研究了聚合物的热性能、溶解性、材料拉伸性和介电性。
The thermal properties, solubility, tensile properties and dielectric properties were also studied.
本文认为塑料片材的生产方式对其拉伸性能的均匀性有影响。
It is found that the method of production of plastic sheet has influence on uniformity of tensile performance.
加入水不溶剂后,可增强耐水性,提高制品的柔韧性、可拉伸性。
After water insoluble agents are added, the water resistance can be enhanced and the flexibility and the stretchability of the product can be improved.
我们公司生产的张力控制螺栓系统,已经迅速的成为世界使用最多的拉伸性高强度结构螺栓。
The tension Contol bolting system has quickly become the worlds most widely used method of tensioning high strength structural bolts.
研究了PMMA/PET共混纤维的可纺性和拉伸性,并测定了拉伸丝的力学性能、取向和结晶结构。
The spinnability and drawability of PMMA/PET blends were studied. The orientation and crystallization structure were measured by sonic velocity method and X-ray diffraction respectively.
研究人员发现,在生产中通过使用可再生的豆油替代25%的石油,可以增加橡胶的拉伸性,同时减少对环境的影响。
By using renewable soy oil as a 25 per cent replacement for petroleum oil, Ford researchers more than doubled rubber's stretchability and reduced its environmental impact.
拉伸可以帮助人体排出步行过程中产生的乳酸,这将缓和延迟性肌肉酸痛(DOMS)。
Stretching helps to flush out any lactic acid that has built up duringyour walk, which will allay any delayed onset muscle soreness (DOMS).
拉伸可以帮助人体排出步行过程中产生的乳酸,这将缓和延迟性肌肉酸痛(DOMS)。
Stretching helps to flush out any lactic acid that has built up during your walk, which will allay any delayed onset muscle soreness (DOMS).
不管你如何拉伸和折叠,衣服依然可以保持柔软性以及导电性。
The fabric remains flexible and retains its electrical properties even when stretched and folded.
结晶性的塑料受拉伸时,晶体会排列整齐,强度因此增加。
When crystallIne film is stretched, crystals will align themselves In the stretch direction, IncreasIng the film strength.
结果发现:一羟基或羧基化合物能提高氟橡胶混炼胶的防焦烧性,并对压缩永久变形和拉伸强度等有一定的改善。
The results showed that the compound could improve the scorch safety the compression set and the tensile strength of fluororubber compound.
持续的拉伸应力作用,导致盐层上覆盖层差异沉降形成伸展型强制性褶皱。
Under sustained stretching stress, extensional forced folds were formed in the overlying formations of salt beds due to their differential subsidence.
由于试样细观缺陷非均匀性的存在,导致岩石断裂主要由拉伸破坏引起,但拉剪混合破坏仍然存在,并对抗剪强度有较大的影响。
Due to the heterogeneity, rock failure mainly results from tensile damage but shear damage still exists, which has influence on the shear strength.
有效硫化体系的断裂伸长率、拉伸强度、撕裂强度、耐磨性、抗热氧老化性能最好。
The elongation at break, tensile strength and tearing strength of the HVSSBR cured with EV system are the best.
结果发现:一羟基或羧基化合物能提高氟橡胶混炼胶的防焦烧性,并对压缩永久变形和拉伸强度等有一定的改善。
The results showed that the compound could improve the scorch safety, the compression set and the tensile strength of fluororubber compound.
这个关系的重要性在于提供高的屈服和拉伸强度。
The significance of this relationship is providing for high yield and tensile strengths.
而周期性拉伸刺激对成骨细胞的分化、矿化起抑制作用。
Then cyclic stretching inhibited differentiation and mineralization of osteoblasts at all loaded time.
节段性流动增加最多的一个因素1000年在单轴拉伸蠕变。
Segmental mobility increases by up to a factor of 1000 during uniaxial tensile creep.
总结了冲压数值模拟过程中考虑拉伸工艺性时应注意的几个问题。
Some problems needed attention in the process of numerical simulation of stamping when considering the manufacturability of drawing.
表面裂纹萌生原因是拉杆在腐蚀性高炉煤气粉尘和轴向拉伸等工作应力的综合作用下,形成的应力腐蚀裂纹。
The initiation of the cracks was caused by stress corrosion resulting from the co-effect of the corrosive gas dust and the axial tensile stress.
通过拉伸过程应变网格分析,验证了薄板拉伸分散性失稳和集中性失稳的存在。
The diffuse necking and localized necking in the tensile testing of sheet is proved through reseau strain analysis.
铜的应用是有限的,由于其拉伸强度低,耐磨性差,共同氨基酸。
Copper applications are limited due to its low tensile strength, poor resistance to abrasion and common acids.
研究几种二元多相共混物的拉伸强度与组分的结构、界面区相容性、共混组成的关系。
The present investigation deals with the relationship of tensile strength with components structure, interfacial compatibility and blend composition.
TEM观察表明,随着试验温度的降低,拉伸断口附近位错分布不均匀性增大。
Tem observations show that with decreasing the temperature, the inhomogeneity of the dislocation distribution near tensile fracture surfaces is increased.
拉伸时的自然冷却会产生不均匀的产品,快速水冷却拉伸工艺能显著改善管的耐环境应力开裂性,成倍提高其强度。
It showed that a fast cooling after drawing was of benefit to dimensional stability, straightness, environmental stress cracking resistance, and strength of the drawn tubes.
通过对误差的分析,说明由一般的拉伸曲线求解该新型应力应变关系的可行性及可靠性。
Through analyzing error, it was shown the feasibility and the reliability of solving the new relationship of stress and strain by ordinary tensile curve.
通过对误差的分析,说明由一般的拉伸曲线求解该新型应力应变关系的可行性及可靠性。
Through analyzing error, it was shown the feasibility and the reliability of solving the new relationship of stress and strain by ordinary tensile curve.
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