Access the full text.
Sign up today, get DeepDyve free for 14 days.
Loading next page...
/lp/springer-journals/effects-of-reduction-partitioning-in-two-stage-cold-rolling-on-the-bnLiNvub4P
References (53)
-
Aman Gupta, R. Khatirkar, Amit Kumar, Khushahal Thool, Nitish Bibhanshu, S. Suwas (2019)
Microstructure and texture development in Ti-15V-3Cr-3Sn-3Al alloy – Possible role of strain pathMaterials Characterization
-
R. Siqueira, H. Sandim, T. Oliveira, D. Raabe (2011)
Composition and orientation effects on the final recrystallization texture of coarse-grained Nb-containing AISI 430 ferritic stainless steelsMaterials Science and Engineering A-structural Materials Properties Microstructure and Processing, 528
-
E. Hall (1951)
The Deformation and Ageing of Mild Steel: III Discussion of Results, 64
-
Hou-long Liu, Huan Li, Chengze Liu, Junyu Wu (2023)
Effect of Rolling Reduction on Microstructure and Formability of a Ferritic Stainless SteelJournal of Materials Engineering and Performance
-
P. Modak, S. Patra, R. Mitra, D. Chakrabarti (2018)
Effect of Starting As-cast Structure on the Microstructure–Texture Evolution During Subsequent Processing and Finally Ridging Behavior of Ferritic Stainless SteelMetallurgical and Materials Transactions A, 49
-
M. Campos, F. Landgraf, R. Takanohashi, F. Chagas, I. Falleiros, G. Fronzaglia, H. Kahn (2004)
Effect of the hot band grain size and intermediate annealing on the deformation and recrystallization textures in low silicon electrical steelsIsij International, 44
-
I. Jung, J. Mola, D. Chae, B. Cooman (2010)
Influence of the Cold Rolling and Annealing Sequence on the Ridging Behaviour of Ti‐Stabilized 18% Cr Ferritic Stainless Steelsteel research international, 81
-
Yang Bai, T. He, Yandong Liu (2018)
Effects of Sn microalloying on cold rolling and recrystallization textures and microstructure of a ferritic stainless steelMaterials Characterization, 137
-
Xiaoguang Ma, Jingwei Zhao, W. Du, Zhengyi Jiang (2020)
Effects of cold rolling and annealing on the ridging behaviour of ferritic stainless steelThe International Journal of Advanced Manufacturing Technology, 107
-
H. Inagaki (1994)
Fundamental Aspect of Texture Formation in Low Carbon Steel.Isij International, 34
-
Chi Zhang, Yujie Xu, Liwen Zhang, Xiaoguang Zhou (2020)
Crystal Plasticity Analysis of the Relation between Micro‐Texture and Surface Ridging for a 21%Cr Ferritic Stainless Steelsteel research international, 91
-
G. Cai, Changsheng Li, Dongge Wang, Y. Zhou (2018)
Investigation of annealing temperature on microstructure and texture of Fe-19Cr-2Mo-Nb-Ti ferritic stainless steelMaterials Characterization
-
Xiaoguang Ma, Jingwei Zhao, W. Du, Xin Zhang, Zhengyi Jiang (2018)
Effects of rolling processes on ridging generation of ferritic stainless steelMaterials Characterization, 137
-
Yang Li, Ji-peng Han, Zhou-hua Jiang, P. He (2015)
Effect of tin addition on the microstructure and properties of ferritic stainless steelInternational Journal of Minerals, Metallurgy, and Materials, 22
-
F. Gao, F. Yu, R. Misra, X. Zhang, Shu-min Zhang, Zhenyu Liu (2015)
Microstructure, Texture, and Deep Drawability Under Two Different Cold-Rolling Processes in Ferritic Stainless SteelJournal of Materials Engineering and Performance, 24
-
A. Després, M. Zecevic, R. Lebensohn, J. Mithieux, F. Chassagne, C. Sinclair (2020)
Contribution of intragranular misorientations to the cold rolling textures of ferritic stainless steelsActa Materialia, 182
-
Fei Gao, Qiyong Zhu, Weiwei Xue, Yingjian Chen, Fengyuan Zhang, Yuqi Nan, Shuai Tang, Jingjing Zhang, Di Tie, Xiaohui Cai, Fuxiao Yu, Z. Liu (2023)
Correlation between formability, ridging and recrystallization texture development in ferritic stainless steel fabricated by introducing intermediate annealing during cold rollingMaterials Characterization
-
L. Meng, Hui-hu Lu, Wenqi Li, Hong-Kui Guo, Jing Tian, W. Liang (2021)
