珠光体钢 meaning in Chinese
pearlitic steel
perlitic steel
perliticsteel
Examples
- Ferritc - pearlitic steels for precipitation hardening from hot - working temperatures ; german version en 10267 : 1998
用于高工作温度的沉淀硬化铁氧-珠光体钢 - Damage constitutive relationship involving void shape variation for pearlitic steel with fine laminar microstructure
考虑微缺陷形状的细片层状珠光体钢的损伤本构模型 - 3 . on the present deformation condition , the cementite in pearlitic steel has more severe plastic deformation capability t - he max shear strain up to 1 . 9 . 4
C方式ecap变形条件使珠光体钢65mn中的渗碳体可以表现出很强的塑性变形能力? ?观察到的最大切变形达到1 . 9的等效真应变。 - In ecap route c , in order to accommodate the severe shear deformation the deformation form of lamellae cementite in pearlitic steel include periodical bending , periodical shearing and shearing fracture etc
在c方式ecap变形中,珠光体钢65mn中的渗碳体以周期性的弯曲变形,周期性的剪切变形,剪切断裂等形式协调ecap的强烈塑性变形。 - Most existing constitutive models do not take into account the interactions between different phases of pearlitic steel and cannot illustrate why such kind of materials has excerllent mechanical properties . it is , therefore , necessary to develop a new method , which can describe the macroscopic behavior , damage and failure of the materials and their micro structural dependence . in this paper , based on a non - classical theory of plasticity and the continuum damage mechanics , a damage evolution based on an ellipsoidal void model for mixed hardening materials is obtained
已有的关于珠光体钢的本构模型多难以考虑珠光体材料的微结构及其相互作用,难以解释珠光体材料何以具有较好的综合力学性能,因此有必要发展一种多层次的细观力学分析方法以研究此材料在复杂加载条件下计及微结构特征的宏观响应特性,使材料的强度、疲劳寿命的预测与其微结构及各组成相的损伤及微观应力应变演化规律联系起来,进而为材料微结构的设计提供依据。