1.
Study on the Brittle-Ductile Shearing Zones in the Qixia Limestone in Northern Chaohu
巢北栖霞灰岩中的脆韧性剪切构造的研究
2.
ductile-brittle transition temperature
韧性-脆性转变温度
3.
Financial Fragility,Toughness and Financial Risk
论金融脆弱性、富韧性与金融风险
4.
Study on Mechanism and Criterion for Brittle/Ductile Fracture and Theory of Crack-tip Deformation;
脆性/韧性断裂机理与判据及裂尖变形理论研究
5.
Brittleness of High Strength Concrete and Measures Studied of Reducing the Brittleness and Increasing the Toughness of Concrete;
高强混凝土的断裂脆性及其增韧减脆措施试验研究
6.
Study on Evaluation Method of Brittleness and Toughening Measures of High Strengthen Concrete;
高强混凝土脆性评价方法及其增韧措施的研究
7.
Study on the Technology of Improving Toughness and the Brittleness of High-strength Lightweight Aggregate Concrete;
高强轻集料混凝土的脆性与增韧技术研究
8.
The alloys occur ductile fracture after annealing.
合金热轧态呈脆性准解理断裂,退火后转变为韧性断裂。
9.
Plastic Damage of Mylonite Parent Rock and the Numerical Simulation of Porous Media Brittle Crush;
糜棱岩原岩韧性孔洞损伤和多孔介质脆性破碎过程数值模拟
10.
The Brittle-Ductile Transition and Impact Fracture Surface Morphology of HDPE/E-TMB Blends and HDPE/Elastomer Blends
HDPE/E-TMB共混物和HDPE/弹性体共混物的脆韧转变和断面形态
11.
By way of suitable heat treatment, the tensile fracture morphology changes from brittle intercrystalline fracture to dimple fracture, so the strength and ductility of the alloy is increased.
采用适当的热处理工艺可使合金强韧化 ,拉伸断口由脆性的沿晶断裂变为韧窝状断裂。
12.
Fracture Toughness and Failure Curve of 22NiMoCr3-7 Steel in Ductile-Brittle Transition Range
22NiMoCr3-7钢韧-脆转变区断裂韧度及断裂失效曲线
13.
FRACTURE TOUGHNESS PREDICTION OF A533B-1 STEEL OVER THE DUCTILE-BRITTLE TRANSITION RANGE BASED ON CONSTRAINT EVALUATION
A533B-1钢韧脆转变区断裂韧度预测的约束评估法
14.
There is a closely retationship between the formation of gold deposit and the tectonics, stratigraphy, petrological character, intrusive rocks, Uolcanic rocks and ductile shear zone.
中酸性火山岩是本区主要成矿母岩,韧-脆性剪切带是金矿形成的重要导矿构造。
15.
With the decreasing of heterogeneity, the main failure process presents brittle behavior, and vice versa, with the increasing of heterogeneity, failure process presents ductile behavior.
随著非均匀程度的降低,主破裂呈现脆断模式,而随著非均匀程度的增加而呈现韧性破坏特徵。
16.
After the rubber its connection intensity is bigger than lumber itself, the cellophane tenacious not embrittlement, the green environmental protection also does not have the corrosion, the waterproof performance is high.
胶后其接口处强度大于木材本身,胶膜坚韧不脆裂,绿色环保且无腐蚀、水性能高。
17.
CONCURRENT MEASUREMENT OF TENSILE STRENGTH AND FRACTURE TOUGHNESS OF QUASI-BRITTLE MATERIALS USING U-NOTCHED BEAMS: THEORETICAL ANALYSIS
用U形切槽梁同时测定准脆性材料的拉伸强度和断裂韧度:理论分析
18.
Investigation and Application on Ductile-to-Brittle Transition Behavior of Ice;
冰的韧脆转变行为研究及其工程应用