1.
Plane Strain Fracture Toughness Testing
平面应变断裂韧度测试的有效性研究
2.
Standard test method for plane-strain fracture toughness of metallic materials
GB/T4161-1984金属材料平面应变断裂韧度Kic试验方法
3.
The Study of High Polymer Bonded Explosives by Measuring the Plane Strain Fracture Toughness;
高聚物粘结炸药平面应变断裂韧度实验研究
4.
Investigation on KIC of As-Deposited Ti-6Al-4V Alloy Fabricated by Laser Solid Forming
Ti-6Al-4V合金激光立体成形沉积态的平面应变断裂韧度
5.
The accepted designation for the plane-strain fracture toughness under these environments is this.
在这些环境下平面应变断裂韧性所采用的符号是这个。
6.
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
7.
Influence of strain fatigue on J_(IC)-the ductile fracture toughness of steels;
应变疲劳对钢材延性断裂韧度J_(IC)的影响
8.
SIZE EFFECT FOR ROCK DYNAMIC FRACTURE TOUGHNESS TESTED WITH CRACKED STRAIGHT THROUGH FLATTENED BRAZILIAN DISC
用中心直裂纹平台巴西圆盘测试岩石动态断裂韧度的尺寸效应
9.
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
10.
Standard test method for surface-crack fracture toughness Kle of metallic plates
GB/T7732-1987金属板材表面裂纹断裂韧度Kle试验方法
11.
CRACK-TIP FRACTURE STRESS UNDER GENERAL YIELDING OF LIGAMENT
韧带全面屈服之后的裂纹顶端断裂应力
12.
EFFECT OF CONCRETE AGE AND STRENGTH ON ITS FRACTURE TOUGHNESS AND CHARACTERISTIC LENGTH
混凝土断裂韧度、特征长度随强度、龄期变化规律
13.
breaking tenacity
断裂强度,抗断韧度,断裂强力
14.
Study on Relation between Fracture toughness and Temperature for Nodular cast iron;
球墨铸铁断裂韧性随温度变化规律的研究
15.
Research of Size Effect Law of Fracture Toughness of Concrete Considered Fracture Process Zone;
考虑过程区的混凝土断裂韧度尺寸效应研究
16.
T-stress’s impact on rock’s fracture toughness and propagation path
T应力对岩石断裂韧度及扩展路径的影响
17.
fine ceramics(advanced ceramics, advanced technical ceramics)-determination of fracture toughness of monolithic ceramics at room temperature by the surface crack in flexure(scf) method
细陶瓷-单块陶瓷常温断裂韧度试验方法-弯曲表面龟裂法
18.
High manganese steels undergo a ductile to brittle transition at low temperature, which is accompanied by a change in the fracture mechanism from dimple fracture to intergranular fracture.
高锰奥氏体钢随温度降低其断裂机制由韧窝状断裂转变到晶界断裂。