UTS
英
美
abbr. 抗张强度极限;拉力强度(极限)(Ultimate Tensile Strength); 水下电话系统(Underwater Telephone System); 统一传输系统(Unified Transfer System)
双语例句
- Influence of fibre length on UTS and reliability of mullite/ zl109 Composites
纤维长度对M/ZL109复合材料强度及可靠性的影响 - The Unmanned Turret System ( UTS) is the developing direction for future fire system. The UTS is relatively secure to the crew members when the tank and armored vehicle turret is hit with a high probability.
无人炮塔系统是未来火力系统发展的方向,在坦克和装甲车辆炮塔部分被命中概率高的现实情况下,无人炮塔对乘员来说相对安全。 - At the same time, the Ultimate Tensile Strength ( UTS) has increased remarkably, the transcrystalline fracture of tungsten particles is the major fracture form in the SEM fracture photos.
合金强度也显著增加,断口照片上显示钨晶粒的穿晶断裂为主要的断裂方式。 - 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。 - Objective To discuss the concept of ulnar tunnel at the wrist, the types, causes, traits of compression, diagnosis, and clinical significance of ulnar tunnel syndrome ( UTS).
目的探讨腕尺管的概念,腕尺管综合征的分型、病因、卡压特点、诊断及其临床意义。 - In addition, the mechanical properties ( including the UTS value and microhardness) of the welded joints decreased compared to the welded joint without flux.
涂覆活性剂后,焊接接头的力学性能(包括极限抗拉强度和硬度)降低。 - The results show that the addition of Y and Zn improves YTS values but decreases the UTS and elongation values of as-cast alloys.
结果表明:Y、Zn元素提高了合金的屈服强度但降低了抗拉强度和延伸率。 - The structure homogenization as well as UTS and elongation is related to tempering temperature time, interlayer agent etc.
其组织的均匀程度与抗拉强度、延伸率一样与回火温度、时间及中间层合金的成份有关。 - CW_PA, ceramometal alloy, joined by laser welding machine, was tested by the UTS, SEM and metallographic_examination. The good results show that it can be applied to the clinic.
激光焊接CWPA烤瓷合金,测试其力学性能,作金相,SEM分析,结果表明完全达到临床要求。 - The improvement of YTS is attributed to the grain refinement strengthening of Y and Zn, and to the solid solution strengthening of Zn. The reduction of UTS and elongation are caused by the precipitation of a compound phase along the grain boundary.
Y、Zn元素的细晶强化及Zn元素的固溶强化是屈服强度提高的主要原因;抗拉强度和延伸率的降低是由于化合物相沿晶界析出。