerally superior to PPS and LCP materials at high temperatures.Its outstanding characteristics make it an important advantage incost reduction, service life extension and reliability. STANYL hasthe same properties as high temperature resins such as LCP, PPS andPEEK in terms of ease of processing design. Advantages available todie manufacturers and end users include: High TemperatureResistance, long-term use under the hood, lead-free soldering.Excellent Chemical Resistance to extend the service life ofcomponents. • performance is more reliable due to its low creepproperties, excellent fatigue resistance and low wear resistance,which extend service life. • Superior Mechanical Performance,Reduced Wall thickness, resulting in lower weight and componentprices. Only a shorter cycle time can increase the productionefficiency of the molding equipment by 30% due to high mobilitywhich can be improved by increasing the number of cavities. Due toits excellent mechanical properties and good die flow behavior, itprovides greater design freedom. • products that are uniformlyfilled with extremely thin walls allow easy injection molding ofstate-of-the-art products. The re-grinding efficiency can reach25-50% , and the performance does not decrease obviously to obtainthe economic benefit while maintaining the product performancereliability. Economic, safe and convenient processing can berealized by using 80 °C 175 F hydrothermal injection mould. • Noflash, so no post-processing is required.