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Materials Science and Technology Volume 1, 1985 - Issue 7
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Articles

Diffusion-controlled growth of ferrite plates in plain-carbon steels

H. K. D. H. Bhadeshia
Pages 497-504 | Published online: 18 Jul 2013

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H. H. Wang, G. Q. Li, X. L. Wan, H. H. Wang, K. C. Nune, Y. Li & K. M. Wu. (2017) Microstructural characteristics and impact toughness in YS690MPa steel weld metal for offshore structures. Science and Technology of Welding and Joining 22:2, pages 133-142.
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M. J. Holzweissig, M. C. Uslu, H.-G. Lambers, D. Canadinc & H. J. Maier. (2013) A Comparative Analysis of Austenite-to-Martensite and Austenite-to-Bainite Phase Transformation Kinetics in Steels. Materials Research Letters 1:3, pages 141-147.
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D. W. Kim, R. S. Qin & H. K. D. H. Bhadeshia. (2009) Transformation texture of allotriomorphic ferrite in steel. Materials Science and Technology 25:7, pages 892-895.
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P.E.J. Rivera­Díaz­del­Castillo & H.K.D.H. Bhadeshia. (2001) Growth of needle and plate shaped particles: theory for small supersaturations, maximum velocity hypothesis. Materials Science and Technology 17:1, pages 25-29.
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J.W. Stewart, J.A. Charles & E.R. Wallach. (2000) Iron–phosphorus–carbon system: Part 3 – Metallography of low carbon iron–phosphorus alloys. Materials Science and Technology 16:3, pages 291-303.
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E. A. Metzbower, G. Spanos, R. W. Fonda & R. A. Vandermeer. (1997) Prediction of microstructure and properties in the heat affected zone of HSLA-100 weldments. Science and Technology of Welding and Joining 2:1, pages 27-32.
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R. C. Reed & H. K. D. H. Bhadeshia. (1992) Kinetics of reconstructive austenite to ferrite transformation in low alloy steels. Materials Science and Technology 8:5, pages 421-436.
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H. K. D. H. Bhadeshia. (1992) Modelling of steel welds. Materials Science and Technology 8:2, pages 123-133.
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A. Ali & H. K. D. H. Bhadeshia. (1990) Nucleation of Widmanstätten ferrite. Materials Science and Technology 6:8, pages 781-784.
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A. A. B. Sugden & H. K. D. H. Bhadeshia. (1989) Thermodynamic estimation of liquidus, solidus Ae 3 temperatures, and phase compositions for low alloy multicomponent steels. Materials Science and Technology 5:10, pages 977-984.
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A. Ali & H. K. D. H. Bhadeshia. (1989) Growth rate data on bainite in alloy steels. Materials Science and Technology 5:4, pages 398-402.
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D. J. Abson & R. J. Pargeter. (1986) Factors influencing as-deposited strength, microstructure, and toughness of manual metal arc welds suitable for C-Mn steel fabrications. International Metals Reviews 31:1, pages 141-196.
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Articles from other publishers (40)

Xiaojie Zhao, Zhinan Yang, Chunlei Zheng, Fucheng Zhang & Xiaoyan Long. (2022) In situ observation of bainitic transformation behavior in medium carbon bainitic steel. Journal of Materials Research and Technology 21, pages 330-338.
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Zhanli Guo & Wei Sha. (2022) Kinetics of ferrite to Widmanstätten austenite transformation in a high-strength low-alloy steel revisited. International Journal of Materials Research 95:8, pages 718-723.
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H. Lebbad, B. Appolaire, Y. Le Bouar & A. Finel. (2021) Insights into the selection mechanism of Widmanstätten growth by phase-field calculations. Acta Materialia 217, pages 117148.
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Avisor Bhattacharya, Kallol Mondal, C.S. Upadhyay & Sandeep Sangal. (2020) A phase-field study on the evolution of Widmanstätten-ferrite plates under mixed-mode of transformation. Computational Materials Science 180, pages 109718.
