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Canadian Metallurgical Quarterly
The Canadian Journal of Metallurgy and Materials Science
Volume 53, 2014 - Issue 3
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Original Article

Effects of ceramic particles and composition on elastic modulus of low density steels for automotive applications

R. RanaMaterials Design DepartmentTata Steel Europe R&D, 1970CA IJmuiden, The Netherlands;Presently at: Advanced Steel Processing & Products Research CenterDepartment of Metallurgical & Materials Engineering, Colorado School of Mines, Golden, Colorado 80401, USACorrespondence[email protected] [email protected]
&
C. LiuMaterials Design DepartmentTata Steel Europe R&D, 1970CA IJmuiden, The Netherlands
Pages 300-316 | Received 19 Dec 2013, Accepted 07 Mar 2014, Published online: 11 Jun 2014

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Silani Sahoo, Bharat Bhushan Jha & Animesh Mandal. (2021) Powder metallurgy processed TiB2-reinforced steel matrix composites: a review. Materials Science and Technology 37:14, pages 1153-1173.
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S. Sahoo, B. B. Jha, T.S. Mahata, J. Sharma, T. S. R. Ch. Murthy & A. Mandal. (2018) Impression creep behaviour of TiB2 particles reinforced steel matrix composites. Materials Science and Technology 34:16, pages 1965-1975.
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Radhakanta Rana. (2014) High Modulus Steels. Canadian Metallurgical Quarterly 53:3, pages 241-242.
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Articles from other publishers (36)

Kai-yao Wang, Yu-jiao Ke, Jia-sheng Wang, Xin-gang Liu, Wen-wen Zhang, Ying Guo & Gen Sasaki. (2023) Systematic investigation of the microstructure evolution and dynamic recrystallization mechanisms of as-cast Fe–TiB2 composites under different hot deformation parameters. Journal of Materials Research and Technology 27, pages 2833-2846.
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André L. Vidilli, Francisco G. Coury, Gonzalo Gonzalez, Lucas B. Otani, Vicente Amigó & Claudemiro Bolfarini. (2023) Tailoring the Microstructure and Properties of Reinforced FeMnAlC Composites by In-Situ TiB2–TiC–M2B Formation. Metallurgical and Materials Transactions A.
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Shuai Feng, Shuai Guan, Shengbiao Zhang, Shahryar Mooraj, Matthew Luebbe, Xuesong Fan, Kevin A. Beyer, Tianyi Li, Jian Liu, Jian Kong, Peter K. Liaw, Haiming Wen, Simos Gerasimidis & Wen Chen. (2023) Ultrafine-grained Fe-TiB2 high-modulus nanocomposite steel with high strength and isotropic mechanical properties by laser powder bed fusion. Additive Manufacturing 70, pages 103569.
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Ronghua Chen, Weipeng Li, Bochuan Li & Chao Jiang. (2022) In situ experimental study on fracture toughness and damage mechanism of TiB 2 ‐reinforced steel matrix composites . Fatigue & Fracture of Engineering Materials & Structures 46:1, pages 17-31.
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Ronghua Chen, Bochuan Li & Kang Xu. (2022) Effect of particle morphology on fatigue crack propagation mechanism of TiB2-reinforced steel matrix composites. Engineering Fracture Mechanics 274, pages 108752.
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Peng Chen, Xin Xu, Chao Lin, Fuming Yang, Jiachen Pang, Xiaowu Li & Hongliang Yi. (2022) Controlling Carbide Evolution to Improve the Ductility in High Specific Young’s Modulus Steels. Acta Metallurgica Sinica (English Letters) 35:10, pages 1703-1711.
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Xiangtao Deng, Qi Wang, Long Huang, Yi Cao & Zhaodong Wang. (2022) Effect of Solidification and Hot Rolling Processes on Wear Performance of TiC-Reinforced Wear-Resistant Steel. Materials 15:3, pages 729.