High strength and plasticity of AISI 430 ferritic stainless steel achieved by a recrystallization annealing before quenching and partitioning processMaterials Science and Engineering A-structural Materials Properties Microstructure and Processing
-
N. Deeparekha, Aman Gupta, M. Demiral, R. Khatirkar (2020)
Cold rolling of an interstitial free (IF) steel—Experiments and simulationsMechanics of Materials, 148
-
M. Nave, M. Barnett (2004)
Texture change near grain boundaries and triple points in cold-rolled interstitial-free steelMaterials Science and Engineering A-structural Materials Properties Microstructure and Processing, 386
-
Y. Yazawa, M. Muraki, Y. Kato, Oasmu Furukimi (2003)
Effect of Chromium Content on Relationship Between r-value and {111} Recrystallization Texture in Ferritic SteelIsij International, 43
-
Xiaoguang Ma, Jingwei Zhao, W. Du, Xin Zhang, Lai-zhu Jiang, Zhengyi Jiang (2017)
An analysis of ridging of ferritic stainless steel 430Materials Science and Engineering A-structural Materials Properties Microstructure and Processing, 685
-
J. Hamada, Y. Matsumoto, F. Fudanoki, Maeda Shigeru (2003)
Effect of Initial Solidified Structure on Ridging Phenomenon and Texture in Type 430 Ferritic Stainless Steel SheetsIsij International, 43
-
D. Rodrigues, C. Alcântara, T. Oliveira, B. Gonzalez (2019)
The effect of grain size and initial texture on microstructure, texture, and formability of Nb stabilized ferritic stainless steel manufactured by two-step cold rollingJournal of Materials Research and Technology
-
J. Shu, H. Bi, Xin Li, Zhou Xu (2012)
Effect of Ti addition on forming limit diagrams of Nb-bearing ferritic stainless steelJournal of Materials Processing Technology, 212
-
S. Patra, A. Ghosh, J. Sood, L. Singhal, A. Podder, D. Chakrabarti (2016)
Effect of coarse grain band on the ridging severity of 409L ferritic stainless steelMaterials & Design, 106
-
Haitao Yan, H. Bi, Xin Li, Zhou Xu (2009)
Effect of two-step cold rolling and annealing on texture, grain boundary character distribution and r-value of Nb + Ti stabilized ferritic stainless steelMaterials Characterization, 60
-
F. Gao, Y. Chen, Qiyong Zhu, Yuqi Nan, S. Tang, Z. Cai, Fengyuan Zhang, Weiwei Xue, X. Cai, F. Yu, Z. Liu (2023)
Formation of recrystallization texture and its effect on deep drawability for high-purified ferritic stainless steel by two step cold rollingMaterials & Design
-
Cheng Lu, Zhi Fang, Jingyuan Li (2018)
Influence of differential speed rolling ratio on the ridging behavior of ultra purified 17%Cr ferritic stainless steelMaterials Characterization, 135
-
D. Rodrigues, C. Alcântara, D. Santos, Tarcísio Oliveira, B. Gonzalez (2017)
Effects of Annealing Conditions on Recrystallization, Texture, and Average Normal Anisotropy Coefficient of a Niobium‐Stabilized Ferritic Stainless Steelsteel research international, 88
-
R. Ray, J. Jonas, R. Hook (1994)
Cold rolling and annealing textures in low carbon and extra low carbon steelsInternational Materials Reviews, 39
-
H. Abreu, A. Bruno, S. Tavares, R. Santos, S. Carvalho (2006)
Effect of high temperature annealing on texture and microstructure on an AISI-444 ferritic stainless steelMaterials Characterization, 57
-
Zhi-hong Li, S. Xie, Guo-dong Wang, Hai‐Tao Liu (2021)
Dependence of recrystallization behavior and magnetic properties on grain size prior to cold rolling in high silicon non-oriented electrical steelJournal of Alloys and Compounds, 888
-
F Gao, ZY Liu, HT Liu, SM Zhang, AM Dong, YS Hao, GD Wang (2014)
Development ofγ-fibre recrystallisation texture in medium–chromium ferritic stainless steelsMater. Sci. Technol., 30
-
G. Cai, Changsheng Li, Dongge Wang, Y. Zhou (2018)
Texture evolution of annealed Fe-19Cr-2Mo-Nb-Ti ferritic stainless steelProcedia Manufacturing, 15
-
CS da Costa Viana, AL Pinto, FS Candido, RG Matheus (2013)
Analysis of ridging in three ferritic stainless steel sheetsMater. Sci. Technol.
