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Online since: January 2013
Authors: Jian Hu Shen, Xiao Dong Huang, Yi Min Xie, Shi Wei Zhou, Dong Ruan
Introduction
Cellular materials are commonly used as packaging and cladding materials to protect products and personal during collision and impact events [1, 2].
Due to the high strength-to-weight ratio of cellular materials, it can be used as good packaging material, impact resistance and excellent energy dissipation materials.
Harley, Cellular materials in nature and medicine, Cambridge University Press, Cambridge, 2010
Yu, Energy absorption of structures and materials, Woodhead Publishing Ltd, Cambridge, 2003
Zhou, Accepted by Journal of Mechanical Behavior of Biomedical Materials (2012)
Due to the high strength-to-weight ratio of cellular materials, it can be used as good packaging material, impact resistance and excellent energy dissipation materials.
Harley, Cellular materials in nature and medicine, Cambridge University Press, Cambridge, 2010
Yu, Energy absorption of structures and materials, Woodhead Publishing Ltd, Cambridge, 2003
Zhou, Accepted by Journal of Mechanical Behavior of Biomedical Materials (2012)
Online since: December 2012
Authors: Bing Chu Mei, Yong Wei Tu, Jing Hong Song, Wen Bin Zhu
Conclusion
Preparation of the ternary carbide Ti2SC was conducted by pessureless synthesis using Ti/TiS2/2TiC powders as starting materials.
Lofland: Journal of Applied Physics, Vol. 104 (2008) No.3, p.033502
Zhang and Y.C.Zhou: Journal of Materials Research, Vol. 23 (2008) N0.4, p.924
McMillan: Nature Materials, Vol. 1 (2003), p.19
Barin: Thermochemical Data of Pure Substances (Science press, China 2003)
Lofland: Journal of Applied Physics, Vol. 104 (2008) No.3, p.033502
Zhang and Y.C.Zhou: Journal of Materials Research, Vol. 23 (2008) N0.4, p.924
McMillan: Nature Materials, Vol. 1 (2003), p.19
Barin: Thermochemical Data of Pure Substances (Science press, China 2003)
Online since: May 2020
Authors: D.E. Zhivulin, Vladimir E. Zhivulin, O.V. Zaitseva
Dragoe, Room temperature lithium superionic conductivity in high entropy oxides, Journal of Materials Chemistry A, 4 (2016) 9536-9541
Hahn, Multicomponent equiatomic rare earth oxides, Materials Research Letters, 5 (2017) 102-109
Chen, The microstructures and electrical resistivity of (Al,Cr,Ti)FeCoNiOx high-entropy alloy oxide thin films, Advances in Materials Science and Engineering, 6 (2015)
Ward, Single-crystal high entropy perovskite oxide epitaxial films, Physical Review Materials, 2(6) (2018) 060404
Trofimov, The poly-substituted M-type hexaferrite crystals growth, Materials Science Forum, 946 (2019) 186-191.
Hahn, Multicomponent equiatomic rare earth oxides, Materials Research Letters, 5 (2017) 102-109
Chen, The microstructures and electrical resistivity of (Al,Cr,Ti)FeCoNiOx high-entropy alloy oxide thin films, Advances in Materials Science and Engineering, 6 (2015)
Ward, Single-crystal high entropy perovskite oxide epitaxial films, Physical Review Materials, 2(6) (2018) 060404
Trofimov, The poly-substituted M-type hexaferrite crystals growth, Materials Science Forum, 946 (2019) 186-191.
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: December 2010
Authors: Xiu Li Wang, Zhan Zhong Yin, Xiao Dong Li
Its dynamical behavior is related to many factors such as the restraint stiffness of the outer-tube, the space between outer-tube and inner-tube, the properties of the materials and so on[1-4].
Therefore, the paper designs the models of double-tube BRBs with contact rings by employing the general materials, experimental equipments and conditions in existence and carry out an experimental research on the dynamical behavior of these models.
The material of the testing members is structural steel Q235.
The Properties of Materials.
The materials of members are incised and processed to be standard members with three members in each group.
Therefore, the paper designs the models of double-tube BRBs with contact rings by employing the general materials, experimental equipments and conditions in existence and carry out an experimental research on the dynamical behavior of these models.
The material of the testing members is structural steel Q235.
The Properties of Materials.
The materials of members are incised and processed to be standard members with three members in each group.
Finite Element Simulation of Physical Phenomena in Real Conditions of a Single Grain Cutting Process
Online since: August 2016
Authors: Leon Kukielka, Monika Forysiewicz, Katarzyna Gotowala
Kirsch, Kinematic simulation of high-performance grinding for analysis of chip parameters of single grains, CIRP Journal of Manufacturing Science and Technology 5 (2012) 164–174
Woźniak, Abrasive materials – production and properties, WNT, Warszawa, 1982
Nad (Eds.), Applied Mechanics and Materials „Novel Trends in Production Devices and Systems”, USA-SLOVAKIA, 2014, pp. 159-165
Bauer, Comparison of spherical and truncated cone geometries for single abrasive-grain cutting, Journal of Materials Processing Technology 212 (2012) 1946– 1953
Sun, Computer simulation of the two-body abrasion process modeling the particle as a paraboloid of revolution, Journal of Materials Processing Technology 209 (2009) 6124–6133
Woźniak, Abrasive materials – production and properties, WNT, Warszawa, 1982
Nad (Eds.), Applied Mechanics and Materials „Novel Trends in Production Devices and Systems”, USA-SLOVAKIA, 2014, pp. 159-165
Bauer, Comparison of spherical and truncated cone geometries for single abrasive-grain cutting, Journal of Materials Processing Technology 212 (2012) 1946– 1953
Sun, Computer simulation of the two-body abrasion process modeling the particle as a paraboloid of revolution, Journal of Materials Processing Technology 209 (2009) 6124–6133
Online since: December 2012
Authors: Yu Hang Su, Xiu Ping Zhao
In this paper, based on the principle of traditional ink, a kind of edible ink is prepared through reasonable materials selection and a larger number of experiments, and studied on its relevant performances.
