1) hollow silica spheres
空腔硅球
1.
The polymer cores were removed by calcination and hollow silica spheres with tailored wall thickness were produced.
对复合微球进行热处理除去有机物中心,制备出壁厚可剪裁的空腔硅球。
2) hollow silica microspheres
空腔二氧化硅微球
3) spherical cavity
球形空腔
1.
Resonant characteristics of spherical cavity with a coatingin viscoelastic material;
粘弹性介质中球形空腔嵌入层的共振特性研究
2.
In this paper,a solution on the dynamic response of a spherical cavity in saturated soils is obtained on the basis of Biots theory of two phase medium.
利用Biot饱和土波动理论求解了饱和土中球形空腔内部受周期性动荷载作用下的动力响应,并分析了球形空腔表面排水条件和振动频率对位移和孔隙水压力的影响。
3.
Based on the generally adopted soil model for engineering, an analytic solution of spherical wave propagation problem in a special case for an equally pressurized spherical cavity in saturated space by Laplace transformation which is compared with that of the same problem in a onep_hase elastic space.
本文采用工程上通用的土力学模型,利用Laplace变换求解了饱和土中球面波的传播问题,对一种特殊情形下的均匀受压球形空腔得到了解析解,并与弹性单相介质中均匀受压球形空腔进行了对比,以考察流体对饱和土体动力响应的影响·本文为分析地下结构动力响应提供了一种有效的方法,有重要的工程应用价
4) spherical cavity
球空腔
1.
Dynamic response of spherical cavity in nearly saturated viscoelastic soils;
粘弹性准饱和土中球空腔的动力响应
2.
Dynamic response of spherical cavity in nearly saturated elastic soils;
弹性准饱和土中球空腔的动力响应
5) Si-Al cenosphere
硅-铝空心球
6) spherical cavity expansion
球形空腔扩张
1.
Elasto-plastic analysis of spherical cavity expansion with consideration of material dilatancy;
考虑材料剪胀性的球形空腔扩张问题的弹塑性分析
2.
Based on the spherical cavity expansion and one-dimensional consolidation,an analytical solution of consolidation around a spherical cavity is obtained,and the solution is used to analyze the dissipation of the .
基于球形空腔扩张理论和一维径向固结理论求解得到球形空腔固结解析解,并将其用于分析由透水元件位于探头锥尖部位的CPTU和BAT贯入所引起的超静孔隙水压力的消散,从而推求地基的原位固结系数。
补充资料:空腔
分子式:
CAS号:
性质:(一)用于产生黑体辐射的实验室装置。通常作为与红外辐射光源进行比较的标准。由闭合金属管内部涂黑组成,在管的一端平板上开一个窄缝,当管子被加热时,由狭缝射出的辐射,从实际上和理论上均与预期的黑体辐射相同。(二)在掩模版安装保护膜工艺中,在被安装的保护膜框架面积内,光掩模板与光学透明薄膜之间的未填充空间。
CAS号:
性质:(一)用于产生黑体辐射的实验室装置。通常作为与红外辐射光源进行比较的标准。由闭合金属管内部涂黑组成,在管的一端平板上开一个窄缝,当管子被加热时,由狭缝射出的辐射,从实际上和理论上均与预期的黑体辐射相同。(二)在掩模版安装保护膜工艺中,在被安装的保护膜框架面积内,光掩模板与光学透明薄膜之间的未填充空间。
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