2) tip-to-face roof stability
端面顶板稳定性
1.
Influence of support construction on tip-to-face roof stability has been studied by the use of theoretical analysis and numerical simulation methods under different top coal conditions in fully mechanized top coal caving face.
采用理论分析、数值模拟等方法研究了在综放开采中不同顶煤条件下支架架型对端面顶板稳定性的影响。
3) top-coal stability in tip-to-face area
端面顶煤稳定性
4) interface stability
界面稳定性
1.
Time-dependent interface stability during directional solidification of a single phase alloy(Ⅰ) Theoritical;
单相合金凝固过程时间相关的界面稳定性(I)理论分析
2.
A time-dependent interface stability during directional solidification of a single phase alloy(Ⅱ) Comparison with experimental results;
单相合金凝固过程时间相关的界面稳定性(Ⅱ)实验对比
3.
An interface stability theoretical analysis shows that the temperature field and water vapor concentration field are the main factors affecting frost crystal growth, with the competing and coupling effects of the two fi.
从晶体生长角度解释了各种形状初始霜晶的形成机制;利用界面稳定性理论分析指出:温度场和水蒸气浓度场是影响霜晶生长的主要因素,两者的竞争耦合作用是产生相变和霜晶各种界面演变现象的根本原因;建立了霜晶生长速率与霜晶表面温度及水蒸气分压力相关的数学模型。
5) interfacial stability
界面稳定性
1.
The asymptotic analysis of interfacial stability with surface tension anisotropy for directional solidification of alloys;
各向异性作用下合金定向凝固界面稳定性的渐近分析
2.
The effects of ZSM5 on the electrochemical properties of the PEO-LiClO_4-ZSM5, such as ionic conductivity, lithium ion transference number and interfacial stability with lithium electrode were studied by electrochemical AC im- pedance spectroscopy and steady-state current method.
PEO-LiClO_4-ZSM5/Li电极界面稳定性实验表明PEO-LiClO_4-ZSM5复合聚合物电解质在全固态锂离子电池领域具有良好的应用前景。
3.
AL2 O3/AL alloy composites are manufactured by squeeze casting and the interfacial stability and the tensile strength of the composites are studied at high temperature.
利用挤压铸造制备了Al2O3/Al合金复合材料,研究了在高温下复合材料的界面稳定性和拉伸强度。
6) dough stability
面团稳定性
1.
867),dough stability(r =0.
867),与面团稳定性有良好的正相关性(r=0。
补充资料:连续性与非连续性(见间断性与不间断性)
连续性与非连续性(见间断性与不间断性)
continuity and discontinuity
11an父ux泊g四f“山。麻以角g、.连续性与非连续性(c。nt,n琳t:nuity一)_见间断性与不间断性。and diseo红ti-
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