1) bending rigidity
抗弯刚性
2) resistance stiffness
弹性抗弯刚度
1.
In this paper, the factor that effects the resistance stiffness of the member by contraction caused by temperature and intensity by prestress is studid.
研究了超长连续混凝土结构由于温度、收缩以及预应力产生的截面净拉力对单向受力构件弹性抗弯刚度的影响 ,推导了挠度计算的精确公式 ,给出了近似计算公式。
3) bending rigidity
抗弯刚度
1.
New method to measure the yarn bending rigidity from the yarn-hung configuration;
基于悬挂造型求纱线抗弯刚度的探讨
2.
Research of Bending Rigidity Model of Soybean Protein Fiber Blended Yarn;
大豆蛋白纤维混纺纱的抗弯刚度模型及研究
3.
Study on optimum bending rigidity of seismic wall in frame-shear wall structure;
框架—抗震墙结构抗震墙抗弯刚度的优化研究
4) Flexural Stiffness
抗弯刚度
1.
Identification of sectional flexural stiffness for corroded and cracked reinforced concrete components in marine environment;
海洋环境下锈裂钢筋混凝土构件截面抗弯刚度识别
2.
Calculation method for flexural stiffness of reinforced concrete grid-beam structure;
钢筋混凝土井字梁抗弯刚度的确定
3.
Axial and flexural stiffness of concrete-filled steel tube after exposure to ISO-834 standard fire;
ISO-834标准火灾作用后钢管混凝土的轴压刚度和抗弯刚度
5) bending stiffness
抗弯刚度
1.
Theoretical study of cable tension detection considering bending stiffness
考虑抗弯刚度的索力动力检测法
2.
Effect of cables bending stiffness on active vibration control
抗弯刚度对拉索振动主动控制的影响
3.
The formula of bending stiffness of single-walled carbon nantubes (SWCN) has been derived via molecular mechanics based on analysing the special structure of SWNT,and the value calculated from this formula is in excellent agreement with effective bending stiffness.
通过对单壁碳纳米管的独特结构的仔细分析,运用分子力学方法,得到了单壁碳纳米管抗弯刚度的计算公式,其结果与目前公认的单壁碳纳米管的有效抗弯刚度吻合得很好。
6) flexural rigidity
抗弯刚度
1.
Nonlinear all-range analysis on flexural rigidity of reinforced concrete beams;
钢筋混凝土梁抗弯刚度非线性全过程分析
2.
Planar non-linear free vibration analysis of stay cable considering the effects of flexural rigidity;
考虑抗弯刚度影响的斜拉索面内非线性自由振动分析
3.
The model indicates that the key factors leading to the deflection deformation are the thermal bending moment M and the flexural rigidity EJ formed in solidification process.
结果表明,凝固进程中所形成的热弯矩M及铸件的抗弯刚度EJ是形成挠曲变形的主要原因。
补充资料:弹性刚度常数
分子式:
CAS号:
性质:又称弹性劲度常数。弹性体在单位应力下发生的应变。是弹性体刚度的一种量度。通常用Cij表示,单位为Pa,由于压电体存在二极压电效应,在电学条件不同时,所测得的弹性刚度常数也不相同。在短路条件下测得的弹性刚度常数,称为短路弹性刚度常数,用表示。在开路条件下测得的弹性刚度常数,称为开路弹性刚度常数,用表示。弹性刚度常数共用10个,即、、、、和、、、和。压电陶瓷是弹性体,可用弹性刚度常数进行评价。弹性刚度常数值愈小,弹性体愈容易形变;其值较大,材料比较刚硬。
CAS号:
性质:又称弹性劲度常数。弹性体在单位应力下发生的应变。是弹性体刚度的一种量度。通常用Cij表示,单位为Pa,由于压电体存在二极压电效应,在电学条件不同时,所测得的弹性刚度常数也不相同。在短路条件下测得的弹性刚度常数,称为短路弹性刚度常数,用表示。在开路条件下测得的弹性刚度常数,称为开路弹性刚度常数,用表示。弹性刚度常数共用10个,即、、、、和、、、和。压电陶瓷是弹性体,可用弹性刚度常数进行评价。弹性刚度常数值愈小,弹性体愈容易形变;其值较大,材料比较刚硬。
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参考词条