| Physical Properties | Metric | English | Comments | ||
|---|---|---|---|---|---|
| Density | 1.53 g/cc | 0.0553 lb/in³ | ISO 1183 | ||
| Water Absorption | 1.0 % @Thickness 2.00 mm |
1.0 % @Thickness 0.0787 in |
Sim. to ISO 62 | ||
| Moisture Absorption | 0.200 % @Thickness 2.00 mm |
0.200 % @Thickness 0.0787 in |
Sim. to ISO 62 | ||
| Viscosity | 100000 cP @Shear Rate 5000 1/s, Temperature 230 °C |
100000 cP @Shear Rate 5000 1/s, Temperature 446 °F |
ISO 11403-1 -2 | ||
| 107000 cP @Shear Rate 5000 1/s, Temperature 215 °C |
107000 cP @Shear Rate 5000 1/s, Temperature 419 °F |
ISO 11403-1 -2 | |||
| 116000 cP @Shear Rate 5000 1/s, Temperature 200 °C |
116000 cP @Shear Rate 5000 1/s, Temperature 392 °F |
ISO 11403-1 -2 | |||
| 374000 cP @Shear Rate 500 1/s, Temperature 230 °C |
374000 cP @Shear Rate 500 1/s, Temperature 446 °F |
ISO 11403-1 -2 | |||
| 425000 cP @Shear Rate 500 1/s, Temperature 215 °C |
425000 cP @Shear Rate 500 1/s, Temperature 419 °F |
ISO 11403-1 -2 | |||
| 483000 cP @Shear Rate 500 1/s, Temperature 200 °C |
483000 cP @Shear Rate 500 1/s, Temperature 392 °F |
ISO 11403-1 -2 | |||
| Linear Mold Shrinkage, Flow | 0.020 cm/cm | 0.020 in/in | ISO 294-4 2577 | ||
| Linear Mold Shrinkage, Transverse | 0.014 cm/cm | 0.014 in/in | ISO 294-4 2577 | ||
| Mechanical Properties | Metric | English | Comments | ||
| Tensile Strength at Break | 50.0 MPa | 7250 psi | ISO 527-1/-2 | ||
| Tensile Stress | 8.70 MPa @Strain 0.900 %, Temperature 90.0 °C |
1260 psi @Strain 0.900 %, Temperature 194 °F |
ISO 11403-1 -2 | ||
| 21.5 MPa @Strain 3.60 %, Temperature 90.0 °C |
3120 psi @Strain 3.60 %, Temperature 194 °F |
ISO 11403-1 -2 | |||
| 23.9 MPa @Strain 6.20 %, Temperature 90.0 °C |
3470 psi @Strain 6.20 %, Temperature 194 °F |
ISO 11403-1 -2 | |||
| 24.3 MPa @Strain 8.90 %, Temperature 90.0 °C |
3520 psi @Strain 8.90 %, Temperature 194 °F |
ISO 11403-1 -2 | |||
| 27.2 MPa @Strain 1.40 %, Temperature 40.0 °C |
3950 psi @Strain 1.40 %, Temperature 104 °F |
ISO 11403-1 -2 | |||
| 30.5 MPa @Strain 1.00 %, Temperature 0.000 °C |
4420 psi @Strain 1.00 %, Temperature 32.0 °F |
ISO 11403-1 -2 | |||
| 31.6 MPa @Strain 1.20 %, Temperature 23.0 °C |
4580 psi @Strain 1.20 %, Temperature 73.4 °F |
ISO 11403-1 -2 | |||
| 32.0 MPa @Strain 0.900 %, Temperature -20.0 °C |
4640 psi @Strain 0.900 %, Temperature -4.00 °F |
ISO 11403-1 -2 | |||
| 40.5 MPa @Strain 5.40 %, Temperature 40.0 °C |
5870 psi @Strain 5.40 %, Temperature 104 °F |
ISO 11403-1 -2 | |||
| 42.2 MPa @Strain 9.40 %, Temperature 40.0 °C |
6120 psi @Strain 9.40 %, Temperature 104 °F |
ISO 11403-1 -2 | |||
| 42.6 MPa @Strain 13.4 %, Temperature 40.0 °C |
6180 psi @Strain 13.4 %, Temperature 104 °F |
ISO 11403-1 -2 | |||
| 45.6 MPa @Strain 5.00 %, Temperature 23.0 °C |
6610 psi @Strain 5.00 %, Temperature 73.4 °F |
ISO 11403-1 -2 | |||
| 47.3 MPa @Strain 8.70 %, Temperature 23.0 °C |
6860 psi @Strain 8.70 %, Temperature 73.4 °F |
ISO 11403-1 -2 | |||
