1) the Principles of Sunya
空理
2) cavitation
[英][,kævi'teiʃən] [美][,kævə'teʃən]
空蚀机理
1.
The cavitation erosion behavior of inorganic-organic composite zinc-rich paints in 3% NaCl solution was investigated by using a magnetostrictive cavitation facility.
测量了静态和空蚀条件下涂层的极化曲线,比较了常态和阴极保护下空蚀时的腐蚀电流变化,通过分析涂层在静态、空蚀以及阴极保护下空蚀的交流阻抗谱(EIS),进一步探讨了空蚀机理。
3) disposing gob
空区处理
1.
As a result,the model of disposing gob and caving arch was built, which has important insight for the problem of disposing gob of underground mines.
以河北省地方铁矿为研究对象,分析空区形状和岩体失稳冒落规律的关系,运用弹、塑性理论经过推导和分析,确定冒落拱的高度和形状,建立了处理空区的冒落拱模型,对地下开采的矿山空区处理问题上具有普遍指导意义。
2.
Stoping pillars and disposing gobs is an important technical process of underground mine,the quality of Stoping pillars and disposing gobs not only directly influences tne mine’s economic returns and the reclamation of underground useful resources but also in connection with the safety in production and ecological environment of the mine.
矿柱回采和空区处理是地下空场采矿法的一个重要工艺步骤,其工作质量的好坏不仅直接影响着矿山的经济效益和地下有用资源的回收,而且关系到矿山的生产安全与生态环境。
4) vacuum treatment
真空处理
1.
On the techniques of vacuum treatment for the concrete pavements;
混凝土路面真空处理技术
2.
After vacuum treatment with the steam jet system, the content and emission about (UF) resin could meet the requirements of GB/T11718-1999, and the mechanical properties are greatly improved as well.
提出利用废旧纸箱等废纸制品代替木材制造纤维板,经试验发现该技术可行;利用蒸气喷射真空系统对纸质纤维板进行真空处理后,该板材的甲醛含有量和释放量也达到了国家环保规定要求,并且力学性能也有一定的提
5) spatial reasoning
空间推理
1.
Study on Topological Relationship and Spatial Reasoning in GIS;
GIS中拓扑关系及空间推理研究
2.
A hybrid spatial reasoning approach based on fuzzy sets;
一种基于模糊集的混合空间推理方法
3.
Making use of the concept of symmetry group,spatial reasoning is implemented and the construction in group theory for sets of possible relative locations among bodies can be developed.
运用对称群知识进行空间推理,产生了关于物体之间的可能关联位置集合的群论结构,得到两个物体能否装配的必要条件,并举例说明其应用。
6) abandoned stope disposal
空场处理
1.
Mechanism study of abandoned stope disposal in Dongtongyu Gold Mine;
东桐峪金矿空场处理机理研究
补充资料:空理
【空理】
(术语)观人与法为空所显之真理。
(术语)观人与法为空所显之真理。
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