Use of the nanoindentation technique for studying microstructure/crack interactions in the fatigue of 4340 steel |
| |
Authors: | Fan Yang Ashok Saxena Laura Riester |
| |
Affiliation: | (1) 20171 Fairfax, VA;(2) Present address: the School of Materials Science and Engineering, Georgia Institute of Technology, 30332-0245 Atlanta, GA;(3) the High Temperature Materials Laboratory, Oak Ridge National Laboratory, 37831-6062 Oak Ridge, TN |
| |
Abstract: | The objectives of this research are to study the influence of microstructure on the fatigue crack growth behavior in 4340 steel and to explore the application of the nanoindentation technique for determining the plastic deformation zone at a fatigue crack tip. Two heat treatment conditions were chosen for the steel: annealed and quenched plus tempered. The annealed steel consists of coarse pearlite and proeutectoid ferrite, while the quenched and tempered steel consists of fine tempered martensite. Fatigue crack propagation tests were conducted on disklike compact (DCT) specimens. Subsequently, the nanoindentation technique was applied to quantitatively determine the plastic deformation zone at fatigue crack tips. The plastic deformation zone size determined by the nanoindentation test seems larger than the cyclic deformation zone calculated using the fracture mechanics equation, which involves many assumptions. The fatigue crack growth test results show that the annealed steel has a higher resistance to crack growth than the quenched and tempered steel. The fatigue crack in the annealed steel tends to grow along pearlite domain boundaries, or the cementite/ferrite interfaces within a pearlite domain. In contrast, the fatigue crack in the quenched and tempered steel tends to traverse the fine martensite laths. Consequently, the actual crack path in the annealed steel is rougher than in the quenched and tempered steel and more secondary cracks are observed in the annealed steel. |
| |
Keywords: | |
本文献已被 SpringerLink 等数据库收录! |
|