1) equations of fluid mechanics
非晶合金晶化
1.
From the nonlinear equations of fluid mechanics,we derive a simplified nonlinear solution of momentum,corresponding the accumulation of the energy.
在实验中观察到,在激波作用下非晶合金晶化成纳米晶体。
2) 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
3) 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。
4) 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。
5) 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。
补充资料:非晶态合金
分子式:
CAS号:
性质:一种没有原子三维周期性排列的金属或合金固体。它在超过几个原子间距范围以外,不具有长程有序的晶体点阵排列。和普通晶态金属与合金相比,非晶态金属与合金具有较高的强度、良好的磁学性能和抗腐蚀性能等,通常又称之为金属玻璃或玻璃态合金。可部分替代硅钢、玻莫合金和铁氧体等软磁材料,且综合性能高于这些材料。
CAS号:
性质:一种没有原子三维周期性排列的金属或合金固体。它在超过几个原子间距范围以外,不具有长程有序的晶体点阵排列。和普通晶态金属与合金相比,非晶态金属与合金具有较高的强度、良好的磁学性能和抗腐蚀性能等,通常又称之为金属玻璃或玻璃态合金。可部分替代硅钢、玻莫合金和铁氧体等软磁材料,且综合性能高于这些材料。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条