andicate the level of activity and the opening schedules of your site per week ndicate活动和您的站点开头日程表的水平每个星期[translate] atensile elongation at yield 拉伸伸长在出产量[translate]
tensile elongation at yield 青云英语翻译 请在下面的文本框内输入文字,然后点击开始翻译按钮进行翻译,如果您看不到结果,请重新翻译! 翻译结果1翻译结果2翻译结果3翻译结果4翻译结果5 翻译结果1复制译文编辑译文朗读译文返回顶部 正在翻译,请等待... 翻译结果2复制译文编辑译文朗读译文返回顶部...
百度试题 题目Tensile strength 和 elongation at breaking 是表征高分子哪种性能的指标?相关知识点: 试题来源: 解析 答:抗张强度是衡量材料抵抗拉伸破坏的能力。断裂伸长率是衡量材料的脆韧的能力。二者都反映了材料的力学性能。反馈 收藏
Strain Elongation and percentelongation at break Which instrument is used to determine elongation at yield? Contact extensometersare further divided into two types: Clip-on extensometer: They can measure displacements from very small to relatively large. That is from less than 1 mm to over 100 mm...
The yield point is a critical parameter in studying tensile strength at yield. It refers to the point on the stress-strain curve where a significant increase in strain occurs with minimal or no increase in stress. The tensile strength at yield is the stress level at this point and represents...
Twitter Google Share on Facebook tensile strength (redirected fromtensile strengths) Thesaurus Medical Encyclopedia tensile strength n.Abbr.TS The resistance of a material to a force tending to tear it apart, measured as the maximum tension the material can withstand without tearing. ...
Tensile Strength and Elongation At Break 青云英语翻译 请在下面的文本框内输入文字,然后点击开始翻译按钮进行翻译,如果您看不到结果,请重新翻译! 翻译结果1翻译结果2翻译结果3翻译结果4翻译结果5 翻译结果1复制译文编辑译文朗读译文返回顶部 拉伸强度和断裂伸长率...
伸长率(TensileStrain):试片原本标线间的长度因拉伸力的作用产生的变化。 屈服点(YieldPoint):应力应变曲线中,即使荷重不增加,伸长率也开始上升 的时刻称为屈服点。此时的应力为屈服强度(YieldStrength),此时的变形率为 屈服伸长率(ElongationatYield)。 拉伸模量(TensileModulus):在变形率较低的区间,应力与应变通常呈...
As well I thought perhaps the tensile strength and toughness would influence the elongation at break but this is not the case either. My questions is can you base the elongation at break based on the yield and tensile strength. In this example, no you cannot. So what properties determine ...
Analysis of strain rate dependence of tensile elongation for a mechanical milling Al–1.1Mg–1.2Cu alloy tested at 748 K from a dislocation dynamics viewpoint[J] . Tadashi Hasegawa,Kenji Okazaki.Materials Science & Engineering A . 1999 (1)...