| 47.8 MPa @Strain 12.4 %, Temperature 23.0 °C |
6930 psi @Strain 12.4 %, Temperature 73.4 °F |
ISO 11403-1 -2 | |||
| 50.2 MPa @Strain 3.80 %, Temperature 0.000 °C |
7280 psi @Strain 3.80 %, Temperature 32.0 °F |
ISO 11403-1 -2 | |||
| 53.7 MPa @Strain 6.60 %, Temperature 0.000 °C |
7790 psi @Strain 6.60 %, Temperature 32.0 °F |
ISO 11403-1 -2 | |||
| 54.4 MPa @Strain 9.50 %, Temperature 0.000 °C |
7890 psi @Strain 9.50 %, Temperature 32.0 °F |
ISO 11403-1 -2 | |||
| 54.9 MPa @Strain 3.70 %, Temperature -20.0 °C |
7960 psi @Strain 3.70 %, Temperature -4.00 °F |
ISO 11403-1 -2 | |||
| 58.2 MPa @Strain 6.50 %, Temperature -20.0 °C |
8440 psi @Strain 6.50 %, Temperature -4.00 °F |
ISO 11403-1 -2 | |||
| 59.2 MPa @Strain 9.30 %, Temperature -20.0 °C |
8590 psi @Strain 9.30 %, Temperature -4.00 °F |
ISO 11403-1 -2 | |||
| Elongation at Break | 10 % | 10 % | ISO 527-1/-2 | ||
| Tensile Modulus | 2.80 GPa | 406 ksi | ISO 527-1/-2 | ||
| Flexural Modulus | 2.50 GPa | 363 ksi | ISO 178 | ||
| Shear Modulus | 0.141 GPa @Temperature 150 °C |
20.5 ksi @Temperature 302 °F |
Dynamic; ISO 11403-1 -2 | ||
| 0.306 GPa @Temperature 110 °C |
44.4 ksi @Temperature 230 °F |
Dynamic; ISO 11403-1 -2 | |||
| 0.628 GPa @Temperature 60.0 °C |
91.1 ksi @Temperature 140 °F |
Dynamic; ISO 11403-1 -2 | |||
| 0.961 GPa @Temperature 10.0 °C |
139 ksi @Temperature 50.0 °F |
Dynamic; ISO 11403-1 -2 | |||
| 1.12 GPa @Temperature -20.0 °C |
162 ksi @Temperature -4.00 °F |
Dynamic; ISO 11403-1 -2 | |||
| 1.284 GPa @Temperature -50.0 °C |
186.2 ksi @Temperature -58.0 °F |
Dynamic; ISO 11403-1 -2 | |||
| Secant Modulus | 0.396262 GPa @Strain 10.7 %, Temperature 40.0 °C |
57.4738 ksi @Strain 10.7 %, Temperature 104 °F |
ISO 11403-1 -2 | ||
| 0.480808 GPa @Strain 9.90 %, Temperature 23.0 °C |
69.7364 ksi @Strain 9.90 %, Temperature 73.4 °F |
ISO 11403-1 -2 | |||
| 0.709211 GPa @Strain 7.60 %, Temperature 0.000 °C |
102.864 ksi @Strain 7.60 %, Temperature 32.0 °F |
ISO 11403-1 -2 | |||
| 0.750 GPa @Strain 5.40 %, Temperature 40.0 °C |
109 ksi @Strain 5.40 %, Temperature 104 °F |
ISO 11403-1 -2 | |||
| 0.793243 GPa @Strain 7.40 %, Temperature -20.0 °C |
115.052 ksi @Strain 7.40 %, Temperature -4.00 °F |
ISO 11403-1 -2 | |||
| 0.912 GPa @Strain 5.00 %, Temperature 23.0 °C |
132 ksi @Strain 5.00 %, Temperature 73.4 °F |
ISO 11403-1 -2 | |||
| 1.32105 GPa @Strain 3.80 %, Temperature 0.000 °C |
191.605 ksi @Strain 3.80 %, Temperature 32.0 °F |
ISO 11403-1 -2 | |||
| 1.48378 GPa @Strain 3.70 %, Temperature -20.0 °C |
215.207 ksi @Strain 3.70 %, Temperature -4.00 °F |
ISO 11403-1 -2 | |||
| 1.94286 GPa @Strain 1.40 %, Temperature 40.0 °C |
281.792 ksi @Strain 1.40 %, Temperature 104 °F |
ISO 11403-1 -2 | |||
| 2.63333 GPa @Strain 1.20 %, Temperature 23.0 °C |
381.938 ksi @Strain 1.20 %, Temperature 73.4 °F |
ISO 11403-1 -2 | |||
| 3.05 GPa @Strain 1.00 %, Temperature 0.000 °C |
442 ksi @Strain 1.00 %, Temperature 32.0 °F |
