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Online since: July 2014
Authors: Yue Wang, Chun Ying Yuan, Qing Man Cui, Shuo Yang
Materials and Methods
Experimental Materials
Biological Materials.
Journal of Dalian Fisheries University, 2008,23(5):359-363
Food Science, 2013, 34(7): 270-274
Beijing: Science Press, 95-97
Chinese Journal of Marine Drugs, 2007, 26(5): 53-59.
Journal of Dalian Fisheries University, 2008,23(5):359-363
Food Science, 2013, 34(7): 270-274
Beijing: Science Press, 95-97
Chinese Journal of Marine Drugs, 2007, 26(5): 53-59.
Online since: December 2013
Authors: Jin Bo Wang, Rui Xiang Qin
Li, Journal of Hazardous Materials, Vol. 95 (2002), p. 47-63
Chui, Journal of Hazardous Materials, Vol. 152 (2008), p. 196-203
Hu, Journal of Hazardous Materials, Vol. 123 (2005), p. 158-164
Zhang, Journal of Hazardous Materials, Vol. 113 (2004), p. 141-146
Zhou, Journal of Environmental Sciences, Vol. 29 (2009), p. 2372.
Chui, Journal of Hazardous Materials, Vol. 152 (2008), p. 196-203
Hu, Journal of Hazardous Materials, Vol. 123 (2005), p. 158-164
Zhang, Journal of Hazardous Materials, Vol. 113 (2004), p. 141-146
Zhou, Journal of Environmental Sciences, Vol. 29 (2009), p. 2372.
Online since: February 2011
Authors: Xiu Hui Wang, Guo Quan Zhao, Hong Gao, Jin Long Yang, Yan Min Zhao
The Effect of Mineralizers on Synthesis of Perovskite-Phase Lanthanum Aluminate Powders
Wang Xiu-hui1,2,a, Zhao Guo-quan2,b, Zhao Yan-min2,c, Gao Hong2,d and Yang Jin-long1,e
1Department of Materials Science and Engineering, State Key Lab of New Ceramics and Fine Processing, Tsinghua University, Beijing 10084, China;
2Liaoning Key Lab for fabrication and Application of Super-fine Inorganic Powders, Jiaotong University, Dalian, Liaoning 116028, China
adl_wangxh@djtu.edu.cn,breddevils.utd@gmail.com,czhao.1@hotmail.com,dtaoci@djtu.edu.cn,ejlyang@mail.tsinghua.edu.cn1
Keywords: perovskite-phase lanthanum aluminate; solid-reaction; mineralizer; additive; synthesize.
Abstract: The solid-reaction was applied to synthesize perovskite-phase Lanthanum Aluminate powders by using AlOOH and La2(C2O4)3 as raw materials, mineralizer AlCl3 and AlF3 as the additives, graund and mixed, then calcined at 800℃ and 1200℃ for 3 h.
Introduction The perovskite-phase lanthanum aluminate crystal (LaAlO3 ) possess of low dielectric constants and dielectric loss, and it is lattice-matched to many perovskite structure materials.
Physics, 2001, 30(7) 392-397 [2] National Key Basic Research Program Network, Research of the perovskite functional crystals, http://www.973.gov.cn:80/show/stuff6-3.html [3] Mao Shaoyu, Cai Yu and Liu Yao, et al in: Application of Oxalyl Dihydrazide in The Combustion Synthesis of LaAlO3, Functional Materials, 1998, 29(1):110-111 [4] Xu Chaofen, Xu Yebin, in: Synthesis of Lanthanum Aluminate by Ethylene Diamine Tetraacetic Acid Gel Route, Journal of Huazhong University of Science and Technology (Natural Science), 2005, 33(1):78-80 [5] Huang Guohua, Zhou Dongxiang and Xu Jianmei, et al in: Synthesis of Lanthanum Aluminate by the Liquid Mixing Method, Journal of Huazhong University of Science and Technology (Natural Science).2004 32(02):52-53 [6] Wang Xiuhui, Wu Xiaolin and Zhai Yuchun et al, in: The Synthesis of Lanthanum Aluminate Powders by Alkoxide-hydrolysis, Rare Metal Materials and Engineering. 2007.8, 36(S1): 62-64 [7] Feng Duan, Shi Changxu et al, in: Introduction to Materials
and Science [M], Beijing: Chemical Industry Press, 2002
Abstract: The solid-reaction was applied to synthesize perovskite-phase Lanthanum Aluminate powders by using AlOOH and La2(C2O4)3 as raw materials, mineralizer AlCl3 and AlF3 as the additives, graund and mixed, then calcined at 800℃ and 1200℃ for 3 h.
