1·C-CAM cones have a much higher resistance to bending stress and therefore exhibit much greater fidelity over their entire operating range.
C - CAM锥盆有弯曲应力高得多的电阻,并因此表现出在它们的整个运行范围大得多的保真度。
2·Advantages: good abrasion resistance, anti slip, elasticity, not easy to break, softness, good stability, extended contraction, good hardness, good bending.
优点:耐磨性佳、防滑、有弹性、不易断裂、柔软度较好、伸延性好、收缩稳定、硬度佳、弯曲性好。
3·The rotating bending fatigue strength is the criterion of resistance to propagation of hot cracks.
旋转弯曲疲劳强度是抗裂纹扩展能力的判据。
4·Strength and bending resistance test, welding heat test and highly accelerated life test (HALT) were retested up to grade.
经瓷体强度实验、抗弯曲实验、耐焊接热实验、加速寿命实验,其各项指标均合格。
5·The results have shown that the blend of CPE with rubber can be used to manufacture "V"-belt having excellent bending and fatigue resistance and low elongation.
结果表明,氯化聚乙烯与橡胶并用制造出性能良好具有优良的耐弯曲、耐疲劳、 伸长率小的V带。
6·Where condition (4) above is not fulfilled, the effective depth of the steel for the calculation of bending resistance in accordance with 6.1 should apply to the layer furthest from the tension face.
凡条件(4)项不符合,该钢计算弯矩的有效深度应符合6.1条,应适用于最远的一层张力。
7·The resistance of nitrided J55 casing to sulfide stress cracking (SSC) was studied by C-ring testing and three-point bending testing under different conditions.
用应力环腐蚀试验和三(四)点弯曲试验研究了某J 55(即石油套管)渗氮套管在不同试验条件下的腐蚀行为,并和未渗氮套管的抗腐蚀性进行了比较。
8·As compared to general coating, gradient coating has even more excellent performances in bending strength, bonding strength, thermal shock resistance, microhardness and thermal stress relaxation.
与一般涂层相比,梯度涂层显示出更为优异的弯曲强度、结合强度、抗热冲击性、显微硬度分布及缓和热应力等性能。
9·This is related not only to the wearability, the surface roughness and the oxidation resistance of coating but also to the hardness, the toughness and the bending strength of carbide alloy A.
这既与涂层的耐磨性、表面粗糙度和抗氧化性能有关,也与硬质合金A的硬度、韧性和抗弯强度有关。
10·The mechanism of vertical bearing capacity root foundation was analyzed, and the improvement of bearing capacity due to the soil compaction and the bending resistance of roots was discussed.
分析了根式基础的受力机理,探讨了根键的挤土效应及抗弯特性对提高基础承载力的作用。