1
Young Researchers Club, Tehran North Branch, Islamic Azad University, Tehran, Iran
2
Materials science and engineering Division, Mechanical Engineering Department, K.N. Toosi University of Technology, Tehran, Iran
Abstract
The fracture surfaces of PM Cr-Mo steels intensively depends on pores structure, densification, diffusion of alloying elements, contact area between particles (sinter necks), microstructural homogeneity, and type of applied load. Also, knowing about element distribution in PM parts to evaluate what places are good for crack growth, nucleation and coalescenc is important. In this investigation, fracture surfaces and crack growth mechanism for element distribution environments of cracks were studied under the three point bending (TPB) test. In this work, crack growth mechanism in Cr-Mo PM parts with three different densities (6.7, 7 and 7.2 g/cm3), were evaluated accurately. Crack walk occurred in some places that had more alloying elements, particularity molybdenum. In addition, crack route was obtained from among the sharpened porosities and martensite/bainite structures.
E. Ganjeh, , & H. Khorsand, (2022). Evaluation of Microstructure, Quantitative Fractography and Bending Strength in Cr-Mo Powder Metallurgy Steel. Journal of Advanced Materials in Engineering (Esteghlal), 31(1), 29-39.
MLA
E. Ganjeh; H. Khorsand. "Evaluation of Microstructure, Quantitative Fractography and Bending Strength in Cr-Mo Powder Metallurgy Steel". Journal of Advanced Materials in Engineering (Esteghlal), 31, 1, 2022, 29-39.
HARVARD
E. Ganjeh, , H. Khorsand, (2022). 'Evaluation of Microstructure, Quantitative Fractography and Bending Strength in Cr-Mo Powder Metallurgy Steel', Journal of Advanced Materials in Engineering (Esteghlal), 31(1), pp. 29-39.
VANCOUVER
E. Ganjeh, , H. Khorsand, Evaluation of Microstructure, Quantitative Fractography and Bending Strength in Cr-Mo Powder Metallurgy Steel. Journal of Advanced Materials in Engineering (Esteghlal), 2022; 31(1): 29-39.
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