Modelling of precipitation hardening in alloys: effective analytical submodels for impingement and coarsening

机译：合金中沉淀硬化的建模：冲击和粗化的有效分析子模型

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To predict strength evolution of precipitation hardening alloys, a wide range of modelling approaches have been proposed. The most accurate published models are physics-based approaches which use both nanoscale processes with their related constants and parameters, as well as parameters calibrated to one or more macroscale measurements of yield strength of one or more samples. Recent developments in submodels including analytical expressions for volume fraction and size evolution including impingement and coarsening are reviewed. It is also shown that Kampmann-Wagner and JMAK models are generally not consistent with data on the progress of precipitations in the main precipitation hardening Al alloys systems, and improved model formulations are described.

机译：为了预测沉淀硬化合金的强度演变，已经提出了各种各样的建模方法。最准确的公开模型是基于物理学的方法，该方法同时使用纳米级工艺及其相关的常数和参数，以及针对一种或多种样品的一种或多种屈服强度的宏观测量结果校准的参数。审查了子模型的最新进展，包括体积分数和尺寸演变（包括冲击和粗化）的解析表达式。还表明，Kampmann-Wagner和JMAK模型通常与主要沉淀硬化铝合金系统中沉淀进展的数据不一致，并描述了改进的模型公式。

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来源
《International Conference on Processing amp; Manufacturing of Advanced Materials; 20060704-08; Vancouver(CA)》|2006年|P.23652370|共2页
会议地点 Vancouver(CA)
作者
M.J. Starink;
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作者单位

Materials Research Group, School of Engineering Sciences, University of Southampton, Southampton S017 1BJ, UK;

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会议组织
原文格式 PDF
正文语种 eng
中图分类工程材料一般性问题;
关键词
precipitation; kinetics; Kampmann-Wagner; JMAK; 6xxx; 2xxx; 2024;

机译：降水;动力学; Kampmann-Wagner; JMAK; 6xxx; 2xxx; 2024;

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1. Coarsening process and precipitation hardening in Fe_2AlV-strengthened ferritic Fe_(76)Al_(12)V_(12) alloy [J] . PA. Ferreir6s, P.R. Alonso, G.H. Rubiolo Materials Science and Engineering . 2017,第JANa27期

机译：Fe_2AlV强化铁素体Fe_（76）Al_（12）V_（12）合金的粗化工艺和沉淀硬化
2. Investigation and Constitutive Modelling of High Strength 6xxx Series Aluminium Alloy: Precipitation Hardening Responses to FAST (Fast Light Alloys Stamping Technology) and Artificial Ageing [J] . Qun Li Zhang, Saksham Dhawan, Xi Luan, Materials science forum . 2018,第PTa2期

机译：高强度6XXX系列铝合金的研究和本构模拟：沉淀硬化响应快速（快速灯合金冲压技术）和人工老化
3. Precipitation Hardening and Statistical Modeling of the Aging Parameters and Alloy Compositions in Al-Cu-Mg-Ag Alloys [J] . Al-Obaisi A. M., El-Danaf E. A., Ragab A. E., Journal of Materials Engineering and Performance . 2016,第6期

机译：Al-Cu-Mg-Ag合金的时效硬化及时效参数和合金成分的统计模型
4. Modelling of precipitation hardening in alloys: effective analytical submodels for impingement and coarsening [C] . M.J. Starink International Conference on Proceeding amp; Manufacturing of Advanced Materials; 20060704-08; Vancouver(CA) . 2006

机译：合金中沉淀硬化的建模：冲击和粗化的有效分析子模型
5. Mathematical modeling and optimization of precipitation hardening of extrudable aluminum alloys. [D] . Rashid, Muhammad. 1997

机译：可挤压铝合金沉淀硬化的数学建模和优化。
6. Development of Precipitation Hardening Parameters for High Strength Alloy AA 7068 [O] . Julia Osten, Benjamin Milkereit, Michael Reich, 2020

机译：高强度合金AA 7068沉淀硬化参数的发展
7. Microstructure-based modelling of isotropic and kinematic strain hardening in a precipitation-hardened aluminium alloy [O] . Fribourg G., Brechet Y., Deschamps A., 2011

机译：基于微观组织的沉淀硬化铝合金各向同性和运动应变硬化建模
8. PRECIPITATION FROM SUPERSATURATED COPPER – TITANIUM SOLID SOLUTIONS:THE AGING PROCESS AND PRECIPITATION HARDENING IN COPPER – TITANIUM SIDEBAND ALLOYS [R] . W. A. Soffa 1972

机译：过饱和铜 - 钛固体溶液的析出：铜 - 钛合金的老化过程和沉淀硬化

Modelling of precipitation hardening in alloys: effective analytical submodels for impingement and coarsening

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