-
Zhi-hong Li, Songtao Xie, Guo-dong Wang, Hai‐Tao Liu (2021)
Ultrathin-gauge high silicon non-oriented electrical steel with high permeability and low core loss fabricated by optimized two-stage cold rolling methodMaterials Characterization
-
Aman Gupta, R. Khatirkar, T. Dandekar, Diksha Mahadule (2021)
Texture development during multi-step cross rolling of a β titanium alloy: Experiments and simulationsJournal of Alloys and Compounds, 850
-
K. Song, Luyang Miao, Yalong Luo, Chi Zhang, Liwen Zhang, Guanyu Deng (2024)
Crystal Plasticity Analysis of the Orientation-Dependent Grain Rotation and Fragmentation Behaviors in Ferritic Stainless Steel During Cold RollingMetals and Materials International
-
HJ Shin, JK An, SH Park, DN Lee (2002)
Simulation of ridging of ferritic stainless steel using crystal plasticity finite element methodMater. Sci. Forum, 408–412
-
S Kodukula, P Karjalainen, D Porter (2021)
Influence of micro-texture distribution and straining direction on the ridging of ferritic stainless steelsISIJ Int., 61
-
Xinwei Wang, Chunju Wang, Yang Liu, Chen Liu, Zhenlong Wang, B. Guo, D. Shan (2021)
An energy based modeling for the acoustic softening effect on the Hall-Petch behavior of pure titanium in ultrasonic vibration assisted micro-tensionInternational Journal of Plasticity, 136
-
Jingyuan Li, Fei Fang, Diyao Su, Shuaiyi Zhang, Yu-lai Chen (2014)
Formability of Sn-containing Ferrite Stainless Steel SheetProcedia Engineering, 81
-
Jun’an Wang, Yongchong Chen, L. Luo, Jichang Chen, Ying He (2021)
Influence of Cold Rolling on the Recrystallization Texture and Ridging of AISI 430 Type Ferritic Stainless SteelJournal of Materials Engineering and Performance, 30
-
R. Siqueira, H. Sandim, T. Oliveira (2008)
Texture evolution in Nb-containing ferritic stainless steels during secondary recrystallizationMaterials Science and Engineering A-structural Materials Properties Microstructure and Processing, 497
-
Sang Cho, Young Lee, W. Bahanan, Jeong Oh, Dong-Ju Kim, Jee-Hyun Kang, Jungho Ryu, I. Widiantara, Y. Ko (2023)
Effect of Reduction Sequence during Rolling on Deformed Texture and Anisotropy of Ferritic Stainless SteelMaterials, 16
-
S. Astafurov, G. Maier, E. Melnikov, V. Moskvina, M. Panchenko, E. Astafurova (2019)
The strain-rate dependence of the Hall-Petch effect in two austenitic stainless steels with different stacking fault energiesMaterials Science and Engineering: A
-
Chi Zhang, Liwen Zhang, Zhenyu Liu (2016)
Improvement of Surface Ridging Resistance of an Ultra-purified Ferritic Stainless Steel by Optimizing Hot Rolling ConditionActa Metallurgica Sinica (English Letters), 29
-
MY Huh, O Engler (2001)
Effect of intermediate annealing on texture, formability and ridging of 17%Cr ferritic stainless steel sheetMater. Sci. Eng., A, 308
-
K. Song, Haochen Ding, Chi Zhang, Liwen Zhang, Guanyu Deng, Huaibei Zheng (2024)
High-resolution simulating of grain substructure in cold rolling and its effects on primary recrystallization in annealing of ferritic stainless steelJournal of Materials Research and Technology
-
M. Huh, Jae‐Hyup Lee, S. Park, O. Engler, D. Raabe (2005)
Effect of Through‐Thickness Macro and Micro‐Texture Gradients on Ridging of 17%Cr Ferritic Stainless Steel Sheetsteel research international, 76
-
Y Ji, Y Xie, S Zhu, B Yan (2017)
Effects of W on microstructure and high-temperature oxidation behavior of ferritic stainless steel weldmentInt. J. Mod. Phys. B, 31
-
M. Barnett, L. Kestens (1999)
Formation of {111} and {111} Textures in Cold Rolled and Annealed IF Sheet SteelIsij International, 39
- Publisher
- Springer Journals
- Copyright
- Copyright © The Author(s) under exclusive licence to The Korean Institute of Metals and Materials 2024
- ISSN
- 1598-9623
- eISSN
- 2005-4149
- DOI
- 10.1007/s12540-024-01821-7
- Publisher site
- See Article on Publisher Site
Abstract
The effect of reduction partitioning in two-stage cold rolling on the microstructure, texture, and ridging resistance of ferritic stainless steel was investigated to obtain the optimal process to improve the surface quality of the sheets. In the present study, four different cold rolling processes were employed: conventional cold rolling without intermediate annealing (i.e., Route 1) and two-stage cold rolling with three different reduction partitionings (i.e., Routes 2, 3, and 4). In Route 1 final annealed sheets, significant surface ridging defects were observed due to relatively large grain sizes, pronounced oriented grain colonies and size grain colonies. The ridging resistance of the final annealed sheets in the two-stage cold rolling process improved compared to Route 1. In two-stage cold rolling, the optimal ridging resistance was obtained when the first-stage cold rolling employed a 50% reduction and the second-stage cold rolling employed an 80% reduction. The results show that the texture is mainly shifted from α-fiber orientation to γ-fiber orientation. Additionally, decreasing the {001} < 110 > orientation volume fraction, improving the uniformity along the γ-fiber texture, increasing the γ-fiber intensity, and decreasing the average grain size of the final annealed sheets can improve the ridging resistance of the sheets. Moreover, eliminating orientation and size of grain colonies to achieve a uniform distribution is a key factor in improving the ridging resistance of the sheets. The appropriate reduction partitioning is a crucial factor in determining the ridging resistance of two-stage cold rolling final annealed sheets.Graphical Abstract[graphic not available: see fulltext]
Journal
Metals and Materials International – Springer Journals
Published: May 1, 2025
Keywords: Ferritic stainless steel; Two-stage cold rolling; Reduction partitioning; Texture; Surface ridging