1) energetic materials structure
含能材料结构
1.
The application of SAS technique used in energetic materials structure′s measuring was also summarized.
较详细分析了小角散射(SAS)技术测试含能材料结构的原理,对国内外SAS技术在含能材料结构表征方面的应用进行了综述。
2) multifunctional energetic structural materials(MESM)
多功能含能结构材料
3) energetic materials
含能材料
1.
Progresses of characterization techniques of ultrafine energetic materials;
超细含能材料表征技术研究进展
2.
Molecular design and property prediction of energetic materials;
含能材料分子设计与性能预估研究
3.
Investigation on oxygen-equilibrium effects of laser ignition of energetic materials;
含能材料激光点火的氧平衡问题研究
4) energetic material
含能材料
1.
Theoretical studies on heat of formation and stability for energetic materials of LLM-105 and its analogues;
含能材料LLM-105及其类似物生成热和稳定性研究
2.
Review on the disposal techniques of energetic material wastes(Ⅰ)——safety destruction techniques;
含能材料废料处理技术研究述评(Ⅰ)——安全销毁技术
3.
Advances and prospects of energetic material technol- ogies;
含能材料技术的进展与展望
5) smart materials and structures
智能材料与结构
1.
The conception, research orientation and potential applications of smart materials and structures were reviewed.
介绍了智能材料与结构的基本特性、研究内容及应用前景。
2.
The testing methods for shape memory alloy (SMA) are proposed based on material evaluation technology and requirement of smart materials and structures.
从形状记忆合金( S M A)的性能测试和智能材料与结构研究的角度出发,论述了 S M A 驱动元件的应力、应变、温度和相变之间的测试关系,并通过分阶段和不同的变量组合,对直径0。
3.
Recent devel-opments and applications of smart materials and structures in various countries,compositions an.
智能材料与结构是由世界发达国家在80年代发展起来的一项高新技术。
6) smart materials and structures
智能材料结构
1.
As a newly emerging frontier interdiscipline, smart materials and structures possesses a great development potential and wide application prospect, and has become one of the research focuses at home and abroad.
智能材料结构是一门由多学科高度交叉的新兴前沿学科,其发展潜力巨大,应用前景广阔,现已成为国际上的研究热点之一。
2.
With the reference to up to date world wide literature, some methods based on smart materials and structures such as stress wave factor, mechanical impedance and hollow center optical fiber sensing are emphatically presented on with a concise review of conventional methods of structural damage detection.
本文在参考国内外最新研究的基础上 ,对工程材料结构的损伤检测方法作了简要综述 ,着重介绍了智能材料结构中的应力波因子技术、高频机械阻抗技术和空心光纤传感技术 ,并讨论了研究中存在的一些问题以及进一步的工
3.
With reference to up\|to\|date overseas and home literature, the paper has concentrated on methods of optical fiber sensing, stress wave and mechanical impedance, which is based on smart materials and structures, on the basis of a concise review of conventional methods of structural damage evaluation.
参考了国内外最新研究成果 ,在对工程材料结构损伤评价常规方法作简述的基础上 ,着重介绍了基于智能材料结构的光纤传感、应力波和高频机械阻抗技术及其在工程中的应用 ,并讨论了研究中存在的一些问题以及进一步的工作。
补充资料:半导体材料能带结构
半导体材料能带结构
energy band structure in semiconductor
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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