1) flexural tensile elastic modulus
弯拉弹性模量
1.
With the tests of third point loading to small beam specimens and the axial compressive tests to prism specimens,the flexural tensile elastic modulus and axial compressive elastic modulus were tested separately.
通过小梁试件三分点加荷试验及棱柱体试件轴心抗压试验,分别测试多孔混凝土的弯拉弹性模量与轴心抗压弹性模量。
2.
Carrying out flexural tensile elastic modulus test,and got the relationship between flexural tensile elastic modulus and flexural tensile strength,regarded the corresponding relation table as recommended value.
通过室内试验,研究了振捣贫混凝土与碾压贫混凝土的28d弯拉强度与抗压强度,得出二者之间的相关关系;进行弯拉弹性模量试验,得出贫混凝土28d弯拉弹性模量与弯拉强度之间的关系,据此得出对应关系表作为模量推荐值。
2) Modulus of elasticity
抗弯弹性模量
1.
The objective of this study is to compare three nondestructive methods for evaluating the bending modulus of elasticity(MOE),modulus of rupture(MOR) and compressive strength parallel to grain(σ_c) of Eucalyptus grandia×E.
首先采用3种无损检测设备获得无疵小试样的动态弹性模量,然后进行抗弯弹性模量(MOE)、抗弯强度(MOR)和顺纹抗压强度(σc)的测定,并分析3种无损检测结果与木材强度性质的关系。
2.
The restrain conditions were the design goal of plywood modulus of elasticity parallel and perpendicular to the face grain,panel thickness and number of plies.
从单板压缩率和铺设角度入手,以每层单板厚度为设计变量,单板厚度的加权和最大值为目标函数,同时以胶合板顺纹、横纹抗弯弹性模量和总厚度满足给定设计目标为约束条件,建立了速生树种胶合板弯曲弹性性能优化设计模型。
3) flexural modulus
弯曲弹性模量
4) MOE
抗弯弹性模量
1.
The performance of the board was analyzed with modulus of elastic(MOE) and compressive strength.
为找出最佳的工艺条件 ,对板型结构和原料配方进行了实验研究 ,分析了聚氨酯泡沫塑料和聚氨酯复合包装板材的抗弯弹性模量、抗压强度这两项主要力学指标。
2.
We mainly studied the different influence of bending strength,MOE,flush tensile strength of bamboo was caused by different year-old and thickness of bamboo chick.
本实验主要研究不同年份、不同摆放方向和不同厚度的竹帘对竹木复合材的抗弯强度、抗弯弹性模量和平面抗拉强度的影响,结果表明,抗弯强度、抗弯弹性模量受年份和竹帘厚度的影响比平面抗拉强度所受的影响要小;9mm竹帘的竹木复合材料的平面抗拉强度受不同年份竹材的影响明显。
3.
The density,MOR,MOE,the index of thickness swelling were compared between bamboo and pressed bamboo.
并且对竹材进行三聚氰胺树脂浸渍处理,然后进行热压密实,将其与直接密实的竹材进行密度、抗弯强度、抗弯弹性模量、吸水厚度膨胀率的比较。
5) flexural-tensile modulus
弯拉模量
6) elastic-plastic stretch bending
弹塑性拉弯
补充资料:表观弹性模量
分子式:
CAS号:
性质: 在减震橡胶制品中,由于橡胶与金属黏着界面的形状效应,不能仅由形状尺寸和橡胶的弹性模量来决定不同方向的弹簧常数,为此将表观弹性模量Eap定义为:圆柱形:Eap=(3+4.9355S2)G正方形:Eap=(3+6.580S2)G无限长柱:Eap=(4+3.290S2)G式中G为剪切弹性模量,S为形状因子。
CAS号:
性质: 在减震橡胶制品中,由于橡胶与金属黏着界面的形状效应,不能仅由形状尺寸和橡胶的弹性模量来决定不同方向的弹簧常数,为此将表观弹性模量Eap定义为:圆柱形:Eap=(3+4.9355S2)G正方形:Eap=(3+6.580S2)G无限长柱:Eap=(4+3.290S2)G式中G为剪切弹性模量,S为形状因子。
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