1) Room temperature bending test
室温抗弯
2) Room temperature bending strength
室温抗弯强度
3) high temperature bending strength
高温抗弯强度
1.
It was shown that after being sintered at 1550℃ and held for 4h, the high temperature bending strength of ceramic body with 58vol% solids content can reach 14MPa, thus meeting the machine-finishing needs.
实验结果表明,固相含量为58vol%的陶瓷坯体在烧成温度为1550℃,保温时间为4h时,烧成后高温抗弯强度可达14MPa,满足机械加工需要。
4) room tensile strength
室温抗张强度
1.
The room tensile strength of the filament exhibitsa normal distribution.
测定了 SiC(W 芯)纤维的抗张强度,实验表明:对用 CVD 法制备的 SiC(W 芯)纤维的抗张强度测试值随试样标距的增大而降低,其室温抗张强度呈正态分布状态。
5) compressive strength at room temperature
室温抗压强度
1.
The bulk density,compressive strength at room temperature,thermal shock resistance and load-deformation under high temperature of SiC-based ceramic foam filters were measured and contrasted among the products of Foseco(UK) and three Chinese companies.
测量并比较了铸造用碳化硅质泡沫陶瓷过滤器英国Foseco产品和国内三种产品的容重、室温抗压强度、抗热震性和高温负荷变形等。
6) bending
[英][bend] [美][bɛnd]
抗弯
1.
Method for the bending design of concrete beam strengthened with carbon fibre reinforced plastics;
外贴碳纤维增强材料加固混凝土梁的抗弯设计方法
2.
Furthermore,this plan is testified to meet the request of bending and shearing.
经过验算,指出此方案各部分均满足抗弯、抗剪等要求。
3.
Based on the experimental data,the formula for calculating the bending capacity of polypropylene fiber reinforced ferroconcrete slabs is also proposed.
对32组共96块配筋聚丙烯纤维增强钢丝网混凝土板进行了抗弯试验,研究了配筋聚丙烯纤维增强钢丝网混凝土薄板在不同开裂状态下的抗弯承载力,建立了供设计应用的配筋聚丙烯纤维增强钢丝网混凝土薄板抗弯承载力计算公式,并对某一楼板结构采用普通钢筋混凝土和配筋聚丙烯纤维增强钢丝网混凝土两种材料进行了设计对比。
补充资料:抗弯强度
分子式:
分子量:
CAS号:
性质:见弯曲强度。
分子量:
CAS号:
性质:见弯曲强度。
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