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Effects of molybdenum and vanadium addition on tensile and charpy impact properties of API X70 linepipe steels

Title
Effects of molybdenum and vanadium addition on tensile and charpy impact properties of API X70 linepipe steels
Authors
Kim, YMShin, SYLee, HHwang, BLee, SKim, NJ
POSTECH Authors
Lee, SKim, NJ
Date Issued
Jan-2007
Publisher
MINERALS METALS MATERIALS SOC
Abstract
This study is concerned with the effects of V and Mo addition on tensile and Charpy impact properties of APT X70 linepipe steels. Twelve kinds of steel specimens were produced by varying V and MO additions and rolling conditions. The addition of V and Mo promoted the formation of acicular ferrite (AF), banitic ferrite (BF), and martensite-austenite (MA) constituents, while suppressing the formation of polygonal ferrite (PF) or pearlite (P). The tensile test results indicated that the tensile strength of the specimens rolled in the two-phase region increased with the addition of V and Mo, while the yield strength did not vary much in these specimens except the water-cooled specimens, which showed the increased yield strength with addition of Mo. The tensile strength of specimens rolled in the single-phase region followed by water cooling increased with increasing V and Mo contents. The yield strength, however, did not vary much with increasing V content or with addition of Mo to the low-V alloy. In these specimens, a Substantial increase in the strengths was achieved only when Mo was added to the high-V alloy. The specimens rolled in the single-phase region had higher upper-shelf energy (USE) and lower ductile-brittle transition temperature (DBTT) than the specimens rolled in the two-phase region, because their microstructures were composed of AF and fine PF. According to the electron backscatter diffraction (EBSD) analysis data, the effective grain size in AF was determined by crystallographic packets composed of a few fine grains having similar orientations. Thus, the decreased DBTT in the specimens rolled in the single-phase region could be explained by the decrease in the overall effective grain size due to the presence of AF having smaller effective,grain size.
URI
http://oasis.postech.ac.kr/handle/2014.oak/23239
DOI
10.1007/S11661-007-9
ISSN
1073-5623
Article Type
Article
Citation
METALLURGICAL AND MATERIALS TRANSACTIONS A-PHYSICAL METALLURGY AND MATERIALS SCIENCE, vol. 38A, no. 8, page. 1731 - 1742, 2007-01
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 LEE, SUNG HAK
Dept of Materials Science & Enginrg
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