The tendency of synthetic semi_conductor nano wire was analyzed worldwide.
分析了国内外的研究合成半导体纳米线现状及未来的发展趋势。
The invention relates to a microstructure of a nano wire and an electrical performance testing device.
本发明涉及一种纳米线的显微结构与电学性能测试装置。
Simulation results show that free surfaces of nano wire lead to initial stress without external load, and damage expands from outmost surfaces deep into interior lattices.
模拟表明纳米金属丝在无外载荷状态存在本征应力,原子缺陷从自由表面开始向内部扩展。
Or similarly, the nano-robots that could insert and wire these in place.
与此类似, 纳米机器人也可以完成同样的工作.
Carbon nanotubes have novel mechanical, electrical properties, and they are typical 1D quantum wire. They are expected to be the fundamental materials for future micro- or nano- electronic devices.
碳纳米管具有独特的力学、电学性能,并且是典型的一维量子线,被认为是构筑未来微纳电子器件的主要材料。
This study focuses on the dynamic buckling of a nano crystal copper wire under compression stress wave.
用分子动力学方法和弹性动力学方法研究了纳米铜线的动力屈曲,并对两种方法进行了比较。
Dynamic buckling of the nano crystal copper wire under different load is simulated.
模拟了不同载荷下纳米铜线的动力屈曲型态。
Fabrication of nano-wire arrays.
纳米线有序阵列的制备。
The results show that the thinner crystal nano-wire has a larger thermal expansion coefficient.
研究结果表明,纳米晶体线越细,其热膨胀系数越大。
The use of nano-electronic reactor, energy concentration, easy arc ignition, arc continuous uninterrupted wire feeding.
采用纳米电子电抗器,能量集中,引弧容易,连续送丝电弧不中断。
Elastic dynamics method predicts that stress wave has remarkable effects on dynamic buckling of the nano crystal copper wire. Comparison with molecular dynamics resu...
用弹性动力学理论分析了应力波传播对纳米铜线的动力屈曲的影响,并与分子动力学模拟的结果进行了比较。
Elastic dynamics method predicts that stress wave has remarkable effects on dynamic buckling of the nano crystal copper wire. Comparison with molecular dynamic...
用弹性动力学理论分析了应力波传播对纳米铜线的动力屈曲的影响,并与分子动力学模拟的结果进行了比较。
Structure: High Temperature High Pressure Hose for the winding wire matrix, skin coated nano-refractory coating layer, stainless steel wire woven layer and layer fire-retardant composition.
结构:以耐高温高压钢丝缠绕胶管为基体,外皮包覆纳米耐火涂料层、不锈钢丝编织层和阻燃层构成。
Special nano-material-insulation resin composite can disperse electric charger It reasonably cooperates with special varnishes (base and top) to make three-layer enamelled magnet wire.
用某些纳米材料与绝缘基体树脂复合,复合物显示出分散电荷的特性;
The invention relates to the welding field, in particular to a gas protection welding wire with nano coating.
本发明涉及焊接领域,特别涉及一种具纳米涂层的气体保护焊丝。
Recently, a breakthrough has been made in the fabrication of the silica nano-wire waveguides. It has many special properties, such as low-loss, strong evanescent-field and so on.
近几年来,微纳光波导在制备技术上获得了突破,并具有很多特殊性质,包括低损耗、强倏逝波场等。
A template of anodic aluminum oxide is prepared first, then a nano-wire is electrodeposited, and on this basis, the template of anodic aluminum oxide and nano-wire are characterized.
首先制备了铝阳极氧化模板,随后通过电镀法制备了纳米线,并对铝阳极氧化模板和纳米线进行了表征。
The nano-alumina dispersion solution can then be mixed with an imide coating to provide for a wire coating to give the wire improved abrasion, COF, and corona resistance.
纳米氧化铝分散体溶液可与酰亚胺涂料混合,提供漆包线漆涂层,得到耐磨性、COF和耐电晕性得到改进的线 材。
Compared to normal stainless steel orthodontic brackets, the nano-TiO_2 ceramic coated orthodontic brackets exhibit good surficial characters: low surface roughness and low bracket-wire friction.
纳米陶瓷涂层直丝弓托槽与国产普通金属直丝弓托槽相比,具有良好的表面光洁度,且托槽-弓丝摩擦力明显减小。
Compared to normal stainless steel orthodontic brackets, the nano-TiO_2 ceramic coated orthodontic brackets exhibit good surficial characters: low surface roughness and low bracket-wire friction.
纳米陶瓷涂层直丝弓托槽与国产普通金属直丝弓托槽相比,具有良好的表面光洁度,且托槽-弓丝摩擦力明显减小。
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