Effect of Vanadium on the Microstructure and Properties of High Carbon Steel Wires
HU Xian-jun1,2, ZHAO Yu-fei2, WANG Lei1, MA Han1, FANG Feng2
1. Institute of Research of Iron and Steel of ShaSteel, Zhangjiagang 215625, Jiangsu, China 2. School of Materials Science and Engineering of Southeast University, Nanjing 211189, Jiangsu, China
Abstract:Vanadium has obvious effects on the microstructure, mechanical properties and thermo-stability of high carbon steel wire. In high carbon steel, vanadium mostly exists in cementites to reinforce them. The addition of vanadium is beneficial to the refinement of pearlite lamella spacing, and can increase the thermo-stability of cementites, so as to restrain cementite dissolution during steel wire drawing. However, fragmentation occurs to cementites with rich vanadium under a larger drawing strain, and steel wire spheroidization would aggravate during galvanizing, which, compared to non-V-alloyed steel wire, leads to the obvious decline of torsional property no matter V-alloyed steel wire is galvanized or not.
胡显军 , 赵宇飞, 王 雷, 麻 晗, 方 峰. 合金元素钒对高碳钢丝组织与性能的影响[J]. 钢铁, 2014, 49(12): 71-75.
HU Xian-jun, ZHAO Yu-fei, WANG Lei, MA Han, FANG Feng. Effect of Vanadium on the Microstructure and Properties of High Carbon Steel Wires. Iron and Steel, 2014, 49(12): 71-75.
Song H R, Kang E G, Nam W J.Effect of alloying elements on work hardening behavior in cold drawn hyper-eutectoid steel wires[J].Materials Science and Engineering A., 2007, (449-451):1147-1150
[1]
Song H R, Kang E G, Nam W J.Effect of alloying elements on work hardening behavior in cold drawn hyper-eutectoid steel wires[J].Materials Science and Engineering A., 2007, (449-451):1147-1150
[2]
Sychkov A B, Zhigarev M A, Perchatkin A V, et al.High-carbon wire rod made of high-chromium steel[J].Metallurgist, 2006, 50(3-4):183-188
[2]
Sychkov A B, Zhigarev M A, Perchatkin A V, et al.High-carbon wire rod made of high-chromium steel[J].Metallurgist, 2006, 50(3-4):183-188
Khalid F A, Edmonds D V.Interphase precipitation in microalloyed engineering steels and model alloy[J].Materials Science and technology, 1993, (9):384-396
[6]
Khalid F A, Edmonds D V.Interphase precipitation in microalloyed engineering steels and model alloy[J].Materials Science and technology, 1993, (9):384-396
[7]
Tewari S K, Sharma R C.The effect of alloying elements on pearlite growth[J].Metallurgical Transactions A, 1985, (16A):597-603
[7]
Tewari S K, Sharma R C.The effect of alloying elements on pearlite growth[J].Metallurgical Transactions A, 1985, (16A):597-603
[8]
Lagnerborg R, Zajac S.A model for interphase precipitation in V-microalloyed structural steels[J].Metallurgical and Materials Transactions A, 2001, (32A):39-50
[8]
Lagnerborg R, Zajac S.A model for interphase precipitation in V-microalloyed structural steels[J].Metallurgical and Materials Transactions A, 2001, (32A):39-50
[9]
Han K, Mottishaw T D, Wmith G D W, et al..Effect of vanadium addition on nucleation and growth of pearlite in high carbon steel[J].Materials Science and Technology, 1994, (10):955-963
[9]
Han K, Mottishaw T D, Wmith G D W, et al..Effect of vanadium addition on nucleation and growth of pearlite in high carbon steel[J].Materials Science and Technology, 1994, (10):955-963
[10]
Han K, Wmith G D, Edmonds D V.Developments in ultra-high-carbon steels for wire rod production achieved through microalloying additions[J].Materials and design, 1993, 14(1):79-82
[10]
Han K, Wmith G D, Edmonds D V.Developments in ultra-high-carbon steels for wire rod production achieved through microalloying additions[J].Materials and design, 1993, 14(1):79-82
[11]
Han K, Edmonds D V, Smith G D W.Optimization of mechanical properties of high-carbon pearlitic steels with Si and V additions[J].Metallurgical and Materials Transactions A, 2001, (32):1313-1324
[11]
Han K, Edmonds D V, Smith G D W.Optimization of mechanical properties of high-carbon pearlitic steels with Si and V additions[J].Metallurgical and Materials Transactions A, 2001, (32):1313-1324
Yang F, Ma C, Jiang J Q, et al.Effect of cumulative strain on texture characteristics during wire drawing of eutectoid steels[J].Scripta Materialia, 2008, (59):850-853
[16]
Yang F, Ma C, Jiang J Q, et al.Effect of cumulative strain on texture characteristics during wire drawing of eutectoid steels[J].Scripta Materialia, 2008, (59):850-853
[17]
Watte P, Humbeeck J Van, Aernoudt E, et al.Strain ageing in heavily drawn eutectoid steel wires[J].Scripta Materialia, 1996, 34(1):89-95
[17]
Watte P, Humbeeck J Van, Aernoudt E, et al.Strain ageing in heavily drawn eutectoid steel wires[J].Scripta Materialia, 1996, 34(1):89-95