LOW-CYCLE FATIGUE BEHAVIOR OF DIE-CAST Mg ALLOY AZ91

机译：压铸镁合金AZ91的低循环疲劳行为

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An investigation has been conducted on the influence of microstructure and artificial aging response (T6) on the low-cycle fatigue behavior of super vacuum die-cast (SVDC) AZ91. Fatigue lifetimes were determined from total strain-controlled fatigue tests for strain amplitudes of 0.2%, 0.4% and 0.6%, under fully reversed loading at a frequency of 5 Hz. Cyclic stress-strain behavior was determined using incremental step test (IST) methods. Two locations in a prototype casting with different thicknesses and, therefore, solidification rates, microstructure and porosity, were examined. In general, at all total strain amplitudes fatigue life was unaffected by microstructure refinement and was attributed to significant levels of porosity. Cyclic softening and a subsequent increased cyclic hardening rate, compared to monotonic tests, were observed, independent of microstructure. These results, fractography and damage accumulation processes, determined from met-allographic sectioning, are discussed.

机译：已经研究了组织和人工老化响应（T6）对超真空压铸（SVDC）AZ91的低周疲劳行为的影响。疲劳寿命由总应变控制的疲劳测试确定，在5 Hz的频率完全反向加载下，应变幅度为0.2％，0.4％和0.6％。循环应力-应变行为是使用增量逐步试验（IST）方法确定的。检查了原型铸件中具有不同厚度的两个位置，因此检查了凝固速率，显微组织和孔隙率。通常，在所有总应变幅度下，疲劳寿命都不受微结构细化的影响，并且归因于显着的孔隙率水平。与单调测试相比，观察到循环软化和随后增加的循环硬化速率，而与微观结构无关。讨论了这些结果，形貌和损伤累积过程，这些过程是由金属异形断面确定的。

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《Symposium on magnesium technology;TMS annual meeting exhibition》|2011年|p.61-66|共6页
会议地点 San Diego CA(US);San Diego CA(US)
作者
Luke Rettberg; Warwick Anderson; J. Wayne Jones;
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University of Michigan Gerstacker Building Rm. 1021 2200 Bonisteel Blvd Ann Arbor MI 48109 USA;

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low-cycle fatigue; die-cast AZ91; strain-life; hysteresis loops; incremental step test; cyclic stress-strain; microstructure; fractography; porosity;

机译：低周疲劳； ;压铸AZ91; ;应变寿命;磁滞回线;逐步测试;循环应力应变;微观结构;断层扫描;孔隙率;

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1. Low-Cycle Fatigue Behavior of Die-Cast Mg Alloys AZ91 and AM60 [J] . Luke H. Rettberg, J. Brian Jordon, Mark F. Horstemeyer, Metallurgical and Materials Transactions A . 2012,第7期

机译：压铸镁合金AZ91和AM60的低循环疲劳行为
2. Low-Cycle Fatigue Behavior of Die-Cast Mg Alloys AZ91 and AM60 [J] . LUKE H. RETTBERG, J. BRIAN JORDON, MARK F. HORSTEMEYER Metallurgical and Materials Transactions, A. Physical Metallurgy and Materials Science . 2012,第7期

机译：压铸镁合金AZ91和AM60的低循环疲劳行为
3. Low-cycle fatigue behaviors of hot-rolled AZ91 magnesium alloy under asymmetrical stress-controlled cyclic loadings [J] . Xiao-Min Chen, Y.C. Lin, Jian Chen Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics . 2013,第Null期

机译：非对称应力控制循环载荷下热轧AZ91镁合金的低周疲劳行为
4. LOW-CYCLE FATIGUE BEHAVIOR OF DIE-CAST Mg ALLOY AZ91 [C] . Luke Rettberg, Warwick Anderson, J. Wayne Jones TMS Annual Meeting Exhibition . 2011

机译：压铸镁合金AZ91的低循环疲劳行为
5. The low-cycle fatigue behavior of an alpha-two + beta titanium aluminide alloy. [D] . Stevens, Katherine Anne. 2002

机译：α-2+β铝化钛合金的低周疲劳行为。
6. Strain Rate during Creep in High-Pressure Die-Cast AZ91 Magnesium Alloys at Intermediate Temperatures [O] . Mónica Preciado, Pedro M. Bravo, José Calaf, 2019

机译：中压高温压铸AZ91镁合金蠕变时的应变速率
7. On the distributions of fatigue lives and defect-sizes in the die-cast magnesium alloy AZ91 [O] . Ishihara S., Yoshifuji S., Namito T., 2010

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8. High temperature, low-cycle fatigue of copper-base alloys for rocket nozzles. Part 2: Strainrange partitioning and low-cycle fatigue results at 538 deg C [R] . Conway, J. B., Stentz, R. H., Berling, J. T. 1976

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LOW-CYCLE FATIGUE BEHAVIOR OF DIE-CAST Mg ALLOY AZ91

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