Introduction The perovskite-phase lanthanum aluminate crystal (LaAlO3 ) possess of low dielectric constants and dielectric loss, and it is lattice-matched to many perovskite structure materials.
Physics, 2001, 30(7) 392-397 [2] National Key Basic Research Program Network, Research of the perovskite functional crystals, http://www.973.gov.cn:80/show/stuff6-3.html [3] Mao Shaoyu, Cai Yu and Liu Yao, et al in: Application of Oxalyl Dihydrazide in The Combustion Synthesis of LaAlO3, Functional Materials, 1998, 29(1):110-111 [4] Xu Chaofen, Xu Yebin, in: Synthesis of Lanthanum Aluminate by Ethylene Diamine Tetraacetic Acid Gel Route, Journal of Huazhong University of Science and Technology (Natural Science), 2005, 33(1):78-80 [5] Huang Guohua, Zhou Dongxiang and Xu Jianmei, et al in: Synthesis of Lanthanum Aluminate by the Liquid Mixing Method, Journal of Huazhong University of Science and Technology (Natural Science).2004 32(02):52-53 [6] Wang Xiuhui, Wu Xiaolin and Zhai Yuchun et al, in: The Synthesis of Lanthanum Aluminate Powders by Alkoxide-hydrolysis, Rare Metal Materials and Engineering. 2007.8, 36(S1): 62-64 [7] Feng Duan, Shi Changxu et al, in: Introduction to Materials
and Science [M], Beijing: Chemical Industry Press, 2002
Online since: January 2018
Authors: Ondřej Zobal, Pavel Padevět
Introduction
At present, there is increasing emphasis on sustainable construction, the use of waste materials and the recycling of construction waste.
Reiterman, Ecological Concrete Based on Blast-Furnace Cement with Incorporated Coarse Recycled Concrete Aggregate and Fly Ash Addition, Journal of Renewable Materials 5 (2017) 53-61
Reiterman, Fiber Reinforced Fly Ash Concrete and Extreme Fires, Key Engineering Materials 722 (2017) 12-17
Abbas, Effect of High Temperature on High-Volume Fly Ash Concrete, Arabian Journal for Science and Engineering, 2013, Volume 38, Number 6, Page 1369, https://doi.org/10.1007/s13369-013-0606-1 [8] Arabi N.S.
Brabec, The effect of elevated temperatures and nuclear radiation on the properties of biological shielding concrete, Key Engineering Materials 677 (2016) 8-16
Reiterman, Ecological Concrete Based on Blast-Furnace Cement with Incorporated Coarse Recycled Concrete Aggregate and Fly Ash Addition, Journal of Renewable Materials 5 (2017) 53-61
Reiterman, Fiber Reinforced Fly Ash Concrete and Extreme Fires, Key Engineering Materials 722 (2017) 12-17
Abbas, Effect of High Temperature on High-Volume Fly Ash Concrete, Arabian Journal for Science and Engineering, 2013, Volume 38, Number 6, Page 1369, https://doi.org/10.1007/s13369-013-0606-1 [8] Arabi N.S.
Brabec, The effect of elevated temperatures and nuclear radiation on the properties of biological shielding concrete, Key Engineering Materials 677 (2016) 8-16
Online since: January 2014
Authors: Xiao Lei Zhang, Wei Mo, Dang Quan Zhang, Huai Yun Zhang, Zhen Jun Gu
Materials and Methods
Materials and Soxhlet Extraction.
