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Mechanical and tribological properties evaluation of plasma-sprayed shape memory alloy coating
Journal of Alloys and Compounds Số , năm 2021 (Tập 863, trang -)
ISSN: 9258388
ISSN: 9258388
DOI: 10.1016/j.jallcom.2021.158599
Tài liệu thuộc danh mục:
Article
English
Từ khóa: Adhesion; Binary alloys; Blending; Bond strength (materials); Chemical bonds; Erosion; Fracture mechanics; Heat transfer; Mechanisms; Metal cladding; Microhardness; Nickel alloys; Nickel steel; Plasma jets; Shape-memory alloy; Sprayed coatings; Thallium alloys; Titanium alloys; Tribology; Atmospheric plasma spray process; Chemical bondings; Erosion mechanisms; Impingement angle; Mechanical and tribological properties; Mechanical interlocking; Solid particle erosion; Stand-off distance (SoD); Plasma spraying
Tóm tắt tiếng anh
In the current investigation, an elemental blending of equiatomic Ni and Ti powder was considered to spray on mild steel by the atmospheric plasma spray process. The results revealed that the coating developed with 120 mm stand-off distance (SOD) has better mechanical properties such as microhardness and adhesion strength. Again, SOD predominantly influences the formation of intermetallics (NiTi, Ni3Ti, Ti2Ni, and TiO) that helps to enhance the microhardness (683.85 HV) as well as the mechanical interlocking and chemical bonding that is solely responsible for the high adhesion strength (43.17 MPa) of the coating. The failure analysis of the coating developed at too high and too low SOD revealed that rapid expansion of gas stream, reduction in enthalpy of particles, improper heat transfer, burning of splat, agglomeration of particles during flight, and oxidation are the key factors responsible for the reduction in mechanical properties of plasma-sprayed Ni-Ti alloy (NITINOL) coatings. In addition to the above, the solid particle erosion analysis revealed the increase in brittleness of the coating with increasing in SOD. The surface morphologies of the eroded surface depict various erosion mechanisms at both 45 and 90 impingement angles such as chip formation, lip formation, plastic deformation, scratches, etc. 2021 Elsevier B.V.