1) interface cementing strength
界面胶结强度
1.
Study on the enhancement mechanism of the interface cementing strength of YLD-1 oil/water well plugging agent;
YLD-1油水井堵漏剂界面胶结强度增强机理研究
2) interface bonding strength
界面结合强度
1.
Finite element simulation of a test model for interface bonding strength between coating and substrate;
涂层与基体界面结合强度测定模型的有限元模拟
2.
The influence of interface bonding strength and plastic-elastic mismatch on the fatigue crack propagation behavior was considered.
采用四点弯曲试样在高频疲劳试验机上对铝基复合层板进行了疲劳试验,采用直流电势法测量裂纹长度,用扫描电镜和光学显微镜观察其疲劳断口及疲劳裂纹形貌,通过对比性试验,考察了组元性能错配和界面结合强度对复合板L-T取向疲劳裂纹扩展行为的影响,并用断裂力学理论对其进行了初步分析。
3.
C/Cu composites with different interface bonding strength have been fabricated by adding Sn,Ni or Fe element to the copper matrix.
本文通过在C/Cu复合材料的Cu基体中添加不同的合金元素(Sn,Ni,Fe)获得不同的界面结合强度,研究了界面结合强度对C/Cu复合材料热膨胀特性的影响规律,并分析了界面结合强度对降温过程中复合材料的收缩特性及残余应变的影响。
3) interfacial bonding strength
界面结合强度
1.
Study on the detection of interfacial bonding strength of coatings(Ⅱ):detecting system of bonding strength;
涂层界面结合强度检测研究(Ⅱ):涂层结合界面应力检测系统
2.
The interfacial bonding strength is a crucial factor in determining ultimate mechanical properties and performances of coatings and thin films, and the life of a specimen or workpiece, apart from the external factors, such as loading conditions.
界面结合强度是涂层/基体材料体系中的一项重要力学性能指标。
3.
At the same time,residual stresses of Ni-P alloy film coated on silicon substrate by laser heat treatment were measured,and effects of residual stress of the film on wear property and interfacial bonding strength were analyzed.
用扫描电镜(SEM)观察了化学沉积Ni-P合金薄膜/单晶硅基体的结构与颗粒度,利用X射线衍射(XRD)技术测试了其化学沉积后的残余应力,测量了激光热处理后残余应力的变化规律,分析了残余应力对磨损性能及界面结合强度的影响。
4) interfacial bond
界面结合强度
1.
This paper presented the influence of repair materials and primers on the interfacial bonds between new and old concretes under various moisture states.
研究了在不同的界面干湿状态下,几种常见的修补材料和界面剂对新旧混凝土界面结合强度的影响。
5) bonding strength
界面结合强度
1.
As the mechanical performance of the interface layer can affect the protective ability of rust oxide layer during the service of weathering steel, the bonding strength between oxide layer and substrate steel was evaluated by means of indentation test.
基于锈层/基体界面结合强度对基体的保护作用有直接影响,通过界面在承受压载时的受力分析,建立数学模型,计算出界面结合强度。
2.
And the phase composition of the transition layer and the bonding strength of the coating to the base material have been studied.
采用电沉积水热合成法和高温煅烧相结合的方法,制备了生物陶瓷涂层,研究了涂层与基体间过渡层的物相组成和界面结合强度。
6) the cohesion strength of weak interface
弱界面结合强度
1.
6 MPa m 1/2 ,when the cohesion strength of weak interface is 1260 MPa.
研究了内生复合钢板的弱界面结合强度对其断裂韧度 K C和应力腐蚀断裂门槛值 K SCC的影响 ,结果表明 :内生复合钢板的 K C和 K SCC随弱界面结合强度的增大先增后减 ,出现一个峰值 ,当内生复合钢板的弱界面结合强度 σwb为 1 2 60 MPa时 ,内生复合钢板的韧化效果最佳 :K C=1 1 0 。
补充资料:表光合强度(见光合强度)
表光合强度(见光合强度)
forecast of sowing or transplanting time
b iaoguanghe qiangdu表光合强度见光合强度
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