Kohli, LWT - Food Science and Technology 2012, 48, 237
Abdul Rahuman, Research in veterinary science 2012, 93, 303
Rahim, Asian Journal of Chemistry 2012, 19, 5459; J.
Naz, Pakistan Journal of Zoology 2012, 44, 335; A.
Kohli, LWT - Food Science and Technology 2012, 48, 237
Abdul Rahuman, Research in veterinary science 2012, 93, 303
Rahim, Asian Journal of Chemistry 2012, 19, 5459; J.
Naz, Pakistan Journal of Zoology 2012, 44, 335; A.
Online since: March 2023
Authors: Rachid Tiberkak, Madjid Ezzraimi, Mohammed Essidik Lazar, Yasser Chiker, Morad Bachene, Said Rechak
In this case study, all mentioned materials were considered.
Patel, Carbon nanotubes and their growth methods, Procedia Materials Science. 6 (2014) 716–728
Yi, Bending and free vibration analyses of antisymmetrically laminated carbon nanotube-reinforced functionally graded plates, Journal of Composite Materials. 51 (2017) 3111–3125
Liu, The deflection of a simply supported plate induced by piezoelectric actuators, Journal of Mechanical Science and Technology. 21 (2007) 1745
Nguyen-Xuan, Analysis of laminated composite plates integrated with piezoelectric sensors and actuators using higher-order shear deformation theory and isogeometric finite elements, Computational Materials Science. 96 (2015) 495–505.
Patel, Carbon nanotubes and their growth methods, Procedia Materials Science. 6 (2014) 716–728
Yi, Bending and free vibration analyses of antisymmetrically laminated carbon nanotube-reinforced functionally graded plates, Journal of Composite Materials. 51 (2017) 3111–3125
Liu, The deflection of a simply supported plate induced by piezoelectric actuators, Journal of Mechanical Science and Technology. 21 (2007) 1745
Nguyen-Xuan, Analysis of laminated composite plates integrated with piezoelectric sensors and actuators using higher-order shear deformation theory and isogeometric finite elements, Computational Materials Science. 96 (2015) 495–505.
Online since: October 2014
Authors: Md. Saidin Wahab, Mohd Pahmi Saiman, Muhammad Nazri Rejab
Journal of Sciences of Food and Argiculture 86:1781-1789
[2] Alif, N., L.
Materials: Design and Applications 219: 91-109
Modelling and Simulation in Materials Science and Engineering, Vol.7, No.2, pp. 207-231
Journal of Materials Science, Vol.41, No.20), pp. 6547-6590
Computational materials science: Vol 65: 276-286
Materials: Design and Applications 219: 91-109
Modelling and Simulation in Materials Science and Engineering, Vol.7, No.2, pp. 207-231
Journal of Materials Science, Vol.41, No.20), pp. 6547-6590
Computational materials science: Vol 65: 276-286
Online since: October 2012
Authors: H.V. Atkinson, Sinan Kandemir, David P. Weston
Gupta, Effect of Length Scale of Al2O3 Particulates on Microstructural and Tensile Properties of Elemental Mg, Materials Science and Engineering A. 425 (2006) 22-27
Schoenung, Investigation of Aluminum-Based Nanocomposites with Ultra-High Strength, Materials Science and Engineering A. 527 (2009) 305-316
Wyatt, The Microstructure and Mechanical Properties of TiC and TiB2-Reinforced Cast Metal Matrix Composites, Journal of Materials Science. 34 (1999) 933-940
Ownby, The Wettability of Titanium Diboride by Molten Aluminium Drops, Journal of Materials Science. 40 (2005) 2301-2306
Grant, Refinement of TiB2 in Al-Ti-B Grain Refiner Alloys by Ultrasound and the Effect on Al Grain Size, Materials Science Forum. 654-656 (2010) 958-961.
