结果表明,短纤维的加入显著提高了SFRC的撕裂强度、10%定伸应力及邵尔A型硬度;
The results showed that the filling of short fiber evidently improved tear strength, modulus at 10%and Shore A hardness of SFRC.
详细研究了尼龙和聚酯短纤维用量对尼龙-天然橡胶和聚酯-氯丁橡胶复合材料的20%定伸应力、拉伸强度及撕裂性能的影响。
The influence of the loading level of nylon and PET short fibres was studied on the physical properties of Nylon-NR and PET-CR Composites, such as 20% modulus, tensile strength and tear resistance.
管子内压应力与管系应力加速了爆漏过程,是造成过热器管撕裂爆口的次要原因。
The inner stresses of the tubes and pipe arrangement stresses are the secondary cause, which accelerated the explosion procedure.
复合材料受到应力作用层间会产生变形,应力过大层间会出现撕裂的现象。
Composite materials will produce distortion between layers for stress action. Too large stress will lead to tearing the layers.
测试结果表明,随着蒙脱土用量的增加,复合材料的定伸应力、拉伸强度和撕裂强度均大幅度提高。
The results showed that the tensile strength, elongation at break and tear strength increased with the OMMT content increasing.
例如,300%定伸应力提高了77%,抗撕裂强度提高了38%。
For instance, 300%modulus was increased by 77% and tear strength by 38%.
例如,300%定伸应力提高了77%,抗撕裂强度提高了38%。
For instance, 300%modulus was increased by 77% and tear strength by 38%.
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