Fabrication and structural characterization of Fe‑Al‑based laminated composites

The paper presents the results of experimental studies of the structural characteristics of layered composites based on the Fe‑Al system; obtained using various solid‑phase methods of material deformation (hydropercussion stamping; cross‑wedge rolling) and a liquid‑phase (metallurgical) method for producing multilayer composites.

1. Mohammad Nejad Fard N.; Mirzadeh H.; Rezayat M.; Cabrera J. M. Accumulative Roll Bonding of Aluminum/Stainless Steel Sheets. J. Ultrafine Grained Nanostruct. Mater; 201; vol. 50 (1); pp. 1–5.

2. Tang C.; Z. Liu; D. Zhou; S. Wu. Surface Treatment with the Cold Roll Bonding Process for an Aluminum Alloy and Mild Steel. Strength of Materials; 2015; vol. 47 (1); pp. 150–155.

3. Chunyang Wang; Yanbin Jiang; Jianxin Xie. Effect of the steel sheet surface hardening state on interfacial bonding strength of embedded aluminum–steel composite sheet produced by cold roll bonding process. Materials Science and Engineering: A; 2016; vol. 652; pp. 51–58.

4. Maleki H.; Bagherzadeh S.; Mollaei-Dariani B.; Abrinia K. Analysis of Bonding Behavior and Critical Reduction of TwoLayer Strips in Clad Cold Rolling Process. Journal of Materials Engineering and Performance; 2013; vol. 22 (4); pp. 917–925.

5. Akramifard H. R.; Mirzadeh H.; Parsa M. H. Cladding of aluminum on AISI 304L stainless steel by cold roll bonding: Mechanism; microstructure; and mechanical properties. Materials Science and Engineering: A; 2014; vol. 613; pp. 232–239.

6. Yang X.; Weng Hao; Tang Chao-lan. Interfacial bonding mechanism of aluminium and steel composites. Advanced Composites Letters; 2018; Vol. 27; Iss. 2; pp. 71–76.

7. Gurevich L.; Trykov Y.; Pronichev D. Investigation on the contact hardening of Al/Steel laminated composites with soft interlayers. WSEAS Transactions on Applied and Theoretical Mechanics; 2014; vol. 9; pp. 275–281.

8. Rafalski I. V.; Lushchik P. E.; Rudnitski F. I. Metallomatrichnye sloistye kompozity na osnove zheleza i alyuminiya: obzor processov polucheniya [Metal‑matrix layered iron‑aluminum‑based composites: an overview of production processes]. Metallurgiya = Metallurgy; Minsk; BNTU Publ.; 2020; vyp. 41; pp. 28–40.

9. Buchner M.; Buchner B.; Buchmayr B. Investigation of different parameters on roll bonding quality of aluminium and steel sheets. International Journal of Material Forming; 2008; vol. 1(1); pp. 1279–1282.

10. Ryabov V. R. Primenenie bimetallicheskih i armirovannyh stalealyuminievyh soedineniy [Application of bimetallic and reinforced steel‑aluminum joints]. Moscow; Metallurgiya Publ.; 1975; 287 p.

11. Kovtunov A. I.; e. a. Sposob polucheniya sloistyh kompozitsyonnyh materialov stal‑alyuminiy [Method for producing layered steel‑aluminum composite materials]. Patent RU; no. 2435 671 C1; 2011.

12. Kovtunov A. I.; e. a. Sposob polucheniya sloistyh kompozitsyonnyh materialov stal‑alyuminiy [Method for producing layered steel‑aluminum composite materials]. Patent RU; no. 2437 770 C1; 2011.