Phase formation and mechanical properties of iron-based intermetallic/steel laminate composites
Author:
Publisher
Springer Science and Business Media LLC
Subject
Materials Chemistry,Polymers and Plastics,Materials Science (miscellaneous),Ceramics and Composites
Link
https://link.springer.com/content/pdf/10.1007/s42114-021-00264-7.pdf
Reference28 articles.
1. Fan W, Shan C, Guo H et al (2019) Dual-gradient enabled ultrafast biomimetic snapping of hydrogel materials [J]. Sci Adv 5(4):7174
2. Xie P, Liu Y, Feng M et al (2021) Hierarchically porous Co/C nanocomposites for ultralight high-performance microwave absorption. [J] Advanced Composites and Hybrid Materials 4:173–185
3. Rao V, Soboyejo O, Ritchie O (1992) Ductile-phase toughening and fatigue-crack growth in Nb-reinforced molybdenum disilicide intermetallic composites[J]. Metall Trans A (Physical Metallurgy and Materials, Science) 23(8):2249–2257
4. Srivastava C, Singh T, Chowdhury G et al (2012) Microstructural characteristics of accumulative roll-bonded Ni-Al-based metal-intermetallic laminate composite[J]. J Mater Eng Perform 21(9):1912–1918
5. Rohatgi A, Harach J, Vecchio S et al (2003) Resistance-curve and fracture behavior of Ti–Al3Ti metallic–intermetallic laminate (MIL) composites[J]. Acta Mater 51(10):2933–2957
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