Experiments Experimental Materials and Devices.
The main experimental process as follows: first, dissolve resin substitute in the water, then add the pigment and thickener and emulsifier, after these materials dissolve completely, add the connection material slowly, the continuous phase and dispersed phase will emulsified under the effect of emulsifier.
Packaging Engineering Journal. 28(5) (2007), p.172-174
[3] JIANG Tiqian: Chemical Engineering Rheology (East China University of Science and Technology Press, Shanghai 2001).
Experiments Experimental Materials and Devices.
The main experimental process as follows: first, dissolve resin substitute in the water, then add the pigment and thickener and emulsifier, after these materials dissolve completely, add the connection material slowly, the continuous phase and dispersed phase will emulsified under the effect of emulsifier.
Packaging Engineering Journal. 28(5) (2007), p.172-174
[3] JIANG Tiqian: Chemical Engineering Rheology (East China University of Science and Technology Press, Shanghai 2001).
Online since: October 2010
Authors: Marcos A.S. Barrozo, Claudio Roberto Duarte, J.L. Vieira Neto, J.E. Borges
The spouted bed appears as a substitute for the fluidized bed to process a great variety of coarse solid materials [3-6].
Materials and Methods Particle and Coating Suspension Characterization.
This position (0,63R) was chosen, like Duarte et al. [14], to minimize the elutriatium effect of coating materials and to increase the efficiency of inoculum repassed to the soybean seeds.
Barrozo: Journal of Food Engineering Vol. 66 (2005), p. 63
Barrozo: Materials Science Forum Vol. 591 (2008), p. 329
Materials and Methods Particle and Coating Suspension Characterization.
This position (0,63R) was chosen, like Duarte et al. [14], to minimize the elutriatium effect of coating materials and to increase the efficiency of inoculum repassed to the soybean seeds.
Barrozo: Journal of Food Engineering Vol. 66 (2005), p. 63
Barrozo: Materials Science Forum Vol. 591 (2008), p. 329
Online since: December 2012
Authors: Zheng Rong Chang, Yun Feng Zhang, Jian Jun An
[2] Suyi Huang, Zhongzhou Li, Jiankun Huang, Xiang Ye: Journal of Huazhong University of Science and Technology(Nature Science Edition), Vol.34(5)(2006),p.105-107.
[8] H.Yamaguchi, Z.Zhang, S.Shuchi, K.Shimada: Journal of Magnetism and Magnetic Materials, Vol. (252)(2002),p.203-205
[9] Yunfeng Zhang ,Zhengqiang Liu, Xinyuan Zhou: Journal of Thermal Science and Technology, Vol.7 (1)(2008),p.37- 40.
[11] YangL J, RenJ X, SongYZ, GuoZ Y: Journal of Magnetism and Magnetic Materials, Vol. 261 (2003), p.377- 384
Ching: International Journal of Heat and Mass Transfer, Vol.47(22)(2004),p. 4721- 4731.
[8] H.Yamaguchi, Z.Zhang, S.Shuchi, K.Shimada: Journal of Magnetism and Magnetic Materials, Vol. (252)(2002),p.203-205
[9] Yunfeng Zhang ,Zhengqiang Liu, Xinyuan Zhou: Journal of Thermal Science and Technology, Vol.7 (1)(2008),p.37- 40.
[11] YangL J, RenJ X, SongYZ, GuoZ Y: Journal of Magnetism and Magnetic Materials, Vol. 261 (2003), p.377- 384
Ching: International Journal of Heat and Mass Transfer, Vol.47(22)(2004),p. 4721- 4731.
Online since: September 2015
Authors: Zhen Bo Zhao, Bin Zhao, Hua Wu, Cheng Liu, Hua Gao
Sietsma, ‘Retention of austenite in the welded microstructure of a 0.16C-1.6Mn-1.5Si (wt.%) TRIP steel’, Journal of Materials Processing Technology, 2009, 209, 5286-5292
Zhou, ‘Microstructure-hardness relationship in the fusion zone of TRIP steel welds’, Materials Science and Engineering A, 2012, 551, 73-81
De Cooman, ‘Structure-properties relationship in TRIP steels containing carbide-free bainite’, Current Opinion in Solid State and Materials Science, 2004, 8, 285-303
Allard, ‘Effect of fatigue loading and residual stress on microscopic deformation mechanisms in a spot welded joint’, Materials Science and Engineering A, 2007, 454-455, 398-406
Rethmeier, ‘Deformation behaviour of spot-welded high strength steels for automotive applications’, Materials Science and Engineering A, 2010, 527, 7099-7108
Zhou, ‘Microstructure-hardness relationship in the fusion zone of TRIP steel welds’, Materials Science and Engineering A, 2012, 551, 73-81
De Cooman, ‘Structure-properties relationship in TRIP steels containing carbide-free bainite’, Current Opinion in Solid State and Materials Science, 2004, 8, 285-303
Allard, ‘Effect of fatigue loading and residual stress on microscopic deformation mechanisms in a spot welded joint’, Materials Science and Engineering A, 2007, 454-455, 398-406
Rethmeier, ‘Deformation behaviour of spot-welded high strength steels for automotive applications’, Materials Science and Engineering A, 2010, 527, 7099-7108