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Online since: July 2019
Authors: Xiang Yu Ren, Hui Chen, Hong Bo Liu, Jing Wu
It has shown good prospects in the fields of nanocomposite materials, biomedical materials, energy materials and so on, and has important applications[5].
Graphene-based materials biocompatibility: a review.
[7] Singh V,Joung D,Zhai L,et al.Graphene based materials: Past, present and future[J].Progress in Materials Science,2011,56(8):1178-1271
Journal of Materials Science Materials in Electronics, 2013, 24 (1- 1): 4614-4620
Materials & Design, 2015, 66:142-149
Graphene-based materials biocompatibility: a review.
[7] Singh V,Joung D,Zhai L,et al.Graphene based materials: Past, present and future[J].Progress in Materials Science,2011,56(8):1178-1271
Journal of Materials Science Materials in Electronics, 2013, 24 (1- 1): 4614-4620
Materials & Design, 2015, 66:142-149
Online since: September 2013
Authors: Marie Kolaříková, Rostislav Chotěborský, Jarmila Savková, Barbora Bryksí Stunová
Materials and methods
The alloys used for this investigation were prepared and melted in a vacuum medium-frequency induction furnace of capacity 100 g.
Zhang, Microstructure and mechanical properties of high boron white cast iron with about 4 wt% chromium, Journal of Material Science 46 (2011) 957-963
Kelly, Boron solubility in Fe-Cr-B cast irons, Materials Science and Engineering A352 (2003) 40-45
Bryksí-Stunová, The morphology change of iron diboride in the Fe-B alloy during deformation, MM Science Journal 5 (2012), 338-340
Guo, Improving fracture toughness and hardness of Fe2B in high boron white cast iron by chromium addition, Materials and Design 31 (2010) 3084-3089
Zhang, Microstructure and mechanical properties of high boron white cast iron with about 4 wt% chromium, Journal of Material Science 46 (2011) 957-963
Kelly, Boron solubility in Fe-Cr-B cast irons, Materials Science and Engineering A352 (2003) 40-45
Bryksí-Stunová, The morphology change of iron diboride in the Fe-B alloy during deformation, MM Science Journal 5 (2012), 338-340
Guo, Improving fracture toughness and hardness of Fe2B in high boron white cast iron by chromium addition, Materials and Design 31 (2010) 3084-3089
Online since: August 2024
Authors: Patrick Fiorenza, Francesco La Via, Lucia Calcagno, Philippe Godignon, Viviana Scuderi, Massimo Camarda, Alfio Mancuso, Sofia Aslanidou, Simona Boninelli, Antonio Mio
La Via, On the “step bunching” phenomena observed on etched and homoepitaxially grown 4H silicon carbide, Materials Science Forum, Vols. 679-680, 358 (2011)
Grossner, Surface Morphology of 4H-SiC after thermal oxidation, Materials Science Forum, Vol. 1062, 1 (2022)
Starke, Structure and Morphology of 4H-SiC Wafer Surfaces after H2- Etching, Materials Science Forum, Vols 483 485, 761, (2005)
Saddow, A Comprehensive Study of Hydrogen Etching on the Major SiC Polytypes and Crystal Orientations, Materials Science Forum, Vols. 615-617, 590 (2009)
Yamada, Hydrogen Etching of Silicon Carbide, Japanese Journal of Applied Physics, Vol.8, 426-427 (1969)
Grossner, Surface Morphology of 4H-SiC after thermal oxidation, Materials Science Forum, Vol. 1062, 1 (2022)
Starke, Structure and Morphology of 4H-SiC Wafer Surfaces after H2- Etching, Materials Science Forum, Vols 483 485, 761, (2005)
Saddow, A Comprehensive Study of Hydrogen Etching on the Major SiC Polytypes and Crystal Orientations, Materials Science Forum, Vols. 615-617, 590 (2009)
Yamada, Hydrogen Etching of Silicon Carbide, Japanese Journal of Applied Physics, Vol.8, 426-427 (1969)
Online since: September 2013
Authors: Sabine Denis, Olivier Martin, Nikhil Karnatak, Guillaume Geandier, Moukrane Dehmas, Mickael Mourot, Elisabeth Aeby-Gautier
Lindroos, Processing and properties of particulate reinforced steel matrix composites, Materials Science and Engineering A 246 (1998) 221-234
Beck, Prediction of residual stresses and distortion of ferrous and non-ferrous metals: current status and future developments, Journal of Materials Engineering and Performance 11(1) (2002) 92-102
Yang, The constrained phase transformation of prestrained TiNi fibers embedded in metal matrix smart composite, Materials Letters 43 (2000) 91-96
Dunand, Transformation Superplasticity of Iron and Fe/TiC Metal Matrix Composites, Metallurgical and Materials Transactions A 29A (1998) 565-575
Liaw, Thermal residual stress evolution in a TiC–50 vol.% Ni3Al cermet, Materials Science and Engineering A 421 (2006) 40-45.
