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机译:贝氏体微观结构与M-A成分对地震抗性结构应用HSLA钢韧性的作用
Centre for Advanced Materials Joining Department of Mechanical & Mechatronics Engineering University of Waterloo Waterloo Ontario N2L 3G1 Canada Department of Advanced Materials Engineering Dong-Evi University Bvsan 47340 Republic of Korea;
Advanced Materials Division Ferrous Alloy Department KIMS Changwon 51508 Republic of Korea;
Advanced Materials Division Ferrous Alloy Department KIMS Changwon 51508 Republic of Korea;
Advanced Materials Division Ferrous Alloy Department KIMS Changwon 51508 Republic of Korea;
EAF Technology Department Team Hyundai Steel Company Incheon 22525 Republic of Korea;
Centre for Advanced Materials Joining Department of Mechanical & Mechatronics Engineering University of Waterloo Waterloo Ontario N2L 3G1 Canada;
Department of Advanced Materials Engineering Dong-Evi University Bvsan 47340 Republic of Korea;
Coarse-grained heat affected zone (CGHAZ); Heat inputs; Fracture toughness; High-strength low-alloy (HSLA) steel; Bainitic microstructures; Martensite-austenite constituent;
机译:M-A成分的分解行为与韧性的恢复高热输入焊接的780和980 MPa级HSLA钢的HAZ韧性劣化及其改进
机译:M-A成分对焊缝热影响区断裂行为的影响:高热输入焊接的780和980 MPa级HSLA钢的热影响区劣化和改善(第五次报告)
机译:HSLA钢的临界粗粒热影响区中M-A成分的裂解破裂萌生
机译:稀土珠光体和M-A成分形成在C-Mn Hsla钢的模拟粗粒热影响区中
机译:钒和其他微合金元素对贝氏体HSLA钢组织和性能的影响
机译:Ms以下回火和回火等温时间对0.53 C贝氏体钢中低温贝氏体强度和韧性的影响
机译:780和980MPA级HSLA钢中高热输入的韧性劣化及其改进焊接HAZ(报告2)。 M-A组成部分的金相研究。
机译:HsLa(高强度/低合金)钢的断裂韧性和显微组织及断裂韧性的冶金起源。