Microstructure and Property Modifications in Mould Steels Treated by Pulsed Electron Beam
Kemin Zhang,
Kemin Zhang
Search for more papers by this authorKemin Zhang,
Kemin Zhang
Search for more papers by this authorBook Editor(s): TMS,
First published: 17 March 2012
Summary
This chapter contains sections titled:
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Introduction
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Experimental
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Results
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Discussions
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Conclusions
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Acknowledgments:
References
- G. K. Kariofillis, G. E. Kiourtsidis, and D. N. Tsipas, “Corrosion behaviour of borided AISI H13 hot work steel,” Surf. Coat. Tech., 201 (2006), 19–26.
- M. Ueda, C. Leandro, H. Reuther, and C.M. Lepienski, “Plasma immersion ion implantation of nitrogen into H13 steel under moderate temperatures,” Nucl. Instr. and Meth. in Phys. Res. B., 240 (2005), 204–210.
- C.K.N. Oliveira, R.M. Muñoz Riofano, and L.C. Casteletti, “Micro-abrasive wear test of niobium carbide layers produced on AISI H13 and M2 steels,” Surf. Coat. Tech., 200 (2006), 5140–5148.
- B. Park, D. H. Jung, H. Kim, K. C. Yoo, J. J. Lee, and J. H. Joo, “Adhesion properties of TiB2 coatings on nitrided AISI H13 steel,” Surf. Coat. Tech., 200 (2005), 726–735.
- S. L. Ma, K. W. Xu, and W. Q. Jie, “Plasma nitrided and TiCN coated AISI H13 steel by pulsed dc PECVD and its application for hot-working dies,” Surf. Coat. Tech., 191 (2005), 201–207.
- K.E. Cooke, S. Yang, C. Selcuk, A. Kennedy, D.G. Teer, and D. Beale, “Development of duplex nitrided and closed field unbalanced magnetron sputter ion plated CrTiAlN-based coatings for H13 aluminium extrusion dies,” Surf. Coat. Tech., 188-189 (2004), 697–703.
- K.A. Chiang, and Y. C. Chen, “Laser surface hardening of H13 steel in the melt case,” Materials Letters, 59 (2005), 1919–1926.
- D. I. Proskurovsky, V. P. Rotshtein, and G. E. Ozur, “Use of low-energy, high-current electron beams for surface treatment of materials,” Surf. Coat. Tech., 96 (1997), 117–127.
- A.B. Markov, and V. P. Rotshtein, “Calculation and experimental determination of dimensions of hardening and tempering zones in quenched U7A steel irradiated with a pulsed electron beam,” Nucl. Instr. and Meth. in Phys. Res. B., 132 (1997), 79–87.
- D. I. Proskurovsky, V. Rotshtein, G. E. Ozur, A. B. Markov, and D. S. Nazarov, “Pulsed electron beam technology for surface modification of metallic materials,” J. Vac. Sci. Tech. A., 16 (1998), 2480–2488.
- A. D. Pogrebnjak, S. Bratushka, V. I. Boyko, I. V. Shamanin, and Yu. V. Tsvintarnaya, “A review of mixing processes in Ta/Fe and Mo/Fe systems treated by high current electron beams,” Nucl. Instr. and Meth. in Phys. Res. B., 145 (1998), 373–391.
- D. I. Proskurovsky, V. Rotshtein, G. E. Ozur, Yu. F. Ivanov, and A. B. Markov, “Physical foundations for surface treatment of materials with low energy, high current electron beams,” Surf. Coat. Tech., 125 (2000), 49–56.
- Yu. Ivanov, W. Matz, V. Rotshtein, R. Gunzel, and N. Shevchenko, “Pulsed electron-beam melting of high-speed steel: structural phase transformations and wear resistance,” Surf. Coat. Tech., 150 (2002), 188–196.
- C. Dong, A. Wu, S. Hao, J. Zou, Z. Liu, P. Zhong, A. Zhang, T. Xu, J. Chen, J. Xu, Q. Liu, and Z. Zhou, “Surface treatment by high current pulsed electron beam,” Surf. Coat. Tech., 163-164 (2003), 620–624.
- J. X. Zou, Y. Qin, C. Dong, S. Z. Hao, A. M. Wu, and X. G. Wang, “Numercial simulation of thermal-mechanical process of high current pulsed electron beam treatment,” J. of Vac. Sci. and Tech. A., 22 (2004), 545–554.
- D. J. Rej, H. A. Davis, M. Nastasi, J. C. Olson, E. J. Peterson, R. D. Reiswig, K. C. Walter, R. W. Stinnett, G. E. Remnev, and V. K. Struts, “Surface modification of AISI-4620 steel with intense pulsed ion beams,” Nucl. Instr. Meth. in Phy. Res. B., 127-128 (1997), 987–996.
- B. P. Wood, A. J. Perry, L. J. Bitteker, and W. J. Waganaar, “Cratering behavior in single- and polycrystalline copper irradiated by intense pulsed ion beam,” Surf Coat Tech., 108-109 (1998), 171–180.