Beck, Prediction of residual stresses and distortion of ferrous and non-ferrous metals: current status and future developments, Journal of Materials Engineering and Performance 11(1) (2002) 92-102
Yang, The constrained phase transformation of prestrained TiNi fibers embedded in metal matrix smart composite, Materials Letters 43 (2000) 91-96
Dunand, Transformation Superplasticity of Iron and Fe/TiC Metal Matrix Composites, Metallurgical and Materials Transactions A 29A (1998) 565-575
Liaw, Thermal residual stress evolution in a TiC–50 vol.% Ni3Al cermet, Materials Science and Engineering A 421 (2006) 40-45.
Online since: November 2010
Authors: Zhen Ning Hou, Zhi Min Feng, Hai Gang Hu, Guang Bin Wu
Acknowledgement
This study was supported by the Science and Technology Plan Project of Zhejiang Province (Grant No. 2008C21103), the Science and Technology Plan Projects of Ningbo (Grant No. 2007B10006) and the 2009’ Scientific Research Foundation of Graduate School of Ningbo University.
Wang: Journal of Intelligent Material Systems and Structures, Vol. 9 (1998) No. 4, pp. 272-282
Chen: Journal of Wind Engineering and Industrial Aerodynamics, Vol. 95 (20075) No. 5, pp. 303-328 [6] L.
SPIE conference on Smart Structures and Materials 2000: Damping and Isolation (Newport Beach, USA, March 6, 2000).
Smart Structures and Materials 2004: Damping and Isolation (San Diego, USA, March 15, 2004).
Wang: Journal of Intelligent Material Systems and Structures, Vol. 9 (1998) No. 4, pp. 272-282
Chen: Journal of Wind Engineering and Industrial Aerodynamics, Vol. 95 (20075) No. 5, pp. 303-328 [6] L.
SPIE conference on Smart Structures and Materials 2000: Damping and Isolation (Newport Beach, USA, March 6, 2000).
Smart Structures and Materials 2004: Damping and Isolation (San Diego, USA, March 15, 2004).
Online since: July 2014
Authors: Chang Wang Yan, Shu Guang Liu, Ju Zhang, Yong Yang
The water-to- cementitious materials ratio was 24%.
Acknowledgements The research reported in the paper is a part of the Project 51168034 supported by National Natural Science Foundation of China, and Project 2011BS0709 supported by Natural Science Foundation of Inner Mongolia Province.
Journal of Engineering Mechanics, Vol. 22 (2005), P.182 (In Chinese) [4] Chou C C, Uang C M.
Journal of Structural Engineering, Vol. 133 (2007), P.96 [5] Zheng S S, Zeng L, Lu Y, et al.
Journal of Building Structures, Vol. 29 (2008), P.128 (In Chinese) [6] JGJ101.
