...单晶;热电性能[gap=1177]Key words: B; solid solution; lattice parameter; CoSi single crystal; thermoelectric performance...
基于20个网页-相关网页
...型梯度结构热电材料FeSi 关键字: 热电性能; 梯度结构材料;输出功率; Sn过渡层[gap=1021]Key words: thermoelectric materials; functionally graded materials (FGM); power output; tin bridge material..
基于8个网页-相关网页
... Thermoelectricity room 电热室 thermoelectricity function 热电性能 thermoelectricity generation 火力发电 ...
基于8个网页-相关网页
The nono-powder of BN was selected to change the thermoelectric properties of Mg2Si based thermoelectric materials.
本文选择了纳米BN粉以改变Mg2Si基热电材料的热电性能。
参考来源 - P型MgIt is an effective method to improve the thermoelectric property of sample.
热处理对于试样的组织成分、导电性能、热电性能都有很大的影响,是改善材料的热电性能的一个有效办法。
参考来源 - TiNiSn材料热电性能与微观组织的研究The calculation results were compared and analyzed with the experimental data. The reason for the specific anisotropic transport properties was explained in detail, thus the means of improving the TE performance were predicted and proposed.
利用半经典的玻耳兹曼传输理论,在能带结构的基础上对这几种热电材料的传输性能进行了解析,并结合实验数据和计算结果进行比较和分析,解释了材料特殊传输性能的原因,预测了进一步提高材料热电性能的手段。
参考来源 - 热电材料晶体结构与微观缺陷相关的特异传输性质The electronic structures of Mg2Si1-xGex(x=0, 0.2) are studied by quantum chemical calculation method using a first-principle Pseudopotential, which could theoretically explain why the thermoelectric properties varies with the structure microscopically.
本文运用基于第一性原理的量子化学计算方法对Mg2Si1-xGex(x=0,0.2)体系的电子结构进行了计算,从微观结构的层次上对热电性能相应于结构的变化做出了理论解释。
参考来源 - MgRecently, a significant progress has been achieved in the research on PbTe-based compound, AgPb_mSbTe_(m+2) compounds propared by Ag and Sb Codoping to PbTe show a much higher thermoelectric performance than binary PbTe alloy.
PbTe基热电材料在最近的研究中取得了重大进展,Ag和Sb共掺杂的AgPb_mSbTe_(m+2)类化合物展现出大大优于二元PbTe合金的热电性能。
参考来源 - Ag和In共掺杂PbTe基化合物的合成及热电性能研究·2,447,543篇论文数据,部分数据来源于NoteExpress
讨论制备方法和温度对热电性能的影响。
The effects of preparation methods and temperature on the thermoelectric properties were discussed.
制备多元合金可以优化材料的成分,提高材料的热电性能。
The preparation of multicomponent alloy can optimize material compositions and improve thermoelectric properties.
本发明广泛涉及显示出增强热电性能的纳米复合物热电材料。
The present invention is generally directed to nanocomposite thermoelectric materials that exhibit enhanced thermoelectric properties.
应用推荐