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Xiaoyan Long, Fucheng Zhang, Zhinan Yang & Ming Zhang. (2019) Study on Bainitic Transformation by Dilatometer and In Situ LSCM. Materials 12:9, pages 1534.
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Chunhe Chu, Yuman Qin, Xuemei Li, Zhinan Yang, Fucheng Zhang, Changhong Guo, Xiaoyan Long & Leilei You. (2019) Effect of Two-Step Austempering Process on Transformation Kinetics of Nanostructured Bainitic Steel. Materials 12:1, pages 166.
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K. Chadha, Z. Ahmed, C. AranasJr.Jr., D. Shahriari & M. Jahazi. (2018) Influence of strain rate on dynamic transformation of austenite in an as-cast medium-carbon low-alloy steel. Materialia 1, pages 155-167.
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Harshad Bhadeshia & Robert Honeycombe. 2017. Steels: Microstructure and Properties. Steels: Microstructure and Properties 59 100 .
Santigopal Samanta, Pinaki Biswas, Sushil Giri, Shiv Brat Singh & Saurabh Kundu. (2016) Formation of bainite below the M temperature: Kinetics and crystallography. Acta Materialia 105, pages 390-403.
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Maeva Cottura, Benoît Appolaire, Alphonse Finel & Yann Le Bouar. (2015) Plastic relaxation during diffusion-controlled growth of Widmanstätten plates. Scripta Materialia 108, pages 117-121.
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Wei Yan, Namin Xiao, Yun Chen & Dianzhong Li. (2014) Phase-field modeling of Widmanst?tten ferrite formation during isothermal transformation in low carbon steels. Computational Materials Science 81, pages 503-509.
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H.K.D.H. Bhadeshia. 2014. Physical Metallurgy. Physical Metallurgy 2157 2214 .
Elena Pereloma, Hossein Beladi, Laichang Zhang & Ilana Timokhina. (2011) Understanding the Behavior of Advanced High-Strength Steels Using Atom Probe Tomography. Metallurgical and Materials Transactions A 43:11, pages 3958-3971.
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H. Bhadeshia. (2010) Phase transformations contributing to the properties of modern steels. Bulletin of the Polish Academy of Sciences: Technical Sciences 58:2, pages 255-265.
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N.V. Luzginova, L. Zhao & J. Sietsma. (2008) Bainite formation kinetics in high carbon alloyed steel. Materials Science and Engineering: A 481-482, pages 766-769.
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E.V. Pereloma, I.B. Timokhina, M.K. Miller & P.D. Hodgson. (2007) Three-dimensional atom probe analysis of solute distribution in thermomechanically processed TRIP steels. Acta Materialia 55:8, pages 2587-2598.
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Si Xin Zhao, Wei Wang & Da Li Mao. (2007) On Bainite Nucleation at Carbon Depleted Zone around Edge Dislocation. Key Engineering Materials 334-335, pages 121-124.
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N.V. Luzginova, L. ZhaoAurelie Wauthier & Jilt Sietsma. (2005) The Kinetics of the Isothermal Bainite Formation in 1%C-1.5%Cr Steel. Materials Science Forum 500-501, pages 419-428.
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H.I. Aaronson & G.J. Shiflet. (2005) Discussion to “Determination of carbon content in bainitic ferrite and carbon distribution in austenite by using CBKLDP” by M.-X. Zhang and P.M. Kelly, Materials Characterization (1998) 40 159–168. Materials Characterization 54:2, pages 177-181.
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Carlos CapdevilaFrancisca G. CaballeroDavid San MartínMaría Jesús SantofimiaCarlos García de Andrés. (2003) The Influence of Titanium and Vanadium on Isothermal Growth Kinetics of Allotriomorphic Ferrite in Medium Carbon Microalloyed Steels. MATERIALS TRANSACTIONS 44:2, pages 220-225.
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C. Garcı́a de Andrés, C. Capdevila, D. San Martı́n & F.G. Caballero. (2002) Effect of titanium on the allotriomorphic ferrite transformation kinetics in medium carbon–manganese steels. Materials Science and Engineering: A 328:1-2, pages 156-160.
