Szczegóły publikacji

Opis bibliograficzny

Effect of heat treatment parameters on microstructure evolution, tensile strength, wear resistance, and fracture behavior of Ni–Ti multilayered composites produced by cross-accumulative roll bonding / Qing Ye, Xuejun Li, Moslem Tayyebi, Amir Hossein Assari, Adelajda Polkowska, Sebastian LECH, Wojciech Polkowski, Morteza Tayebi // Archives of Civil and Mechanical Engineering / Polish Academy of Sciences. Wrocław Branch, Wrocław University of Technology ; ISSN 1644-9665. — 2023 — vol. 23 iss. 1 art. no. 27, s. 1–19. — Bibliogr. s. 18–19, Abstr. — Publikacja dostępna online od: 2022-11-14

Autorzy (8)

  • Ye Qing
  • Li Xuejun
  • Tayyebi Moslem
  • Assari Amir Hossein
  • Polkowska Adelajda
  • AGHLech Sebastian
  • Polkowski Wojciech
  • Tayebi Morteza

Słowa kluczowe

mechanical propertiesfractureannealing treatmentwear testintermetallic compoundslaminated composites

Dane bibliometryczne

ID BaDAP144097
Data dodania do BaDAP2022-12-22
Tekst źródłowyURL
DOI10.1007/s43452-022-00557-8
Rok publikacji2023
Typ publikacjiartykuł w czasopiśmie
Otwarty dostęptak
Czasopismo/seriaArchives of Civil and Mechanical Engineering

Abstract

The last decades have seen a huge growth in the investigation of intermetallic compounds at the interfaces of laminated composites due to their useful features. In this research, effects of the formation of intermetallic compounds on tensile properties and wear resistance of Ni/Ti composites produced by cross-accumulative roll bonding (CARB) process have been examined at different annealing times and temperatures. Scanning electron microscopy (SEM) images demonstrated that the layers were well bonded together, but Ni layers experienced instabilities in light of plastic deformation. The EBSD results showed lamellar structure and crystallographic texture on Ti and Ni layers during plastic deformation. According to X-ray diffractometer (XRD) and energy-dispersive spectrometer (EDS) analyses, NiTi2 and NiTi were present in all annealed samples. The thickness of intermetallic compounds grew with an increase in annealing temperature and time. However, this growth led to a decrease in tensile strength while the values of elongation fluctuated. Based on the results of the wear test, the composite became more resistant to wear when the thickness of intermetallic layers increased. The surfaces of these layers with less roughness and lower coefficients of friction facilitated the movement of steel pin on samples during the wear test. Furthermore, wear mechanisms of adhesion, abrasion, and delamination were observed, and they were more noticeable at higher loads and lower annealing temperatures and times.

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