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Saeed Taali, Mohammad Reza Toroghinejad & Navid Saeidi. (2021) Architectured lightweight steel composite: evaluation of the effect of geometrical parameters and annealing treatments on deformation behavior. Journal of Materials Research and Technology 15, pages 5414-5427.
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P. Chen, J. Fu, X. Xu, C. Lin, J.C. Pang, X.W. Li, R.D.K. Misra, G.D. Wang & H.L. Yi. (2021) A high specific Young’s modulus steel reinforced by spheroidal kappa-carbide. Journal of Materials Science & Technology 87, pages 54-59.
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B. B. He & J. Q. Zhang. (2021) Size-Dependent Fracture of TiB2 Particles in a Steel Matrix Composite During Nanoindentation Investigation. Metallurgical and Materials Transactions A 52:10, pages 4311-4316.
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Ronghua Chen, Bochuan Li, Yizhuang Li, Xiaogang Wang, Chao Jiang & Mingxin Huang. (2021) Influences of particle fraction and characteristics on damage tolerance of TiB2-reinforced steel matrix composites. Materials Science and Engineering: A 823, pages 141736.
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J. Genée, N. Gey, F. Bonnet, R. A. Lebensohn & S. Berbenni. (2021) Experimental and numerical investigation of key microstructural features influencing the localization of plastic deformation in Fe-TiB2 metal matrix composite. Journal of Materials Science 56:19, pages 11278-11297.
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Y. Z. Li & M. X. Huang. (2021) TiB2-TiC Reinforced Martensitic Steel Fabricated by Conventional Solidification. Metallurgical and Materials Transactions A 52:6, pages 2144-2148.
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B.G. Wang, G.D. Wang, R.D.K. Misra & H.L. Yi. (2021) Increased hot-formability and grain-refinement by dynamic recrystallization of ferrite in an in situ TiB2 reinforced steel matrix composite. Materials Science and Engineering: A 812, pages 141100.
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Qi Wang, Xiangtao Deng, Long Huang, Tianliang Fu, Ye Jia, Chengru Li & Zhaodong Wang. (2021) Effect of (Ti, Mo)<sub>x</sub>C Particle Size on Wear Performance of High Titanium Abrasion-resistant Steel. ISIJ International 61:3, pages 985-992.
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C. Baron, H. Werner & H. Springer. (2021) On the effect of carbon content and tempering on mechanical properties and stiffness of martensitic Fe–18.8Cr–1.8B–xC high modulus steels. Materials Science and Engineering: A 809, pages 141000.
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Hauke Springer & Christian Baron. 2021. High-Performance Ferrous Alloys. High-Performance Ferrous Alloys 291 326 .
Dierk Raabe, Binhan Sun, Alisson Kwiatkowski Da Silva, Baptiste Gault, Hung-Wei Yen, Karo Sedighiani, Prithiv Thoudden Sukumar, Isnaldi R. Souza Filho, Shyam Katnagallu, Eric Jägle, Philipp Kürnsteiner, Navyanth Kusampudi, Leigh Stephenson, Michael Herbig, Christian H. Liebscher, Hauke Springer, Stefan Zaefferer, Vitesh Shah, Su-Leen Wong, Christian Baron, Martin Diehl, Franz Roters & Dirk Ponge. (2020) Current Challenges and Opportunities in Microstructure-Related Properties of Advanced High-Strength Steels. Metallurgical and Materials Transactions A 51:11, pages 5517-5586.
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H. Springer, C. Baron, F. Mostaghimi, J. Poveleit, L. Mädler & V. Uhlenwinkel. (2020) Additive manufacturing of high modulus steels: New possibilities for lightweight design. Additive Manufacturing 32, pages 101033.
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Ronghua Chen, Bochuan Li, Yizhuang Li, Zhicheng Liu, Xiangyun Long, Hongliang Yi, Xiaogang Wang, Chao Jiang & Mingxin Huang. (2020) Revealing the fatigue crack initiation mechanism of a TiB2-reinforced steel matrix composite. International Journal of Fatigue 130, pages 105276.