ISO 11403-1 -2 | |||
| 3.55556 GPa @Strain 0.900 %, Temperature -20.0 °C |
515.698 ksi @Strain 0.900 %, Temperature -4.00 °F |
ISO 11403-1 -2 | |||
| Izod Impact, Notched (ISO) | 3.00 kJ/m² | 1.43 ft-lb/in² | ISO 180/1A | ||
| Charpy Impact Unnotched | 4.00 J/cm² | 19.0 ft-lb/in² | ISO 179/1eU | ||
| 3.50 J/cm² @Temperature -30.0 °C |
16.7 ft-lb/in² @Temperature -22.0 °F |
ISO 179/1eU | |||
| Charpy Impact, Notched | 0.300 J/cm² | 1.43 ft-lb/in² | ISO 179/1eA | ||
| 0.300 J/cm² @Temperature -30.0 °C |
1.43 ft-lb/in² @Temperature -22.0 °F |
ISO 179/1eA | |||
| Electrical Properties | Metric | English | Comments | ||
| Surface Resistance | >= 1.00e+15 ohm | >= 1.00e+15 ohm | IEC 60093 | ||
| Comparative Tracking Index | 600 V | 600 V | IEC 60112 | ||
| Thermal Properties | Metric | English | Comments | ||
| CTE, linear, Parallel to Flow | 110 µm/m-°C | 61.1 µin/in-°F | ISO 11359-1/-2 | ||
| CTE, linear, Transverse to Flow | 100 µm/m-°C | 55.6 µin/in-°F | ISO 11359-1/-2 | ||
| Melting Point | 178 °C | 352 °F | 10°C/min; ISO 11357-1/-3 | ||
| Deflection Temperature at 0.46 MPa (66 psi) | 160 °C | 320 °F | ISO 75-1/-2 | ||
| Deflection Temperature at 1.8 MPa (264 psi) | 92.0 °C | 198 °F | ISO 75-1/-2 | ||
| Flammability, UL94 | HB @Thickness 1.50 mm |
HB @Thickness 0.0591 in |
IEC 60695-11-10 | ||
| Flame Spread | 54 mm/min @Thickness 1.00 mm |
2.1 in/min @Thickness 0.0394 in |
ISO 3795 (FMVSS 302) | ||
| De |
|||||
| Additives | Lubricants | ||||
| Release agent | |||||
| Delivery form | Pellets | ||||
| Part Marking Code | >POM-SF20< | ISO 11469 | |||
| Processing | Injection Moulding | ||||
| Regional Availability | Asia Pacific | ||||
| Europe | |||||
| Global | |||||
| Near East/Africa | |||||
| North America | |||||
| South and Central America | |||||
| Resin Identification | POM-SF20 | ISO 1043 | |||
| UL recognition | UL | ||||
POM 的简介
POM强度、刚度高,弹性好,减磨耐磨性好。其力学性能优异,比强度可达50.5MPa,比刚度可达2650MPa,与金属十分接近。POM的力学性能随温度变化小,共聚POM比均聚POM的变化稍大一点。
POM的冲击强度较高,但常规冲击不及ABS和PC;POM对缺口敏感,有缺口可使冲击强度下降90%之多。
POM的疲劳强度十分突出,10交变载荷作用后,疲劳强度可达35MPa,而PA和PC仅为28MPa。
POM的蠕变性与PA相似,在20℃、21MPa、3000h时仅为2.3%,而且受温度的影响很小。
POM的摩擦因数小,耐磨性好(POM>PA66>PA6>ABS>HPVC>PS>PC),极限PV值很大,自润滑性好。
POM制品对磨时,高载荷作用时易产生类似尖叫的噪声。
POM 化学性质
POM 按分子链结构不同,聚甲醛可分为均聚甲醛和共聚甲醛,前者密度、结晶度、熔点都高,但是热稳定性差,加工温度窄(10度),对酸堿的稳定性略低;后者密度、结晶度、熔点较低,但热稳定性好,不易分解,加工温度宽(50度) 。
POM 不足之处在于:由受强酸腐蚀,耐侯差,粘合性差,热分解与软化温度接近,限氧指数小。它们广泛用于汽车工业,电子电器,机械设备等。还可以做水龙头、框窗、洗漱盆。
POM具有很低的摩擦系数和很好的几何稳定性,特别适合于制作齿轮和轴承。由于它还具有耐高温特性,因此还用于管道器件(管道阀门、泵壳体),草坪设备等。
POM 环境性能:
POM不耐强酸和氧化剂,对烯酸及弱酸有一定的稳定性。
POM的耐溶剂性良好,可耐烃类、醇类、醛类、醚类、汽油、润滑油及弱碱等,并可在高温下保持相当的化学稳定性。吸水性小,尺寸稳定性好。
POM的耐候性不好,长期在紫外线作用下,力学性能下降,表面发生粉化和龟裂。
应用范围
POM属结晶性塑料,熔点明显,一旦达到熔点,熔体粘度迅速下降。当温度超过一定限度或熔体受热时间过长,会引起分解。
POM具有较好的综合性能,在热塑性塑料中是最坚硬的,是塑料材料中力学性能最接近金属的品种之一,其抗张强度、弯曲强度、耐疲劳强度,耐磨性和电性都十分优良,可在-40度--100度之间长期使用。
上海松翰塑化科技有限公司,供应原料,品质真实,物实价廉。
PA6T,46,9T、PC、PC/ABS、PBT、ABS、PPA、PPS、POM、PMMA、TPE、PPO、LCP液晶聚合物。
欢迎各位客户前来咨询:
联系人: 夏先生
手 机:13501802636
QQ :205730283
邮 箱 :205730283@qq.com
参考图如下:
