The results show that the increasing of material yield strength has a great influence on the flange cracking.
结果表明,材料屈服强度的增加对翻边开裂有很大影响。
By pressing at very much higher temperatures lower pressures are required as the yield strength of the material is lower.
由于很高温度下材料的屈服强度较低,因此只需较低压力就能挤压。
Yield strength elongation-strain corresponding to yield strength of material.
屈服强度伸长—对应于材料屈服强度的应变。
This paper makes the optimum autofrettage analysis of thick-walled cylinder of the material with different yield strength in tension and compression base on the Mohr's yield criterion.
本文运用莫尔屈服准则对承受内压的拉压屈服强度不同材料的厚壁圆筒进行了自增强分析,得到了依赖于材料拉压比的厚壁圆筒的最佳弹塑性界面半径、最佳自增强内压。
The composite was a type of strain rate sensitive material. With the increasing of strain ratio, the yield strength of composite increased firstly and then decreased,...
复合材料是应变率敏感的材料,随着应变速率的增加,其屈服强度先增高后降低,而其单位体积吸收的能量则呈上升的趋势。
Sinter is the main material of iron making. Its strength straightly influences the natural production of blast furnace, and it affects the yield and quality of the pig iron.
烧结矿是高炉炼铁的主要原料之一,其强度的高低直接影响高炉顺行的程度,最终影响到生铁的产量和质量。
For reinforced concrete structure construction with seismic fortification, the yield-strength ratio of steel bar is a very important material quality index.
对于有抗震设防的钢筋混凝土框架结构施工,钢筋屈强比值是个十分重要的材料质量指标。
It is found that the alloying elements segregation in grains and the grain boundary cleanliness control the yield stress value and the tough-strength properties of this material respectively.
发现材料的晶内偏析和奥氏体晶界洁净度分析控制钢的屈服强度和韧度。从而改变了此钢按细化晶粒度控制强韧性的工艺指导思想。
Retain the N80, P110 material original yield strength and tensile strength.
保有了N80、P 110材料良好的屈服强度和抗拉强度。
Such performances of material as tensile strength, yield strength, Charpy energy and COD fracture toughness are tested in experiment.
针对评价中所需要材料的性能数据,对材料做性能测试,测定出材料的拉伸性能、夏比冲击韧性和断裂韧性(COD值)。
These cracks occur when the combination of mechanical and thermal stresses within these local areas pass over the yield strength of the barrel material and are exaggerated during subsequent cooling.
这种失效的原因在这些局部可能是由于机械和热应力的双重作用超过了辊子自身的材质的抗屈服强度所导致的,并且在进一步冷却中还会进一步扩展。
These cracks occur when the combination of mechanical and thermal stresses within these local areas pass over the yield strength of the barrel material and are exaggerated during subsequent cooling.
这种失效的原因在这些局部可能是由于机械和热应力的双重作用超过了辊子自身的材质的抗屈服强度所导致的,并且在进一步冷却中还会进一步扩展。
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