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1)  stutjc-dynamic tensile loadings
动、静态拉伸加载
2)  Static-dynamic tensile loadings
动、静拉伸加载
3)  static tension
静载拉伸
1.
The experiment of the static tension for medium carbon 45# steel was done.
通过开展中碳45#钢试件的静载拉伸实验,采用磁记忆检测技术,研究了在线及离线2种检测环境下、不同加载阶段试件磁信号变化情况。
2.
The variation of the magnetic intensity, Hp(y), in the direction perpendicular to the surface of the 45 carbon steel shaft-shaped tensile specimen with a variable cross-section was determined during the static tension testing.
本文研究了变截面45钢轴状试件静载拉伸过程中表面法向磁场强度Hp(y)值的变化规律。
3.
In order to study the relationship between magnetic memory signal and stress,magnetic memory testing(MMT) technology is employed to detect normal component Hp(y) of scattering magnetic field intensity of 18CrNi4A steel samples in the static tension tests.
为了研究磁记忆信号和应力之间的关系,采用磁记忆方法检测单向静载拉伸后18CrNi4A钢板表面磁场强度法向分量Hp(y)。
4)  static and dynamic loading
静动态加载
1.
Energy analysis of rock structure under static and dynamic loading conditions
静动态加载下岩石结构破坏时的能量分析
5)  static stretch
静态拉伸
1.
Objective To reconstruct tissue-engineered renal tubules in vitro by tissue engineering technique using MDCK cells as seeding cells and liquid collagen combined Matrigel as scaffold, and observe the effects of Matrigel in several concentrations and static stretch on the polarity remodeling of MDCK cells in three-dimensional (3-D) scaffold and on the formation of structures.
目的以MDCK细胞为种子细胞、胶原凝胶复合Matrigel为支架材料,采用组织工程技术体外构建组织工程化肾小管片层,观察不同浓度Matrigel以及静态拉伸作用对MDCK细胞在三维支架中极性重建并形成小管样结构的影响。
6)  static tensile
静态拉伸
1.
The Testwork4 of MTS Sintech 65/G static tensile system was analyzed.
通过对MTS SINTECH 65/G静态拉伸系统Testwork4软件中CREAOR PRIVILEGE的研究分析,编辑开发了金属材料拉伸试验中的试验方法和技术参数,解决了金属材料检验工作中的技术难点。
2.
The static tensile, static compression and shearing property of high strength HS2 glass fiber reinforced composites are measured by the electronic universal strength tester and static strain instrument.
利用电子万能试验机和静态应变仪测定了高强2号玻纤复合板的静态拉伸、静态压缩和剪切性能,得到了较为完整的静态力学性能数据,并对复合材料的拉伸破坏现象进行了分析。
补充资料:拉伸加拈
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性质:一般指合成纤维成形后在塑性状态下进行拉伸并同时加拈的加工过程。可以提高纤维的强度,降低纤维的延伸度,并使纤维获得适当的拈度。有些合成纤维在室温下即具有足够的塑性,如锦纶。有些合成纤维则须在较高的温度才有塑性,如涤纶。参见拉伸和加拈。

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