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Materials Science and Technology Volume 7, 1991 - Issue 7
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Articles

Influence of titanium on hot ductility of as cast steels

R. Abushosha
,
R. Vipond
&
B. Mintz
Pages 613-621 | Published online: 18 Jul 2013

Citations (39)

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Read on this site (15)

Ishwar Kapoor, Claire Davis & Zushu Li. (2021) Effects of residual elements during the casting process of steel production: a critical review. Ironmaking & Steelmaking 48:6, pages 712-727.
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T. N. Baker. (2019) Titanium microalloyed steels. Ironmaking & Steelmaking 46:1, pages 1-55.
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A. Qaban, B. Mintz, S. E. Kang & S. Naher. (2017) Hot ductility of high Al TWIP steels containing Nb and Nb-V. Materials Science and Technology 33:14, pages 1645-1656.
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S. E. Kang, J. R. Banerjee, A. Tuling & B. Mintz. (2014) Influence of P and N on hot ductility of high Al, boron containing TWIP steels. Materials Science and Technology 30:11, pages 1328-1335.
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S. E. Kang, J. R. Banerjee, A. S. Tuling & B. Mintz. (2014) Influence of B on hot ductility of high Al, TWIP steels. Materials Science and Technology 30:4, pages 486-494.
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B Mintz & D N Crowther. (2010) Hot ductility of steels and its relationship to the problem of transverse cracking in continuous casting. International Materials Reviews 55:3, pages 168-196.
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C. Spradbery & B. Mintz. (2005) Influence of undercooling thermal cycle on hot ductility of C–Mn–Al–Ti and C–Mn–Al–Nb–Ti steels. Ironmaking & Steelmaking 32:4, pages 319-324.
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H. Luo & P. Zhao. (2001) Influence of excess titanium on hot ductility of C-Mn-Cr-Al steel. Materials Science and Technology 17:12, pages 1589-1595.
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B. Mintz. (2000) Influence of nitrogen on hot ductility of steels and its relationship to problem of transverse cracking. Ironmaking & Steelmaking 27:5, pages 343-347.
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O. Comineli, R. Abushosha & B. Mintz. (1999) Influence of titanium and nitrogen on hot ductility of C–Mn–Nb–Al steels. Materials Science and Technology 15:9, pages 1058-1068.
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R. Abushosha, O. Comineli & B. Mintz. (1999) Influence of Ti on hot ductility of C–Mn–Al steels. Materials Science and Technology 15:3, pages 278-286.
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R. Abushosha, S. Ayyad & B. Mintz. (1998) Influence of cooling rate and MnS inclusions on hot ductility of steels. Materials Science and Technology 14:3, pages 227-235.
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B. Mintz. (1996) Importance of Ar3 temperature in controlling ductility and width of hot ductility trough in steels, and its relationship to transverse cracking. Materials Science and Technology 12:2, pages 132-138.
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B. Mintz & R. Abushosha. (1992) Effectiveness of hot tensile test in simulating straightening in continuous casting. Materials Science and Technology 8:2, pages 171-178.
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B. Mintz, S. Yue & J. J. Jonas. (1991) Hot ductility of steels and its relationship to the problem of transverse cracking during continuous casting. International Materials Reviews 36:1, pages 187-220.
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Articles from other publishers (24)

