1) Room-temperature fracture mechanisms
室温断裂机理
2) room-temperature fracture toughness
室温断裂韧度
1.
The effects of in-situ SiC particles on room-temperature fracture toughness of the composites were investigated.
以钼、硅、碳粉末为原料,采用湿法混合和原位反应热压一次复合工艺制备了MoSi2以及含不同体积分数原位SiC颗粒的SiCP/MoSi2复合材料,并研究了原位SiC颗粒对该材料室温断裂韧度的影响。
3) room temperature fracture toughness
室温断裂韧性
1.
The room temperature fracture toughness is measured by a three-point bending method.
采用真空非自耗+真空自耗电弧熔炼的方法制备了Nb-Cr系多元合金的母合金锭;对母合金进行了1450℃,24h+1000℃,24h的热处理;采用三点弯曲方法测试了合金的室温断裂韧性;进行了950℃不同时间的氧化实验。
4) fracture mechanism
断裂机理
1.
Effect of loading speed on fracture mechanism of TiAl-based alloys;
加载速度对TiAl基合金断裂机理的影响
2.
Impact fracture mechanism of 10Cr9Mo1VNb steel;
10Cr9 Mo1 VNb钢冲击断裂机理
3.
Interlaminar shear strength and fracture mechanism of quasi-3D C/C composites;
准三维C/C复合材料的层间剪切性能及其断裂机理
6) rupture mechanism
断裂机理
1.
To study the rupture mechanism and fracture design of the structural steel,rupture tests were done on 10 pipes with holes.
为研究结构钢断裂机理及抗断设防,对10个结构钢开孔管试件进行断裂试验,较为精确的记录了试验全程载荷—位移曲线。
2.
In order to study rupture mechanism and fracture design of structural steel,fracture experiments were performed on 25 notched plates.
从整体上看,试验数据离散性较小,为研究结构钢断裂机理及抗断理论提供了可靠的试验依据。
3.
To study rupture mechanism and fracture design of metal,fracture tests and numerical simulation were performed on ten constructional steel tubes with circular holes.
为研究金属的断裂机理及抗断设防,对10个结构钢开孔管进行了断裂试验和数值模拟。
补充资料:107室温硫化硅橡胶
CAS:63148-60-7
中文名称:二甲基羟基封端(硅氧烷与聚硅氧烷)
室温硫化甲基硅橡胶(107型)
107室温硫化硅橡胶
羟基封端的聚二甲基硅氧烷
107室温硫化硅橡胶
英文名称:Siloxanes and silicones, dimethyl hydroxy-terminated
Silicone rubber, methyl RTV 107
Siloxanes and silicones,dimethyl hydroxy-terminated
Silicone rubber,methyl RTV 107
中文名称:二甲基羟基封端(硅氧烷与聚硅氧烷)
室温硫化甲基硅橡胶(107型)
107室温硫化硅橡胶
羟基封端的聚二甲基硅氧烷
107室温硫化硅橡胶
英文名称:Siloxanes and silicones, dimethyl hydroxy-terminated
Silicone rubber, methyl RTV 107
Siloxanes and silicones,dimethyl hydroxy-terminated
Silicone rubber,methyl RTV 107
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