1) activation energy spectrum
激活能谱
2) activation energy
激活能<能>
3) activation energy
激活能
1.
Computation methods of activation energy of amorphous alloy with non-isothermal crystallization;
非晶合金非等温晶化激活能的计算方法
2.
Influence of Carbon Content and Grain Size on Activation Energy of Microalloy Steel;
碳含量及晶粒尺寸对微合金钢激活能的影响
3.
Determination of activation energy for growth of δ′ in Al-Li alloy by SAXS;
小角X射线散射确定Al-Li合金中δ′相长大激活能
4) apparent activation energy
激活能
1.
5 for peak2),the apparent activation energy E(E_1=406±14kJ/mol and E_2=455±37kJ/mol) and the frequency factor ν(ν_1=3.
根据不同升温速率的DSC曲线,采用Kissinger方程计算了两个析晶峰的晶化表观激活能E1(406±14kJ/mol)和E2(455±37kJ/mol)及频率因子ν(1ν=3。
2.
The grain growth exponent and apparent activation energy were determined by applying the phenomenological kinetic grain growth equation.
应用晶粒生长动力学唯象理论研究了TiO2 对ZnO压敏陶瓷的晶粒生长规律的影响 ,应用晶粒生长动力学方程确定了晶粒生长动力学指数和激活能 ,探讨了TiO2 掺杂对ZnO压敏陶瓷晶粒生长的作用机理 。
3.
The grain growth exponent and apparent activation energy were determined.
06 BaTiO3无铅压电织构陶瓷烧结机制的影响规律,确定了晶粒生长动力学指数和激活能,探讨了籽晶含量对陶瓷晶粒生长的作用机理。
5) active energy
激活能
1.
Operating lifetime of fine SLDs has been estimated from the results of accelerated aging carried out for 3500 h at the ambient temperature of 373K and 358K respectively and the aging rate and active energy were estimated from power-time(P-t) curve fitting.
分别在环境温度373 K和358 K下对5只SLD管芯进行加速老化,并通过对P-t曲线拟合来推算和估计管芯的老化速率和激活能。
2.
According to the data of thermal simulation,active energy and coefficients of constitutive model were determined for different hydrogen content.
采用热模拟实验方法,研究了Ti600钛合金置氢后的热塑性性能,确定了不同含氢量及工艺参数条件下的激活能。
3.
The active energy and high-temperature mechanical properties of titanium alloy Ti600 with different hydrogen content and technology parameters were studied with thermal simulation experiment.
通过热模拟实验研究了含氢量及工艺参数对Ti600合金的激活能及高温性能的影响。
6) activation energy Q
激活能Q
补充资料:VGESCALABMKII电子能谱仪
VGESCALABMKII电子能谱仪
1441
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