70G33HS1-L
聚亚己基己二酸酰胺#聚己二酰己二胺|尼龙66|PA66
美国杜邦
填充物:高强度 注塑
物性信息:
基本性能 | 额定值 | 单位 | 测试方法 |
---|---|---|---|
吸水率 | ASTM D-570 | ||
(饱和(23℃)) | 5.4 | % | |
(24小时浸渍(23℃)) | 0.7 | % |
物理性能 | 额定值 | 单位 | 测试方法 |
---|---|---|---|
比重 | 1.38 | ASTM D-792 |
机械性能 | 额定值 | 单位 | 测试方法 |
---|---|---|---|
断裂伸长率 | ASTM D-638 | ||
(23℃,DAM) | 3 | % | |
(23℃,50%RH) | 4 | % | |
拉伸强度 (23℃,DAM) | 196.1 | MPa | ASTM D-638 |
挠曲模量 (23℃,50%RH) | 6205 | MPa | ASTM D-790 |
拉伸强度 (23℃,50%RH) | 124.1 | MPa | ASTM D-638 |
洛氏硬度M (DAM) | M101 | ASTM D-785 | |
挠曲模量 (23℃,DAM) | 8963 | MPa | ASTM D-790 |
挤剪强度 (23℃,DAM) | 86 | MPa | ASTM D-732 |
泰伯磨耗量 (50%RH) | 14 | cycles | |
埃佐冲击强度 | ASTM D-256 | ||
(23℃,DAM) | 107 | j/m | |
(23℃,50%RH) | 133 | j/m | |
挠曲强度 (23℃,DAM) | 262 | MPa | ASTM D-790 |
电气性能 | 额定值 | 单位 | 测试方法 |
---|---|---|---|
介电强度 ((分步法)DAM) | 440 | volts/mil | ASTM D-149 |
介电常数 | ASTM D-150 | ||
(RH@10Hz赫) | 10.7 | ||
(RH@10Hz赫) | 25.0 | ||
体积电阻率 (RH) | 10 | ohm-cm | ASTM D-257 |
介电常数 (DAM@10Hz赫) | 3.7 | ASTM D-150 | |
介电强度 (DAM) | 530 | volts/mil | ASTM D-149 |
损耗因数 (DAM@10Hz赫) | 0.02 | ASTM D-150 | |
体积电阻率 (DAM) | 10 | ohm-cm | ASTM D-257 |
介电常数 (DAM@10Hz赫) | 4.5 | ASTM D-150 | |
损耗因数 (DAM@10Hz赫) | 0.02 | ASTM D-150 |
热性能 | 额定值 | 单位 | 测试方法 |
---|---|---|---|
热畸变温度 (1.8MPa) | 249 | ℃ | ASTM D-648 |
熔点 | |||
(50%RH) | 255 | ℃ | ASTM D-789 |
(ASTM D-789) | 255 | ℃ | DAM |
线性热膨胀系数 | 2.3×10-5 | m/m/℃ | ASTM D-696 |
Introduction Chinese alias: Nylon 66 staple fiber; polyhexanediamide; Nylon -66; nylon 66 resin; polyamide -66; polyhexanediamine; Nylon -66. Nylon 66 has high fatigue strength and steel property, good heat resistance, low friction coefficient, good wear resistance, but high hygroscopicity and poor dimensional stability. Generally used for medium load, using temperature & LT; 100 -120 degrees without lubrication or less lubrication conditions of wear-resistant force transmission parts. II thermal properties melting point (TM) melting point is the temperature of crystallization melting, showing clear melting point for crystalline polymer nylon-66. According to the adopted test method, the melting point fluctuates in the range of 259 ~ 267 ° C. The melting point of nylon-66 measured by differential thermal analysis (DTA) is 264 ° C. In fact, the melting point of nylon-66 can be calculated according to the melting heat (ΔH) and the melting entropy (δs) of the crystallization: the ΔH of nylon-66 is 4390.3 J/mol, the ΔS is 8.37 J/KMOL, and the theoretical value of TM is 259.3 ° C [] . The melting point of nylon-66 is 246 ~ 263 ° C if the temperature at which the volume expansion coefficient shows the maximum value is taken as the melting point. The theoretical melting temperature is 259 ° C. Glass transition temperature (TG) the specific volume and specific heat capacity of polymers can change irregularly at a certain temperature, which is the glass transition temperature, it is the temperature at which the segments of a molecular chain begin to move, overcoming the forces between the molecules. At this temperature, the modulus, vibration frequency, dielectric constant and so on also begin to change. The glass transition temperature of Nylon -66 is related to the test method, moisture content, monomer concentration and crystallinity of the sample. Wilhoit and Dole considered that the glass transition temperature of NYLON-66 was 47 ° C [] , while Rybnikar determined the specific volume of nylon-66 at low temperature, it is found that there is also a transition temperature at -65 ° C in nylon-66[] .