Department of Physical Metallurgy of Non-Ferrous Metals National University of Science and Technology 'MISiS' Leninsky Prospekt 4 Moscow 119049 Russia Shoubra Faculty of Engineering Benha University Shoubra St. 108 Shoubra P.O. 11629 Cairo Egypt;
Department of Physical Metallurgy of Non-Ferrous Metals National University of Science and Technology 'MISiS' Leninsky Prospekt 4 Moscow 119049 Russia;
Superplasticity; Titanium alloys; Constitutive modelling; Activation energy;
机译:使用Arrhenius型本构模型和人工神经网络对近±±钛合金(Ti-2.5Al-1.8Mn)的超塑性变形进行建模
机译:使用Arrhenius型本构模型和人工神经网络对近±±钛合金(Ti-2.5Al-1.8Mn)的超塑性变形进行建模
机译:Arrhenius型本构方程与人工神经网络模型预测12Cr3WV钢高温变形行为的比较研究
机译:钛基合金超塑性变形行为的Arhenius型结构型模型
机译:超塑性Pb-Sn共晶合金的瞬态变形行为和建模。
机译:Johnson Cook改进的Zerilli-Armstrong和Arrhenius型本构模型预测SnSbCu合金压缩流动行为的比较研究
机译:用arrhenius型本构模型和人工神经网络模拟近α钛合金(Ti-2.5al-1.8mn)的超塑性变形