Acknowledgements The research reported in the paper is a part of the Project 51168034 supported by National Natural Science Foundation of China, and Project 2011BS0709 supported by Natural Science Foundation of Inner Mongolia Province.
Journal of Engineering Mechanics, Vol. 22 (2005), P.182 (In Chinese) [4] Chou C C, Uang C M.
Journal of Structural Engineering, Vol. 133 (2007), P.96 [5] Zheng S S, Zeng L, Lu Y, et al.
Journal of Building Structures, Vol. 29 (2008), P.128 (In Chinese) [6] JGJ101.
Online since: August 2009
Authors: R. Balasubramaniam, Abhijeet Moon
Introduction
Hydrogen, due to its small size, can diffuse relatively rapidly in metallic materials.
The nascent hydrogen that is liberated by corrosion can diffuse relatively rapidly into metallic materials [1].
Hydrogen in lattices leads to the embrittlement of engineering materials; one of which is rail steel [2].
NJ 1996) [2] B.Panda: On the Corrosion of �ovel Rail Steels, PhD thesis, Indian Institute of Technology, Kanpur, India, 2008 [3] M.Nagano, Y.Hayashi, N.Ohtani, M.Isshiki and K.Igaki: Scripta Metallurgica, 1982, 16, 973 [4] G.G.Knupp, W.H.Chidley, J.L.Giove, H.H.Hartman, G.F.Morris and C.W.Taylor in: Rail Steels-Developments, Processing and Use, edited by D.H.Stone and G.G.Knupp (Eds.), American Society for Testing of Materials, Philadelphia, (1978), p.38 [5] R.Balasubramaniam: Journal of Alloys and Compounds, 1999, 293-295, 279 [6] C.Thakur and R.Balasubramaniam: Journal of Materials Science Letters, 1996, 15, 1397 [7] P.Kumar and R.Balasubramaniam: Journal of Alloys and Compounds, 1997, 255, 130 [8] P.Banerjee and R.Balasubramaniam: Scripta Materialia, 1998, 39, 1215 [9] B.Panda, R.Balasubramaniam and G.Dwivedi: Corrosion Science, 2008, 50, 1684 [10] B.Panda, R.Balasubramaniam and A.Moon: Materials Science and Technology, 2008, accepted for publication [11]
A.S.Nowick and J.J.Burton, Academic Press, New York, 1975, p.231 [13] J.Völkl and G.Alefeld: Topics in Applied Physics, 1978, 28, 321 [14] K.Ichitani, M.Kanno: Science and Technology of Advanced Materials, 2003, 4, 545 [15] R.K.Dayal and H.J.Grabke: Steel Research, 2000, 71, 255 [16] N.Parvathavarthini, U.Prakash and R.K.Dayal: Intermetallics, 2002, 10, 329
The nascent hydrogen that is liberated by corrosion can diffuse relatively rapidly into metallic materials [1].
Hydrogen in lattices leads to the embrittlement of engineering materials; one of which is rail steel [2].