Schoenung, Investigation of Aluminum-Based Nanocomposites with Ultra-High Strength, Materials Science and Engineering A. 527 (2009) 305-316
Wyatt, The Microstructure and Mechanical Properties of TiC and TiB2-Reinforced Cast Metal Matrix Composites, Journal of Materials Science. 34 (1999) 933-940
Ownby, The Wettability of Titanium Diboride by Molten Aluminium Drops, Journal of Materials Science. 40 (2005) 2301-2306
Grant, Refinement of TiB2 in Al-Ti-B Grain Refiner Alloys by Ultrasound and the Effect on Al Grain Size, Materials Science Forum. 654-656 (2010) 958-961.
Online since: March 2013
Authors: Xiao Qing Zuo, Xiao Xu Luo, Yong Sheng Wang
Cell structure refining mechanism of pure aluminum foam with fine cell structure
LUO Xiaoxu1,a, *ZUO Xiaoqing2,b, WANG Yongsheng2,c
1Faculty of Foreign Languages & Cultures, Kunming University of Science and Technology, Kunming 650093, P.R.China
2School of Materials Science and Engineering, Kunming University of Science and Technology, Kunming 650093, P.R.China
alxxlxx01@yahoo.com, bzxqdzhhm@hotmail.com, cwyshdoc@gmail.com
(*corresponding author)
Keywords: pure aluminum foam; fine cell structure; cell refining mechanism
Abstract.
References [1] L.J.Gibson, M.F.Ashby: Structure and Properties Vol. (1988), p. 283-343 [2] L.P.Lefebvre, J.Banhart and D.C.Dunand: Advanced Engineering Materials Vol. 10(2008), p. 775-787 [3] R.E.Raj, V.Parameswaran and B.S.S.Daniel: Materials Science and Engineering A Vol. 526 (2009), p. 11-15 [4] D.H.Yang, D.P.He:The Chinese Journal of Nonferrous Metals Vol. 14(2004),p. 2021-2028(in Chinese) [5] J.C.Mu,H.F.Xi, Z.Q.Long: JOURNAL OF EXPERIMENTAL MECHANICS Vol. 24(2009), p. 224(In Chinese) [6] H.F.Cheng, X.M.Huang, L.Xu: Ordnance Material science and engineering Vol. 25(2002), p. 12-14(In Chinese) [7] T.G.Nieh, K.Higashi, J.Wadsworth: Materials Science and Engineering A Vol. 283(2002), p. 105-110 [8] Z.G.Xu, J.W.Fu, T.J.Luo, Y.S.Yang: Materials and Design Vol. 34(2012), p. 40-44 [9] P.R.Onck, E.W.Andrews, L.J.Gibson: International Journal of Mechanical Sciences Vol. 43(2001), p. 681-669 [10] X.Q.
Bi, J.S.Lu: The Chinese Journal of Nonferrous Metals Vol. 19 (2009), p.682-688(in Chinese) [11] X.Q.Zuo,A.R.
Kennedy,Y.S.Wang,Y.S.Bi,J.S.Lu,Y.Zhou: Rare Metal Materials and Engineering Vol.38(S3)(2009), p.254-259(in Chinese) [12] D.H.Yang, D.P.He: The Chinese Journal of Nonferrous Metal Vol. 12(12)(2004), p. 2021- 2028 (in Chinese) [13] Y.S.Bi, X.Q.Zuo, F.
