公司信息及水印
牌号简介 About |
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Vydyne® R515H是通用的,热稳定,抗水解,15%玻璃纤维增强PA66树脂。天然的,它是专门设计的,以最大限度地保留物理性质时,暴露在抗冻溶液在高温下。该产品也经过润滑以改善流动性,并提供优越的表面外观。与未增强的PA66相比,玻璃增强的Vydyne树脂具有更高的热变形温度、抗蠕变和更好的尺寸稳定性。这些产品对包括汽油、液压油和大多数溶剂在内的各种化学品具有良好的耐化学性。Vydyne® R515H是热稳定的,以最大限度地减少聚合物在使用中暴露于高温下的氧化降解。该产品在长期高温下可提高物理性能的保持力。此外,Vydyne® R515H还具有优异的编织线强度和抗疲劳性能,这对于使用防冻液进行循环测试至关重要。典型应用/最终用途:Vydyne® R515H成功应用于各种注塑工程应用,包括汽车夹子、散热器端水箱、空调和汽油分配系统零件等(发动机罩下);电气连接器、外壳、线轴等;以及工业应用,如齿轮。,轴承壳、盖、壳体等。 Vydyne R515H is general-purpose, heat-stabilized, hydrolysis-resistant, 15% glass-fiber reinforced PA66 resin. Available in natural, it is specifically designed to maximize the retention of physical properties when exposed to anti-freeze solutions at elevated temperatures. This product is also lubricated for improved flow and offers superior surface appearance. Glass-reinforced Vydyne resins provide higher heat distortion temperature, resistance to creep, and better dimensional stability when compared with unreinforced PA66. These products have good chemical resistance to a broad range of chemicals including gasoline, hydraulic fluids and most solvents. Vydyne R515H is heat-stabilized to minimize oxidative degradation of the polymer when exposed to elevated temperatures in service. This product provides improved retention of physical properties under exposure to long-term heat. Also, Vydyne R515H has excellent knit-line strength and fatigue resistance, which is essential for cycle testing with anti-freeze solutions. Typical Applications/End Uses: Vydyne R515H is successfully used in a wide range of injection molding engineering applications, including automotive clips, radiator end tanks, parts of the air-conditioning and petrol distribution system, etc. (under the hood); electrical connectors, housings, bobbins, etc.; and in industrial applications such as gears, bearing shells, covers, housings, etc. |
技术参数 Technical Data | |||
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物理性能 PHYSICAL |
额定值 Nominal Value |
单位 Units |
测试方法 Test Method |
密度 Density |
1.24 | g/cm³ | ISO 1183 |
收缩率 Shrinkage rate |
ISO 294-4 | ||
TD:23℃,2.0 mm TD:23℃,2.0 mm |
1.0 | % | ISO 294-4 |
MD:23℃,2.0 mm MD:23℃,2.0 mm |
0.50 | % | ISO 294-4 |
吸水率 Water absorption rate |
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平衡,23℃,50% RH Equilibrium, 23 ℃, 50% RH |
2.2 | % | ISO 62 |
23℃,24hr 23℃,24hr |
1.0 | % | ISO 62 |
机械性能 MECHANICAL |
额定值 Nominal Value |
单位 Units |
测试方法 Test Method |
拉伸模量 Tensile modulus |
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23℃ 23℃ |
MPa | ISO 527-2 | |
拉伸强度 tensile strength |
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断裂,23℃ Fracture, 23 ℃ |
MPa | ISO 527-2 | |
拉伸应变 Tensile strain |
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断裂,23℃ Fracture, 23 ℃ |
% | ISO 527-2 | |
弯曲模量 Bending modulus |
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23℃ 23℃ |
MPa | ISO 178 | |
弯曲强度 bending strength |
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23℃ 23℃ |
MPa | ISO 178 | |
泊松比 Poisson's ratio |
ISO 527-2 | ||
冲击性能 IMPACT |
额定值 Nominal Value |
单位 Units |