Alyssa Stubbers & T. John Balk. (2023) Quantitative SAXS Analysis of Precipitate Characteristics Limiting Hot Ductility in HSLA Steels Containing V, Nb & NbTi. ISIJ International 63:6, pages 1044-1053.
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Alexander Zaitsev, Nataliya Arutyunyan & Anton Koldaev. (2023) Hot Ductility, Homogeneity of the Composition, Structure, and Properties of High-Strength Microalloyed Steels: A Critical Review. Metals 13:6, pages 1066.
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Barrie Mintz, Abdullah Qaban & Shin Eon Kang. (2023) The Influence of Small Additions of Alloying Elements on the Hot Ductility of AHSS Steels: A Critical Review Part 2. Metals 13:2, pages 406.
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Marina Gontijo, Arnab Chakraborty, Richard F. Webster, Sergiu Ilie, Jakob Six, Sophie Primig & Christof Sommitsch. (2022) Thermomechanical and Microstructural Analysis of the Influence of B- and Ti-Content on the Hot Ductility Behavior of Microalloyed Steels. Metals 12:11, pages 1808.
Crossref
Ji-Yeon Jeong, Dae-Geun Hong & Chang-Hee Yim. (2022) Deep Learning to Predict Deterioration Region of Hot Ductility in High-Mn Steel by Using the Relationship between RA Behavior and Time-Temperature-Precipitation. Metals 12:10, pages 1689.
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Jacek Komenda, Chunhui Luo & Johan Lönnqvist. (2022) Interaction of Carbon, Titanium, and Boron in Micro-Alloy Steels and Its Effect on Hot Ductility. Alloys 1:2, pages 133-148.
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Carolin Fix, Lukas Borrmann, Sina-Maria Elixmann, Carolin Grahe, Svenja Kurenbach & Dieter Senk. (2021) Investigations on Decreased High Temperature Ductility of Different Continuously Cast Steel Grades. steel research international 92:12.
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Jingyi Zhou, Liguang Zhu, Ligen Sun, Bo Wang & Pengcheng Xiao. (2021) Influence of Nb on the Structure and High Temperature Performance of Billet for High-Rise Structural Steel. Metals 11:11, pages 1721.
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Yaozu Shen, Jianhua Liu, Hao Xu & Hongbo Liu. (2020) High‐Temperature Tensile Properties and Deformation Behavior of Three As‐Cast High‐Manganese Steels. steel research international 92:2.
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Yue Liu, Lin-Xiu Du, Hong-Yan Wu & R. Devesh Kumar Misra. (2019) Hot Ductility and Fracture Phenomena of Low‐Carbon V–N–Cr Microalloyed Steels. steel research international 91:1, pages 1900265.
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Jialiu Lei, Dongnan Zhao, Wei Feng & Zhengliang Xue. (2019) Titanium Distribution Ratio Model of Ladle Furnace Slags for Tire Cord Steel Production Based on the Ion–Molecule Coexistence Theory at 1853 K. Processes 7:11, pages 788.
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Qi Li & Weijie Liu. (2019) Effect of Boron on Hot Ductility and Room-Temperature Tensile Properties of Microalloyed Steels with Titanium and Niobium. Materials 12:14, pages 2290.
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Hongbo Liu, Jianhua Liu, Bowei Wu, Yaozu Shen, Yang He, Hao Ding & Xiaofeng Su. (2017) Effect of Mn and Al contents on hot ductility of high alloy Fe-xMn-C-yAl austenite TWIP steels. Materials Science and Engineering: A 708, pages 360-374.
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Hongbo Liu, Jianhua Liu, Bowei Wu, Xiaofeng Su, Shiqi Li & Hao Ding. (2017) Influence of Ti on the Hot Ductility of High-manganese Austenitic Steels. High Temperature Materials and Processes 36:7, pages 725-732.
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Mohamed Lamine Fares, Abderrazek Darsouni & Jean Le Coze. (2015) Comparing the Hot Ductility Behaviour of Low-Carbon Microalloyed Nb-V-Ti Steels During Two Thermal Cycling Routes: Solutionizing and Precipitation Treatments. steel research international 86:9, pages 1090-1103.
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Weijian Liu, Jing Li, Chengbin Shi & Lu Yu. (2015) Influence of Boron Addition on the Hot Ductility of Low-Carbon Aluminum-Killed Steel. MATERIALS TRANSACTIONS 56:7, pages 1133-1139.
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Kyung Chul Cho, Dong Jun Mun, Yang Mo Koo & Jae Sang Lee. (2011) Effect of niobium and titanium addition on the hot ductility of boron containing steel. Materials Science and Engineering: A 528:10-11, pages 3556-3561.
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Kyung Chul Cho, Dong Jun Mun, Jin Young Kim, Joong Kil Park, Jae Sang Lee & Yang Mo Koo. (2010) Effect of Boron Precipitation Behavior on the Hot Ductility of Boron Containing Steel. Metallurgical and Materials Transactions A 41:6, pages 1421-1428.
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K.R. Carpenter, R. Dippenaar & C.R. Killmore. (2009) Hot Ductility of Nb- and Ti-Bearing Microalloyed Steels and the Influence of Thermal History. Metallurgical and Materials Transactions A 40:3, pages 573-580.
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Maurizo Vedani, David Dellasega & Aldo Mannuccii. (2009) Characterization of Grain-boundary Precipitates after Hot-ductility Tests of Microalloyed Steels. ISIJ International 49:3, pages 446-452.
Crossref
L.H. Chown & L.A. Cornish. (2008) Investigation of hot ductility in Al-killed boron steels. Materials Science and Engineering: A 494:1-2, pages 263-275.
Crossref
Sung K. Kim, Nack J. Kim & June Sung Kim. (2002) Effect of boron on the hot ductility of Nb-containing steel. Metallurgical and Materials Transactions A 33:3, pages 701-704.
Crossref
Xiao Ping Li, Joong Kil Park, Joo Choi & Chang Hee Yim. (1999) The effects of ferritic transformation on hot ductility of medium carbon steel. Metals and Materials 5:1, pages 25-32.
Crossref
B. Garbarz. (1995) The effect of some continuous casting parameters and microalloying elements on the effectiveness of controlling of austenite grain size. Journal of Materials Processing Technology 53:1-2, pages 147-158.
Crossref

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