Experimental and simulation studies of strength and fracture behaviors of wind turbine bearing steel processed by high pressure torsion

Authors: Wang, N., Wilches Peña, L.V., Wang, L., Mellor, B.G. and Huang, Y.

Journal: Energies

Volume: 9

Issue: 12

eISSN: 1996-1073

DOI: 10.3390/en9121033

Abstract:

White structure flaking (WSF) has been found to be one of the failure modes in bearing steels under rolling contacts through the formation of cracks associated with a microstructural change called white etching area (WEA). In the present research, the effects of the high-pressure torsion (HPT) process on the microstructure and mechanical properties of an AISI 52100 alloy are studied. An annealed AISI 52100 was subjected to high-pressure torsion at room temperature under a pressure of up to ∼6 GPa for up to three turns. Finite-element modeling (FEM) was used to simulate the process under high-pressure torsion and quasi-constrained conditions to reveal the material property changes occurring in HPT. Scanning electron microscopy and microhardness testing after processing were used to investigate the microstructural and mechanical property evolution of the steel. Strain induced microstructural transformations occur and affect the mechanical properties in a similar way to the well-known white etching area (WEA) found beneath the surface of wind turbine bearings. Here, HPT is used to study the feasibility of creating microstructural changes that are similar to WEA. This paper presents the preliminary results of using HPT to produce WEAs.

Source: Scopus

Experimental and Simulation Studies of Strength and Fracture Behaviors of Wind Turbine Bearing Steel Processed by High Pressure Torsion

Authors: Wang, N., Pena, L.V.W., Wang, L., Mellor, B.G. and Huang, Y.

Journal: ENERGIES

Volume: 9

Issue: 12

ISSN: 1996-1073

DOI: 10.3390/en9121033

Source: Web of Science (Lite)