测试方法 Test Method |
简支梁缺口冲击强度 Charpy Notched Impact Strength |
ISO 179 | ||
-30℃ -30℃ |
kJ/m² | ISO 179 | |
23℃ 23℃ |
kJ/m² | ISO 179 | |
简支梁无缺口冲击强度 Charpy Unnotch Impact strength |
ISO 179 | ||
-30℃ -30℃ |
kJ/m² | ISO 179 | |
23℃ 23℃ |
kJ/m² | ISO 179 | |
悬臂梁缺口冲击强度 Impact strength of cantilever beam notch |
ISO 180 | ||
-30℃ -30℃ |
kJ/m² | ISO 180 | |
23℃ 23℃ |
kJ/m² | ISO 180 | |
热性能 THERMAL |
额定值 Nominal Value |
单位 Units |
测试方法 Test Method |
热变形温度 Hot deformation temperature |
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1.8 MPa,未退火 1.8 MPa, unannealed |
℃ | ISO 75-2/A | |
0.45 MPa,未退火 0.45 MPa, unannealed |
℃ | ISO 75-2/B | |
熔融温度 Melting temperature |
℃ | ISO 11357-3 | |
线性热膨胀系数 Linear coefficient of thermal expansion |
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TD:23~55℃,2 mm TD:23~55℃,2 mm |
1/℃ | ISO 11359-2 | |
MD:23~55℃,2 mm MD:23~55℃,2 mm |
1/℃ | ISO 11359-2 | |
相对温度指数 Relative temperature index |
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电气性能 Electrical performance |
UL 746 | ||
0.75 mm 0.75 mm |
℃ | UL 746 | |
1.5 mm 1.5 mm |
℃ | UL 746 | |
3.0 mm 3.0 mm |
℃ | UL 746 | |
强度机械性能 Strength mechanical performance |
UL 746 | ||
0.75 mm 0.75 mm |
℃ | UL 746 | |
1.5 mm 1.5 mm |
℃ | UL 746 | |
3.0 mm 3.0 mm |
℃ | UL 746 | |
冲击机械性能 Impact mechanical performance |
UL 746 | ||
0.75 mm 0.75 mm |
℃ | UL 746 | |
1.5 mm 1.5 mm |
℃ | UL 746 | |
3.0 mm 3.0 mm |
℃ | UL 746 | |
电气性能 Electrical performance |
额定值 Nominal Value |
单位 Units |
测试方法 Test Method |
体积电阻率 Volume resistivity |
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0.75 mm 0.75 mm |
ohms·cm | IEC 60093 | |
介电强度 Dielectric strength |
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1 mm 1 mm |
kV/mm | IEC 60243 | |
耐电弧性 Arc resistance |
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3.0 mm 3.0 mm |
ASTM D495 | ||
相比漏电起痕指数 Compared to the leakage tracing index |
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3.00 mm 3.00 mm |
V | IEC 60112 | |
高电弧燃烧指数(HAI) High Arc Burning Index (HAI) |
UL 746 | ||
0.75 mm 0.75 mm |
UL 746 | ||
1.5 mm 1.5 mm |
UL 746 | ||
3.0 mm 3.0 mm |
UL 746 | ||
高电压电弧起痕速率 High voltage arc marking rate |
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HVTR HVTR |
UL 746 | ||
热丝引燃 Hot wire ignition |
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HWI HWI |
UL 746 | ||
0.75 mm 0.75 mm |
UL 746 | ||
1.5 mm 1.5 mm |
UL 746 | ||
3.0 mm 3.0 mm |
UL 746 | ||
阻燃性能 FLAME CHARACTERISTICS |
额定值 Nominal Value |
单位 Units |
测试方法 Test Method |
阻燃等级 Flame retardant level |
UL 94 | ||
0.75 mm 0.75 mm |
UL 94 | ||
1.50 mm 1.50 mm |
UL 94 | ||
3.00 mm 3.00 mm |
UL 94 | ||
灼热丝可燃性指数 Glowing wire flammability index |
IEC 60695-2-12 | ||
0.75 mm 0.75 mm |
℃ | IEC 60695-2-12 | |
1.5 mm 1.5 mm |
℃ | IEC 60695-2-12 | |
3.0 mm 3.0 mm |
℃ | IEC 60695-2-12 | |
灼热丝起燃温度 Igniting temperature of the hot wire |
IEC 60695-2-13 | ||
0.75 mm 0.75 mm |
℃ | IEC 60695-2-13 | |
1.5 mm 1.5 mm |
℃ | IEC 60695-2-13 | |
3 mm 3 mm |
℃ | IEC 60695-2-13 |
备注 |
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1 一般属性:这些不能被视为规格。 |
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