NJ 1996) [2] B.Panda: On the Corrosion of �ovel Rail Steels, PhD thesis, Indian Institute of Technology, Kanpur, India, 2008 [3] M.Nagano, Y.Hayashi, N.Ohtani, M.Isshiki and K.Igaki: Scripta Metallurgica, 1982, 16, 973 [4] G.G.Knupp, W.H.Chidley, J.L.Giove, H.H.Hartman, G.F.Morris and C.W.Taylor in: Rail Steels-Developments, Processing and Use, edited by D.H.Stone and G.G.Knupp (Eds.), American Society for Testing of Materials, Philadelphia, (1978), p.38 [5] R.Balasubramaniam: Journal of Alloys and Compounds, 1999, 293-295, 279 [6] C.Thakur and R.Balasubramaniam: Journal of Materials Science Letters, 1996, 15, 1397 [7] P.Kumar and R.Balasubramaniam: Journal of Alloys and Compounds, 1997, 255, 130 [8] P.Banerjee and R.Balasubramaniam: Scripta Materialia, 1998, 39, 1215 [9] B.Panda, R.Balasubramaniam and G.Dwivedi: Corrosion Science, 2008, 50, 1684 [10] B.Panda, R.Balasubramaniam and A.Moon: Materials Science and Technology, 2008, accepted for publication [11]
A.S.Nowick and J.J.Burton, Academic Press, New York, 1975, p.231 [13] J.Völkl and G.Alefeld: Topics in Applied Physics, 1978, 28, 321 [14] K.Ichitani, M.Kanno: Science and Technology of Advanced Materials, 2003, 4, 545 [15] R.K.Dayal and H.J.Grabke: Steel Research, 2000, 71, 255 [16] N.Parvathavarthini, U.Prakash and R.K.Dayal: Intermetallics, 2002, 10, 329
Online since: November 2013
Authors: Hai Yang Zhang, An Feng Zhang, Bin He, Xing Kun Shi
Experimental Procedure
Materials and Equipments.
Metallurgical and Materials Transactions a Physical Metallurgy and Materials Science, 2004, 35A (10): 3221-3231
Laser cladding of aerospace materials [J].
Journal of Materials Processing Technology, 2002, 122: 63-68
Materials Science and Engineering: A, 1999, 271(1): 232-241
Metallurgical and Materials Transactions a Physical Metallurgy and Materials Science, 2004, 35A (10): 3221-3231
Laser cladding of aerospace materials [J].
Journal of Materials Processing Technology, 2002, 122: 63-68
Materials Science and Engineering: A, 1999, 271(1): 232-241
Online since: July 2011
Authors: Sheng Dun Zhao, Yong Yi Li
[4] Ivanov, V., Kirov, V., 1996, Rolling of internal threads: Part 1, Journal of Materials Processing Technology, 72: 214-220
[6] Pierre Stéphan, Florestan Mathurin, Jean Guillota, Analytical study of maximal tapping torque during forming screw process, Journal of Materials Processing Technology,2011, 2(211): 212-221
ASME Journal of Manufacturing Science and Engineering 2005; 127(829): 829-836
ASME Journal of Manufacturing Science and Engineering 2006; 128(65): 65-73
Journal of Manufacturing Science and Engineering, Transactions of the ASME 131 (4) (2009): 151-158.
[6] Pierre Stéphan, Florestan Mathurin, Jean Guillota, Analytical study of maximal tapping torque during forming screw process, Journal of Materials Processing Technology,2011, 2(211): 212-221
ASME Journal of Manufacturing Science and Engineering 2005; 127(829): 829-836
ASME Journal of Manufacturing Science and Engineering 2006; 128(65): 65-73
Journal of Manufacturing Science and Engineering, Transactions of the ASME 131 (4) (2009): 151-158.
Online since: May 2019
Authors: Marcela Jandlová, Alžbeta Jarošová, Josef Kameník
Bugusu, Food Packaging–Roles, Materials, and Environmental Issues, Journal of Food Science. 72 (2007) R39-R55
Bugusu, Food Packaging–Roles, Materials, and Environmental Issues, Journal of Food Science. 72 (2007) R39-R55
Wong, Contaminationin food from packaging material, Journal of Chromatography A. 882 (2000) 255-270
Piotrowska, Toxic Components of Food Packaging Materials,in: W.M.
Ulrich, Occurrence of phthalic acid esters in food packaging materials, Food sciences. 14 (1996) 99-108
Bugusu, Food Packaging–Roles, Materials, and Environmental Issues, Journal of Food Science. 72 (2007) R39-R55
Wong, Contaminationin food from packaging material, Journal of Chromatography A. 882 (2000) 255-270
Piotrowska, Toxic Components of Food Packaging Materials,in: W.M.
Ulrich, Occurrence of phthalic acid esters in food packaging materials, Food sciences. 14 (1996) 99-108