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P. E. J. Rivera-Díaz-Del-Castillo & H. K. D. H. Bhadeshia. (2002) Theory for growth of needle-shaped particles in multicomponent systems. Metallurgical and Materials Transactions A 33:4, pages 1075-1081.
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Z. Guo & W. Sha. (2011) Modeling the Diffusion-Controlled Growth of Needle and Plate-Shaped Precipitates. MRS Proceedings 731.
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D. Quidort & Y.J.M. Brechet. (2001) Isothermal growth kinetics of bainite in 0.5% C steels. Acta Materialia 49:20, pages 4161-4170.
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H.I Aaronson, G.R Purdy, D.V Malakhov & W.T ReynoldsJrJr. (2001) Tests of the zener theory of the incomplete transformation phenomenon in Fe-C-Mo and related alloys. Scripta Materialia 44:10, pages 2425-2430.
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C. Capdevila, F.G. Caballero & C. Garcı́a de Andrés. (2001) Isothermal allotriomorphic ferrite formation kinetics in a medium carbon vanadium-titanium microalloyed steel. Scripta Materialia 44:4, pages 593-600.
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C. Capdevila, F. G. Caballero & C. García de Andrés. (2001) Modeling of kinetics of austenite-to-allotriomorphic ferrite transformation in 0.37C-1.45Mn-0.11V microalloyed steel. Metallurgical and Materials Transactions A 32:13, pages 661-669.
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C. Capdevila, F. G. Caballero & C. García de Andrés. (2001) Modeling of kinetics of austenite-to-allotriomorphic ferrite transformation in 0.37C-1.45Mn-0.11V microalloyed steel. Metallurgical and Materials Transactions A 32:3, pages 661-669.
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C Capdevila, C Garcı́a de Andrés & F.G Caballero. (2001) Incubation time of isothermally transformed allotriomorphic ferrite in medium carbon steels. Scripta Materialia 44:1, pages 129-134.
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T.C Tszeng. (2000) Autocatalysis in bainite transformations. Materials Science and Engineering: A 293:1-2, pages 185-190.
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H.I Aaronson & J.F Nie. (2000) Discussion to “the bainitic mechanism of austenite formation during rapid heating”. Scripta Materialia 42:5, pages 505-509.
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L. C. Chang. (1999) Bainite transformation temperatures in high-silicon steels. Metallurgical and Materials Transactions A 30:4, pages 909-916.
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S.J. JONES & H.K.D.H. BHADESHIA. (1997) KINETICS OF THE SIMULTANEOUS DECOMPOSITION OF AUSTENITE INTO SEVERAL TRANSFORMATION PRODUCTS. Acta Materialia 45:7, pages 2911-2920.
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H. I. Aaronson & M. G. Hall. (1994) A history of the controversy over the roles of shear and diffusion in plate formation aboveM d and a comparison of the atomic mechanisms of these processes. Metallurgical and Materials Transactions A 25:9, pages 1797-1819.
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H. I. Aaronson, T. Furuhara, J. M. Rigsbee, W. T. Reynolds & J. M. Howe. (1990) Crystallographic and mechanistic aspects of growth by shear and by diffusional processes. Metallurgical Transactions A 21:9, pages 2369-2409.
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H. I. Aaronson, W. T. Reynolds, G. J. Shiflet & G. Spanos. (1990) Bainite viewed three different ways. Metallurgical Transactions A 21:6, pages 1343-1380.
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H. K. D. H. Bhadeshia & J. W. Christian. (1990) Bainite in steels. Metallurgical Transactions A 21:3, pages 767-797.
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A. A. B. Sugden & H. K. D. H. Bhadeshia. (1989) Thermodynamic estimation of liquidus, solidus Ae <SUB>3</SUB> temperatures, and phase compositions for low alloy multicomponent steels. Materials Science and Technology 5:10, pages 977-984.
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H.K.D.H. Bhadeshia. (1985) Diffusional formation of ferrite in iron and its alloys. Progress in Materials Science 29:4, pages 321-386.
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