ultimate tensile strength
英 [ˈʌltɪmət ˈtensaɪl streŋθ]
美 [ˈʌltɪmət ˈtensl streŋθ]
网络 极限抗拉强度; 极限拉伸强度; 最大抗拉强度; 极限抗张强度; 拉伸强度
双语例句
- And the breaking point is given there in the third column, and we call that the ultimate tensile strength.
断点在第三列,有举出,我们称之为,极限抗拉强度。 - We can also measure the ultimate tensile strength.
我们仍能测量出,极限抗拉限度。 - The output parameters of the model are three mechanical properties namely ultimate tensile strength ( UTS), yield strength ( YS) and elongation ( ELO).
模型的输出为三个力学性能指标,即抗拉强度、屈服强度和延伸率。 - So we're going to load it up to the point that it will break, and that allows us to measure the ultimate tensile strength.
我们将继续装物体,直到断裂点,这样我们就能测量到,极限抗拉强度的大小。 - The variation of ultimate tensile strength with length for amosite crocidolite, chrysotile is shown in Table 2.10.
铁石棉,青石棉和温石棉的极限抗拉强度随长度的变化情况见表2.10。 - Study on Common Calculating Model for Ultimate Tensile Strength of Steel Fiber Reinforced Concrete
钢纤维混凝土极限抗拉强度普适计算模式研究 - The study shows that, compared with Al, Al-10% Ti has a high porosity, low ultimate tensile strength and elongation, great hardness and excellent wear-behavior.
结果表明:与Al相比,Al-10%Ti复合材料的孔隙率较高,抗拉强度和伸长率较低,硬度和耐磨性较高;V.C高; - By calculating the stress and ultimate tensile strength of coiled tubing, the model for predicting the fatigue life of the coiled tubing is set up.
通过对连续油管应力和最终拉伸强度的计算,建立了连续油管疲劳寿命预测模型。 - For the near eutectic Al-Si-Mg alloy, the combination of Sr-modification and B-refinement was very necessary in practice and it could simultaneously increase the ultimate tensile strength and elongation.
对于近共晶Al-Si-Mg合金,Sr变质+B细化联合熔体处理是非常必要的,可同时显著提高合金的抗拉强度和伸长率。 - Lengthening sintering time, leads to the decrease of ultimate tensile strength.
延长烧结保温时间,则降低烧结件的抗拉强度; - The porosity, ultimate tensile strength, elongation, hardness and sliding wear-behavior of Al-Fe composite fabricated by powder metallurgy followed by hot extrusion were investigated.
采用冷压烧结+热挤压的粉末冶金法制备出Al-10%Fe、Al-20%Fe复合材料,研究了Al-10%Fe、Al-20%Fe复合材料的孔隙率、抗拉强度、伸长率、硬度和耐磨行为。 - In this paper, an engineering calculating method is proposed to evaluate the bursting pressure with the ultimate tensile strength and strain of the material used, which is more simple and accurate.
本文提出一种按照材料的极限拉伸强度及应变以计算爆破压力的工程计算方法。此法较简便且较精确。 - But in horizontal direction both its yield strength and ultimate tensile strength increase, and with channel clearance decreasing they decrease slightly but elongation to failure is also increased.
在横向其屈服强度和抗拉强度均增大,随着通道间隙的减小,屈服强度和抗拉强度略有减小,但断裂延伸率增大。 - Influence of Interfacial Damage on Ultimate Tensile Strength of Cross-Ply Laminates
界面损伤对正交叠层板最终拉伸强度的影响 - And the ultimate tensile strength and elongation of low frequency electromagnetic cast billets are greatly increased.
相对于常规直接水冷铸造,低频电磁铸造提高铸态拉伸强度极限和延伸率。 - The maximum ultimate tensile strength and hardness were reached after aging at 460 ℃ due to the precipitation of coherent phase of fine copper-rich particles.
强度和硬度在460℃时效出现峰值。主要与组织中细小富铜相共格析出有关。的影响极大。 - High temperature oxidation at 1173 K in simulated combustion gas decreases the elongation(δ), yield strength(σ 0.2) and the ultimate tensile strength ( UTS) tested at 1073 K and the strain rate of 10-4 s-1 notably for this alloy.
研究发现:在1173K模拟燃烧气氛中的高温氧化显著降低了该合金在1073K的总延伸率(δ),屈服强度(σ0.2)和最大拉伸强度(UTS)。 - A function of the strength distribution and a failure criterion with the effect of interfacial shear strength are derived and a relationship between the ultimate tensile strength and interfacial shear strength is obtained.
导出了计及界面剪切强度效应的强度分布函数和破坏准则;得到了最终拉伸强度与界面剪切强度的关系。 - Based on the ultimate tensile strength test and extension test under confining pressure, the characteristics of flexible concrete are studied.
通过极限抗拉强度试验和围压作用下的拉伸试验,研究了柔性混凝土的抗拉破坏特性。 - The creep strength of geosynthetics at the designed life by TTS can be determined by the curves of stress vs time. The creep reduction factor is determined with dividing the ultimate tensile strength by long-term creep strength.
利用时温叠加方法得到的移动后的应力-时间曲线,可以直接确定土工合成材料设计寿命时的蠕变强度,抗拉强度除以蠕变强度即为蠕变折减系数。 - The yield strength and ultimate tensile strength increases with the increase of strain rate, while decreases with the increase of the temperature.
界面的屈服强度和最大拉伸强度随应变率的增加而增加,随温度的增加而降低;其塑性和延展性能随应变率的增加而减弱,随温度的增加而增加。 - The yield strength and ultimate tensile strength of the matrix alloy increase with the increase of the reduction, at the forging temperature of 370 ℃.
锻造温度为370℃合金屈服强度和抗拉强度,随变形量的增加而增加。 - Reasonable simplifications of tensile stress versus strain relationship before ultimate tensile strength are conducted according to experimental curves, and the corresponding constitutive equations are also given accordingly. 4.
依据UHTCC直接拉伸应力应变试验曲线,对UHTCC材料在极限抗拉强度之前的应力应变关系进行了合理简化,并给出了相应的抗拉本构方程。 - Ultimate tensile strength and elongation to failure of the alloy increased with the extrusion times increasing. Increasing range decreased with the extrusion times increasing.
随着挤压次数的增加,合金的抗拉强度和延伸率增大,增大的幅度随着挤压次数的增加而变小。 - Compared with the matrix alloy, the ultimate tensile strength decreased.
但与基体合金相比,复合材料的抗拉强度有所降低。