Correlations between intergranular stress corrosion cracking, grain-boundary microchemistry, and grain-boundary electrochemistry for Al-Zn-Mg-Cu alloys

S.P. Knight; N. Birbilis; B.C. Muddle; A.R. Trueman; S.P. Lynch

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Correlations between intergranular stress corrosion cracking, grain-boundary microchemistry, and grain-boundary electrochemistry for Al-Zn-Mg-Cu alloys

机译：Al-Zn-Mg-Cu合金的晶间应力腐蚀开裂，晶界微观化学和晶界电化学之间的关系

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There is little or no correlation between grain-boundary, or matrix, microstructures and stress corrosion cracking (SCC) susceptibility. Grain-boundary microchemistry, especially the copper content of grain-boundary precipitates (GBP) is the most important factor. Further evidence for this is a correlation between the initial open-circuit potential of 'fresh' brittle intergranular fracture surfaces, the copper content of GBP, and the plateau SCC velocities of overaged 7079 and 7075 alloys. Preliminary comparisons of overaged (T7) and peak-aged (T651) material have also been made, and support the view that beneficial effects of overaging on SCC resistance is associated with increasing copper content of GBPs.

机译：晶界或基体，微观结构与应力腐蚀开裂（SCC）敏感性之间几乎没有关联。晶界微化学，尤其是晶界沉淀物（GBP）的铜含量是最重要的因素。对此的进一步证据是“新的”脆性晶间断裂表面的初始开路电势，GBP的铜含量以及过时的7079和7075合金的平稳SCC速度之间的相关性。还对过时效（T7）和峰值时效（T651）材料进行了初步比较，并支持以下观点：过时效对SCC电阻的有益影响与GBPs铜含量的增加有关。

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来源
《Corrosion science》 |2010年第12期|p.4073-4080|共8页
作者
S.P. Knight; N. Birbilis; B.C. Muddle; A.R. Trueman; S.P. Lynch;
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作者单位

ARC Centre of Excellence for Design in Light Metals, Clayton, Australia,School of Aerospace, Mechanical and Manufacturing Engineering, RMIT University, Melbourne, Australia,Defence Science and Technology Organisation, Melbourne, Australia,Defence Materials Technology Centre, Melbourne, Australia;

ARC Centre of Excellence for Design in Light Metals, Clayton, Australia;

ARC Centre of Excellence for Design in Light Metals, Clayton, Australia;

Defence Science and Technology Organisation, Melbourne, Australia,Defence Materials Technology Centre, Melbourne, Australia;

ARC Centre of Excellence for Design in Light Metals, Clayton, Australia,Defence Science and Technology Organisation, Melbourne, Australia;

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正文语种 eng
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关键词
A. aluminium; C. stress corrosion;

机译：铝C.应力腐蚀;

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1. GRAIN-BOUNDARY STRUCTURE EFFECTS ON INTERGRANULAR STRESS CORROSION CRACKING OF ALLOY X-750 [J] . Y. PAN, B. L. ADAMS, T. OLSON Acta Materialia . 1996,第12期

机译：晶界结构对X-750合金晶间应力腐蚀开裂的影响
2. Correlation between stress corrosion cracking resistance and grain-boundary precipitates of a new generation high Zn-containing 7056 aluminum alloy by non-isothermal aging and re-aging heat treatment [J] . Zhou Liang, Chen Kanghua, Chen Songyi, Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics . 2021,第1期

机译：非等温老化和再老化热处理新一代高锌7056铝合金的应力腐蚀抗裂性与晶界沉淀的相关性
3. Grain-boundary modelling of hydrogen assisted intergranular stress corrosion cracking [J] . Benedetti Ivano, Gulizzi Vincenzo, Milazzo Alberto Mechanics of materials . 2018,第FEBa期

机译：氢辅助晶间应力腐蚀开裂的晶界模拟
4. LocALIZED CORROSION AND STRESS CORROSION CRACKING IN AL-ZN-MG-CU ALLOYS 7075 AND 7050 [C] . R. G. Buchheit, C.S. Paglia ECS Meeting . 2003

机译：Al-Zn-Mg-Cu合金7075和7050中的局部腐蚀和应力腐蚀裂解
5. Mechanistic Understanding of Alloy 600 Preferential Intergranular Oxidation: 'Precursor Events of Stress Corrosion Cracking' [D] . Bertali, Giacomo. 2016

机译：合金600优先晶间氧化的机理理解：“应力腐蚀开裂的前兆事件”
6. Data on the effect of homogenization heat treatments on the cast structure and tensile properties of alloy 718Plus in the presence of grain-boundary elements [O] . Seyed Ali Hosseini, Karim Zangeneh Madar, Seyed Mehdi Abbasi 2017

机译：在存在晶界元素的情况下均质化热处理对718Plus合金铸造结构和拉伸性能的影响数据
7. The Effects of Grain-boundary Precipitates on the Stress-Corrosion Cracking of Al-Zn-Mg Alloy [O] . Manabu Miyamoto, Yotaro Murakami 1973

机译：谷物边界沉淀对Al-Zn-Mg合金应力 - 腐蚀裂纹的影响
8. Irradiation-assisted stress corrosion cracking of materials from commercial BWRs: Role of grain-boundary microchemistry [R] . Chung, H M, Ruther, W E, Sanecki, JE, 1993

机译：来自商业BWR的材料的辐照辅助应力腐蚀开裂：晶界微化学的作用

Correlations between intergranular stress corrosion cracking, grain-boundary microchemistry, and grain-boundary electrochemistry for Al-Zn-Mg-Cu alloys

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