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Xiaohui Wang, Huanhui Leng, Bo Han, Xiao Wang, Bin Hu & Haiwen Luo. (2019) Solidified microstructures and elastic modulus of hypo-eutectic and hyper-eutectic TiB2-reinforced high-modulus steel. Acta Materialia 176, pages 84-95.
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Y.Z. Li & M.X. Huang. (2018) Revealing the interfacial plasticity and shear strength of a TiB2-strengthened high-modulus low-density steel. Journal of the Mechanics and Physics of Solids 121, pages 313-327.
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Rouholah Ashiri, Hossein Mostaan & Yeong-Do Park. (2018) A Phenomenological Study of Weld Discontinuities and Defects in Resistance Spot Welding of Advanced High Strength TRIP Steel. Metallurgical and Materials Transactions A 49:12, pages 6161-6172.
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Jingwei Zhao & Zhengyi Jiang. (2018) Thermomechanical processing of advanced high strength steels. Progress in Materials Science 94, pages 174-242.
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Jianlei Zhang, Wei He, Yang Yang, Yunhu Zhang, Lian Duan, Zhiping Luo, Changjiang Song & Qijie Zhai. 2018. Advances in Materials Processing. Advances in Materials Processing 1207 1216 .
X.P. Chen, Y.P. Xu, P. Ren, W.J. Li, W.Q. Cao & Q. Liu. (2017) Aging hardening response and β-Mn transformation behavior of high carbon high manganese austenitic low-density Fe-30Mn-10Al-2C steel. Materials Science and Engineering: A 703, pages 167-172.
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H. Springer, C. Baron, A. Szczepaniak, V. Uhlenwinkel & D. Raabe. (2017) Stiff, light, strong and ductile: nano-structured High Modulus Steel. Scientific Reports 7:1.
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Y. Z. Li & M. X. Huang. 2017. Characterization of Minerals, Metals, and Materials 2017. Characterization of Minerals, Metals, and Materials 2017 453 460 .
C. Baron, H. Springer & D. Raabe. (2016) Combinatorial screening of the microstructure–property relationships for Fe–B–X stiff, light, strong and ductile steels. Materials & Design 112, pages 131-139.
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C. Baron, H. Springer & D. Raabe. (2016) Effects of Mn additions on microstructure and properties of Fe–TiB2 based high modulus steels. Materials & Design 111, pages 185-191.
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H. Zhang, H. Springer, R. Aparicio-Fernández & D. Raabe. (2016) Improving the mechanical properties of Fe – TiB2 high modulus steels through controlled solidification processes. Acta Materialia 118, pages 187-195.
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Y. Z. Li, Z. C. Luo, H. L. Yi & M. X. Huang. (2016) Damage Mechanisms of a TiB2-Reinforced Steel Matrix Composite for Lightweight Automotive Application. Metallurgical and Materials Transactions E 3:3, pages 203-208.
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R. Aparicio-Fernández, H. Springer, A. Szczepaniak, H. Zhang & D. Raabe. (2016) In-situ metal matrix composite steels: Effect of alloying and annealing on morphology, structure and mechanical properties of TiB2 particle containing high modulus steels. Acta Materialia 107, pages 38-48.
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H. Springer, R. Aparicio Fernandez, M.J. Duarte, A. Kostka & D. Raabe. (2015) Microstructure refinement for high modulus in-situ metal matrix composite steels via controlled solidification of the system Fe–TiB2. Acta Materialia 96, pages 47-56.
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M.X. Huang, B.B. He, X. Wang & H.L. Yi. (2015) Interfacial plasticity of a TiB 2 -reinforced steel matrix composite fabricated by eutectic solidification. Scripta Materialia 99, pages 13-16.
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Radhakanta Rana, Chris Lahaye & Ranjit Kumar Ray. (2014) Overview of Lightweight Ferrous Materials: Strategies and Promises. JOM 66:9, pages 1734-1746.
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