Please use this identifier to cite or link to this item: http://hdl.handle.net/11452/34928
Title: An investigation on the tensile and abrasive wear properties of plain carbon dual phase steels
Authors: Uludağ Üniversitesi/Mühendislik Fakültesi/Makine Mühendisliği Bölümü.
Durmuş, Ali
Bayram, Ali
55964532400
7004197848
Keywords: Materials science
Annealing
Carbon
Grain size and shape
Heat treatment
Mechanical properties
Microstructure
Quenching
Tensile properties
Wear resistance
Abrasive wear properties
Dual phase steels (DPS)
Fibrous needle-like martensites
Optimum mechanical properties
Steel
Deformation-behavior
Martensite
Microstructure
Strain
Morphology
Ductility
Strength
Issue Date: 2004
Publisher: Walter De Gruyter GMBH
Citation: Durmuş, A ve Bayram, A. (2004). “An investigation on the tensile and abrasive wear properties of plain carbon dual phase steels”. Materialprufung, 46(11-12), 571-576.
Abstract: A 0.6 C steel has been studied to determine the effect of morphology of the second-phase martensite on tensile and wear properties of dual phase steels (DPS). For this reason, two different heat treatments (intercritical and intermediate heat treatments) have been applied to the steel in order to obtain different dual-phase. However, one set of intermediate quenched samples was tempered. It was observed that volume fraction of martensite and grain size increased as the annealing temperature and time increased in the intercriticaly annealed steels. The specimens that have different microstructures were subjected to tensile testing and compared according to their heat treatment conditions. It was observed that steels obtained with intermediate quenching (IQ steels) lead to highest tensile strength but low elongation and wear resistance. In contrast to their elongation properties, tempered IQ steels exhibited a lower strength than samples obtained with intermediate quenching. It is argued that optimum mechanical properties in IQ steel can best be achieved by obtaining a microstructure containing fine, fibrous needle-like martensite.
URI: http://hdl.handle.net/11452/34928
ISSN: 0025-5300
Appears in Collections:Scopus
Web of Science

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