Zhang: Materials Review Vol. 22(2008), p. 48-52(In Chinese) [14] X.Q.Zuo, M.S.Liao, and X.L.Pan: Heat Treatment of Metals Vol.31(S)2006, p. 98-101(in Chinese) [15] C.Körner, M.Arnold and R.FSinger: Materials Science and Engineering A Vol. 396(2005), p. 28-40 [16] B.Matijasevic, J.Banhart: Scripta Materialia Vol. 54(2006), p. 503-508 [17] X.Q.Zuo, X.L.Pan, M.S.Liao: Materials Science and Technology Vol. 16(2008), p. 211-215(in Chinese) [18] C.C.Yang, H.Nakae: Journal of Materials Processing Technology Vol. 141(2003), p. 202-206
References [1] L.J.Gibson, M.F.Ashby: Structure and Properties Vol. (1988), p. 283-343 [2] L.P.Lefebvre, J.Banhart and D.C.Dunand: Advanced Engineering Materials Vol. 10(2008), p. 775-787 [3] R.E.Raj, V.Parameswaran and B.S.S.Daniel: Materials Science and Engineering A Vol. 526 (2009), p. 11-15 [4] D.H.Yang, D.P.He:The Chinese Journal of Nonferrous Metals Vol. 14(2004),p. 2021-2028(in Chinese) [5] J.C.Mu,H.F.Xi, Z.Q.Long: JOURNAL OF EXPERIMENTAL MECHANICS Vol. 24(2009), p. 224(In Chinese) [6] H.F.Cheng, X.M.Huang, L.Xu: Ordnance Material science and engineering Vol. 25(2002), p. 12-14(In Chinese) [7] T.G.Nieh, K.Higashi, J.Wadsworth: Materials Science and Engineering A Vol. 283(2002), p. 105-110 [8] Z.G.Xu, J.W.Fu, T.J.Luo, Y.S.Yang: Materials and Design Vol. 34(2012), p. 40-44 [9] P.R.Onck, E.W.Andrews, L.J.Gibson: International Journal of Mechanical Sciences Vol. 43(2001), p. 681-669 [10] X.Q.
Bi, J.S.Lu: The Chinese Journal of Nonferrous Metals Vol. 19 (2009), p.682-688(in Chinese) [11] X.Q.Zuo,A.R.
Kennedy,Y.S.Wang,Y.S.Bi,J.S.Lu,Y.Zhou: Rare Metal Materials and Engineering Vol.38(S3)(2009), p.254-259(in Chinese) [12] D.H.Yang, D.P.He: The Chinese Journal of Nonferrous Metal Vol. 12(12)(2004), p. 2021- 2028 (in Chinese) [13] Y.S.Bi, X.Q.Zuo, F.
Zhang: Materials Review Vol. 22(2008), p. 48-52(In Chinese) [14] X.Q.Zuo, M.S.Liao, and X.L.Pan: Heat Treatment of Metals Vol.31(S)2006, p. 98-101(in Chinese) [15] C.Körner, M.Arnold and R.FSinger: Materials Science and Engineering A Vol. 396(2005), p. 28-40 [16] B.Matijasevic, J.Banhart: Scripta Materialia Vol. 54(2006), p. 503-508 [17] X.Q.Zuo, X.L.Pan, M.S.Liao: Materials Science and Technology Vol. 16(2008), p. 211-215(in Chinese) [18] C.C.Yang, H.Nakae: Journal of Materials Processing Technology Vol. 141(2003), p. 202-206
Online since: September 2014
Authors: A.S. Maznoy, V.D. Kitler, Igor V. Ionov, A.A. Solov’ev, A.N. Kovalchuk, Alexander Kirdyashkin
To obtain porous materials of a preset shape, the following was done.
The oxidation/reduction of the materials allowed the composite Ni-NiAl2O4 materials to be obtained that retained their initial shape.
Tucker, Progress in metal-supported solid oxide fuel cells: A review, Journal of Power Sources. 195 (2010) 4570-4582 [3] J.
Inorganic materials: applied research V.4 5 (2013) 431-437
Liu, Effect of Al content on porous Ni–Al alloys, Materials Science and Engineering A. 528 (2011) 4849–4855 [11] A.S.
The oxidation/reduction of the materials allowed the composite Ni-NiAl2O4 materials to be obtained that retained their initial shape.
Tucker, Progress in metal-supported solid oxide fuel cells: A review, Journal of Power Sources. 195 (2010) 4570-4582 [3] J.
Inorganic materials: applied research V.4 5 (2013) 431-437
Liu, Effect of Al content on porous Ni–Al alloys, Materials Science and Engineering A. 528 (2011) 4849–4855 [11] A.S.