1) amorphous alloy
非晶合金
1.
Current study and advances on superplastic forming of bulk amorphous alloy;
大块非晶合金超塑性变形的研究现状与发展
2.
Influence of Oxidation on the Accuracy of DSC and TG Measurements for Amorphous Alloys;
试验条件对非晶合金DSC与TG测量的影响
3.
Study of behavior of non-isothermal crystallization of amorphous alloy Mg_(65)Cu_(22)Ni_3Y_(10);
Mg_(65)Cu_(22)Ni_3Y_(10)非晶合金的非等温晶化行为研究
2) amorphous alloys
非晶合金
1.
Correlation between crystallization kinetics of amorphous alloys and primary phases during crystallization;
非晶合金的晶化动力学与初生相的内在联系
2.
Crystallization kinetics of Ni_(59)Zr_(16)Ti_(13)Si_3Sn_2Nb_7 amorphous alloys;
Ni_(59)Zr_(16)Ti_(13)Si_3Sn_2Nb_7非晶合金的晶化动力学
3.
5 amorphous alloys were prepared by a single roller melt-spinning technique in an air atmosphere.
5非晶合金的非等温晶化的动力学行为。
3) metallic glass
非晶合金
1.
Plastic deformation of bulk metallic glass (BMG) Zr55Al10Ni5Cu30 was investigated by nanoindentation experiments at room temperature.
对Zr55Al10Ni5Cu30块状非晶合金进行了室温纳米压痕实验,利用扫描电子显微镜、透射电子显微镜揭示了非晶合金的微区形变特征。
2.
The deformation and fracture behavior under quasi-static compressive loading of a bulk metallic glass,Zr-Ti-Ni-Cu,was studied using instron universal-testing machine(IUTM) and scanning electron microscopy(SEM) at room temperature.
利用IUTM和SEM研究了Zr-Ti-Ni-Cu块状非晶合金的准静态单轴压缩变形和断裂行为。
3.
5 metallic glass has been studied by DSC and XRD.
5块状非晶合金的相变动力学。
4) amorphous
[英][ə'mɔ:fəs] [美][ə'mɔrfəs]
非晶合金
1.
Cu40Ti60-xZrx(x=0,10,30,50) amorphous alloys were fabricated successfully by using mechanical alloying method.
采用机械合金化法成功制备Cu40Ti60-xZrx(x=0,10,30,50)非晶合金。
2.
The GMI effects have been observed in two Co-Rich amorphous ribbons and a Fe-Rich alloy ribbon.
我们研究了三种非晶合金薄带的巨磁阻抗效应。
3.
The application of the homemade 1K101 amorphous core in induction module is reported in this paper.
介绍了国产非晶合金应用于感应加速组元的可行性研究的初步结果。
5) amorphous alloy
非晶态合金
1.
Preparation and application in welding of bulk Mg_(65)Cu_(22)Ni_3Y_(10) amorphous alloys;
块体Mg_(65)Cu_(22)Ni_3Y_(10)非晶态合金的制备及在焊接中的应用
2.
Formation and crystallized behavior of Mg_(65)Cu_(25)Y_(10) amorphous alloy;
Mg_(65)Cu_(25)Y_(10)非晶态合金的形成及其晶化行为
3.
Study for hydrogenation of furfuryl alcohol to tetrafurfural alcohol on NiB/SiO_2 amorphous alloy catalyst;
NiB/SiO_2非晶态合金催化剂用于糠醇加氢制四氢糠醇的研究
6) amorphous wire
非晶合金丝
1.
The experimental results show that the as-cast amorphous wire exhibits positive magnetostriction coefficient of λs=1×10-7.
1非晶合金丝的磁致伸缩系数,研究了等温退火处理对非晶合金丝磁致伸缩系数的影响。
2.
The measurement of the magnetostriction of amorphous wires by the small angle magnetization rotation(SAMR) method was investigated.
1非晶合金丝感应电压的二次谐波信号随直流偏磁场、应力及驱动电流的变化关系,通过对测量条件的优化,测量了非晶丝感生各向异性场随应力的变化关系。
补充资料:非晶聚烯烃
分子式:
CAS号:
性质:单烯烃与多环烯烃共聚而成的高透明热塑性树脂。单烯烃可以是乙烯、丙烯或其他α-烯烃;多环烯烃可以是降冰片烯、四环十二烯、甲基四环十二烯、五环十五碳烯等环烯烃。产品呈非晶性。密度1.01~1.05g/cm3。具有高透明性、低双折射率、低吸水性、高耐热、高强度、耐化学药品及易加工等优点。透光率90%。双折射率20~25nm,与聚甲基丙烯酸甲酯相同,比聚碳酸酯(>30nm)小。吸水性<0.01%,比聚碳酸酯和聚甲基丙烯酸酯(0.3%)均小一个数量级,热变形温度129~140℃,与聚碳酸酯相当,比聚甲基丙烯酸酯高,拉伸强度59~64MPa,弯曲弹性模量(2.4~3.2)×103MPa,悬臂梁缺口冲击强度30J/m,洛氏硬度M75。在齐格勒-纳塔或茂金属催化剂存在下,由乙烯或丙烯与环烯烃聚合制得。用于激光光盘、光导纤维、透镜、液晶显示板。
CAS号:
性质:单烯烃与多环烯烃共聚而成的高透明热塑性树脂。单烯烃可以是乙烯、丙烯或其他α-烯烃;多环烯烃可以是降冰片烯、四环十二烯、甲基四环十二烯、五环十五碳烯等环烯烃。产品呈非晶性。密度1.01~1.05g/cm3。具有高透明性、低双折射率、低吸水性、高耐热、高强度、耐化学药品及易加工等优点。透光率90%。双折射率20~25nm,与聚甲基丙烯酸甲酯相同,比聚碳酸酯(>30nm)小。吸水性<0.01%,比聚碳酸酯和聚甲基丙烯酸酯(0.3%)均小一个数量级,热变形温度129~140℃,与聚碳酸酯相当,比聚甲基丙烯酸酯高,拉伸强度59~64MPa,弯曲弹性模量(2.4~3.2)×103MPa,悬臂梁缺口冲击强度30J/m,洛氏硬度M75。在齐格勒-纳塔或茂金属催化剂存在下,由乙烯或丙烯与环烯烃聚合制得。用于激光光盘、光导纤维、透镜、液晶显示板。
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