1) specific compress strength
比压缩强度
1.
The results showed that adding glass microspheres could effectively reduce the density of materials and increase the specific compress strength,when the volume fraction ofhollow glass microspheres was about 55 percent,the materials reached thehighest specific .
结果表明,玻璃微珠的加入,能有效降低材料的密度,提高材料的比压缩强度,当空心玻璃微珠体积分数在55%左右时,材料的比压缩强度最大,玻璃微珠表面与树脂基体间界面粘结状况最好,此时玻璃微珠在树脂基体中均匀分散。
2) compression strength
压缩强度
1.
Preparation of high compression strength polyacrylate/polysiloxane interpenetrating network hydrogel;
高压缩强度聚丙烯酸盐/聚硅氧烷互穿网络水凝胶的制备
2.
The compression strength of pitch derived car.
将高温煤沥青和浸渍剂沥青在不同压力下炭化,在2500℃下对所得沥青炭进行石墨化处理;测试了所得沥青炭的体积密度、开孔率;利用扫描电子显微镜(SEM)观察了所得沥青炭的显微结构;利用XRD检测了所得沥青炭石墨化处理后的石墨化度;测试了所得沥青炭的压缩强度。
3.
The structure,thermal stability,especially the effects of isothermal annealing on the microhardness and compression strength of this bulk metallic glass were investigated by X-ray diffraction,differential scanning calorimetry,microhardness and compression tests.
采用X射线衍射(XRD)、示差扫描量热(DSC)、显微硬度及压缩试验等方法研究了非晶合金的结构、热稳定性,特别是等温热处理对其显微硬度与压缩强度的影响。
3) compressive strength
压缩强度
1.
3D fiber waviness model and prediction of compressive strength of stitched laminates;
缝合复合材料层板三维纤维弯曲模型及压缩强度预报
2.
Computational modified model and experimental verification of compressive strength of the X-cor sandwich
X-cor夹层结构压缩强度模型改进与实验验证
3.
Experimental study on uniaxial compressive strengths of artificial freshwater ice
人工淡水冰单轴压缩强度试验研究
4) compression of intensity
强度压缩
5) specific compression strength
比压强度
1.
It found that the compression strain and the permanent compression set values were required to be 20%~25% and under 5% respectively,the specific compression strength was 3.
结果表明,当弹性体的压缩应变在20%/~25%,压缩永久变形率在5%以下时,TPVC比压强度为3。
6) amplitude squeezed light
强度压缩光
1.
Tunable amplitude squeezed light is experimentally generated at low temperature (80 K) in a laser diode with light injection locking from Ti∶sapphire laser.
利用钛宝石激光器注入锁定低温 (80K)下的半导体激光器获得了低于散粒噪声极限 1 1dB、调谐范围为13GHz的强度压缩光 ,并且在实验上与光栅反馈所产生的强度压缩光进行了比较。
补充资料:压缩强度
分子式:
CAS号:
性质:在压缩试验中,试样直至破裂(脆性材料)或产生屈服(非脆性材料)时所承受的最大压缩应力。计算时采用的面积是试样的原始横截面积。在没有明显屈服点的场合,可以用预先设定的偏置屈服点的压应力来定义。压缩强度也是一个重要的力学量,它表征材料抵抗压缩载荷而不失效的能力。
CAS号:
性质:在压缩试验中,试样直至破裂(脆性材料)或产生屈服(非脆性材料)时所承受的最大压缩应力。计算时采用的面积是试样的原始横截面积。在没有明显屈服点的场合,可以用预先设定的偏置屈服点的压应力来定义。压缩强度也是一个重要的力学量,它表征材料抵抗压缩载荷而不失效的能力。
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参考词条