- M. A. Meyers, F. Gregori, B. K. Kad, M. S. Schneider, D. H. Kalantar, B. A. Remington, G. Ravichandran, T. Boehly, and J. S. Wark, “Laser induced shock compression of monocrystalline copper: characterization and analysis,” Acta Mater., 51 (2003), 1211–1220.
- S. Z. Hao, B. Gao, A. M. Wu, J. X. Zou, Y. Qin, C. Dong, J. An and Q. F. Guan : Surface modification of steels and magnesium alloy by high current pulsed electron beam. Nucl. Instr. and Meth. in Phys. Res. B., 240 (2005), 646–654.
- J. X. Zou, K. M. Zhang, C. Dong, Y. Qin, S. Z. Hao, and T. Grosdidier, “Selective surface purification via crater eruption under pulsed electron beam irradiation,” Appl. Phys. Lett., 89 (2006), 041913-1-3.
- K. M. Zhang, J. X. Zou, T. Grosdidier, C. Dong, and D. Z. Yang, “Improved pitting corrosion resistance of AISI 316L stainless steel by high current pulsed electron beam treatment,” Surf Coat Tech., 201 (2006), 1393–1401.
- K. M. Zhang, D. Z. Yang, J. X. Zou, T. Grosdidier, and C. Dong, “Improved in vitro corrosion resistance of a NiTi alloy by high current pulsed electron beam” Surf Coat Tech., 201 (2006), 3096–3102.
- B. Gao, S. Z. Hao, J. X. Zou, T. Grosdidier, L. M. Jiang, J. Y. Zhou, and C. Dong, “High current pulsed electron beam treatment of AZ31 Mg alloy,” J. of Vac. Sci. and Tech. A., 23 (2005), 1548–1556.
- J. X. Zou, T. Grosdidier, K. M. Zhang, and C. Dong, “Mechanisms of nanostructures and metastable phase transformations in the surface melted layer of a HCPEB treated D2 steel,” Acta Mater. 54 (2006), 5409–5419.
- J. X. Zou, T. Grosdidier, B. Bolle, K. M. Zhang, and C. Dong, “Texture and microstructure at the surface of an AISI D2 steel treated with high current pulsed electron beam,” Metal. Mater. Trans. A, 38 (2007), 2061–2071.
- J. X. Zou, T. Grosdidier, K. M. Zhang, B. Gao, S. Z. Hao, and C. Dong, “Microstructures and phase transformations in the surface layer of AISI D2 steel treated with pulsed electron beam,” Journal of Alloys and Compounds, 434-435 (2007), 683–686.
- Y. Qin, C. Dong, X. G. Wang, S. Z. Hao, A. M. Wu, J. X. Zou, and Y. Liu, “Temperature profile and crater formation induced by high current pulsed electron beam,” J. of Vac. Sci. and Tech. A., 21 (2003), 1934–1938.
- Y. Qin, J. X. Zou, C. Dong, X. G. Wang, A. M. Wu, Y. Liu, S. Z. Hao, and Q. F. Guan, “Temperature-stress fields and related phenomena induced by a high current pulsed electron beam,” Nucl. Instr. and Meth. in Phys. Res. B., 225 (2004), 544–554.
- J. X. Zou, K. M. Zhang, S. Z. Hao, C. Dong, and T. Grosdidier, “Mechanisms of hardening, wear and corrosion improvement of 316 L stainless steel by low energy high current pulsed electron beam surface treatment,” Thin Solid Films, 519 (2010), 1404–1415.
- K. M. Zhang, J. X. Zou, T. Grosdidier, and C. Dong, “Microstructure and property modifications of an AISI H13 (4Cr5MoSiV) steel induced by pulsed electron beam treatment,” Journal of Vacuum Science and Technology A, 28 (2010), 1349–1355.
- X. B. Hua, L. Lia, X. C. Wu, and M. Zhang, “Coarsening behavior of M23C6 carbides after ageing or thermal fatigue in AISI H13 steel with niobium,” International Journal of Fatigue, 28 (2006), 175–181.
- T. Grosdidier, J. X. Zou, N. Stein, C. Boulanger, S. Hao, and C. Dong, “Texture modification, grain refinement and improved hardness/corrosion balance of a FeAl alloy by pulsed electron beam surface treatment under the “heating mode”,” Scripta Materialia, 58 (2008), 1058–1061.
- K.M. Zhang, J.X. Zou, T. Grosdidier, and C. Dong, “Formation and evolution of craters in carbon steels during low energy high current pulsed electron beam treatment,” Journal of Vacuum Science and Technology A, 27 (2009), 1217–1226.
- K.M. Zhang, J.X. Zou, T. Grosdidier, C. Dong, and S. Weber, “Ti surface alloying of an AISI 316 stainless steel by low energy high current pulsed electron beam treatment,” Journal of Vacuum Science and Technology A, 26 (2008), 1407–1414.
