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1)  internal yield pressure strength
内压屈服强度
2)  compressive yield strength
压缩屈服强度
1.
Based on the compression and tension curves of spherical pores Al foam,the densification starting point,energy absorption,compressive yield strength,and tension properties are investigated.
采用Gibson-Ashby的模型来分析球形孔泡沫纯铝的压缩屈服强度和抗拉强度,吻合效果良好。
2.
Based on compression curves of spherical pores Al foam measured,compressive yield strength and energy absorption were investigated.
在获得球形孔泡沫纯铝压缩应力-应变曲线基础上,研究了泡沫纯铝的压缩屈服强度、吸能能力。
3.
Based on compression curves of spherical pores Al foam, compressive yield strength and energy absorption had been investigated.
采用Gibson-Ashby的模型来分析球形孔泡沫纯铝的压缩屈服强度,吻合良好。
3)  yield strength
屈服强度
1.
Effect of phosphorus on the yield strength of as-quenched GH761 alloy;
磷对GH761合金固溶水淬组织屈服强度的影响
2.
Study of influence factors of yield strength of oil and gas pipeline;
油气管道屈服强度影响因素的研究
3.
A modeling study of the yield strength of HRB335 hot rolled ribbed bar;
HRB335热轧带肋钢筋屈服强度模型研究
4)  yield stress
屈服强度
1.
Based on the plain carbon steel with the chemical composition of 200MPa class steel the products of the yield stress of 400~500 MPa class and high-quality mechanical properties can be produced using the technology of chemistry tightly-tuning and controlled rolling - controlled cooling.
以屈服强度为 2 0 0MPa级的普碳钢为基本成分 ,采用成分微调与控轧控冷工艺相结合的技术路线 ,可将屈服强度提高到 4 0 0~ 5 0 0MPa,同时保证良好的综合性能。
2.
From the tests, a two-stage linear relation has been found between yield stress(σ_s) and strain rate(ε),σ_s=σ_0+klgε.
对4种金属材料进行了应变率为10~(-4)—10~3s~(-1)的拉伸试验,结果表明,屈服强度随应变率的升高分两阶段线性升高。
5)  yielding strength
屈服强度
1.
Yielding behavior of mismatched welded joint and prediction of its yielding strength;
非等强焊接接头屈服行为及屈服强度预测
2.
Mechanical properties of normalized and tempered 12Cr2Mo steel forgings,primarily yielding strength,were on the low side.
汽轮机用12Cr2Mo钢锻件经正火、回火后,其力学性能(主要是屈服强度)偏低,一次热处理后的合格率仅为50%,既造成该钢锻件大量热处理返修,又严重影响了生产周期。
6)  internal yield
内压屈服
补充资料:屈服强度
分子式:
CAS号:

性质:是材料屈服的临界应力值。(1)对于屈服现象明显的材料,刷子服强度就是在屈服点在应力(屈服值);(2)对于屈服现象不明显的材料,与应力-应变的直线关系的极限偏差达到规定值(通常为0.2%的永久形变)时的应力。通常用作固体材料力学机械性能的评价指标,是材料的实际使用极限。因为材料屈服后产生颈缩,应变增大,使材料失去了原有功能。

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