Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: September 2014
Authors: Jun Ye, Jian Xiong, Heng Yuan Wu
Materials and Methods
Materials
Fresh Fuji apples without crown imported and mechanical damage were purchased from Wushan fruit store; NaCl (analytical grade) from Guangzhou Chemical Reagent Factory; all 1% preservative solutions (No.1, No.2, No.3, No.4, No.5) and their 0.5%, 0.25%, 0.125% dilutions (marked as 150, 125, 112.5 for No.1, respectively, and others in the same way).
Journal of Fruit Science, 2010, 27(4): 598-604 [2] Wang J, Li H and Liu D.
Journal of Food Science, 2006, 69 (4): 140-143 [6] Mchugh T H, Senesi E.
Advanced Materials Research, 2011, 239-242: 2158-2162 [10] Chen C, Wang B and Weng Y.
International Journal of Food Science and Technology, 2010, 45:1050–1055.
Journal of Fruit Science, 2010, 27(4): 598-604 [2] Wang J, Li H and Liu D.
Journal of Food Science, 2006, 69 (4): 140-143 [6] Mchugh T H, Senesi E.
Advanced Materials Research, 2011, 239-242: 2158-2162 [10] Chen C, Wang B and Weng Y.
International Journal of Food Science and Technology, 2010, 45:1050–1055.
Online since: March 2013
Authors: Mohamad Rusop, S.F.M. Yusop, Saifollah Abdullah, Noor Asli Asnida, M. Ain Zubaidah, Mohd Husairi Fadzilah Suhaimi
Uhlir, Electrolytic shaping of germanium and silicon, The Bell System Technical Journal. 35 (1956) 333-347
Regolini, Porous silicon: material properties, visible photo- and electroluminescence, Applied Surface Science 65–66 (1993) 394-407
Philippe M, Photoluminescence and electroluminescence from porous silicon, Journal of Luminescence 70 (1996) 294-309
Resto, Relation between electroluminescence and photoluminescence in porous silicon, Materials Science and Engineering: B 72 (2000) 138-141
Rusop, S. abdullah, Photoluminescence properties of porous silicon nanostructures (PSiNs) with optimum electrolyte volume ratio of photo-electrochemical anodization, Advanced Materials Research 620 (2013) 40-44
Regolini, Porous silicon: material properties, visible photo- and electroluminescence, Applied Surface Science 65–66 (1993) 394-407
Philippe M, Photoluminescence and electroluminescence from porous silicon, Journal of Luminescence 70 (1996) 294-309
Resto, Relation between electroluminescence and photoluminescence in porous silicon, Materials Science and Engineering: B 72 (2000) 138-141
Rusop, S. abdullah, Photoluminescence properties of porous silicon nanostructures (PSiNs) with optimum electrolyte volume ratio of photo-electrochemical anodization, Advanced Materials Research 620 (2013) 40-44
Online since: July 2014
Authors: Jin Hui Dong, Cong Jun Rao
Study on Evaluation Index System and Methods of Vendor Selection
Congjun Rao1,2, Jinhui Dong1
1 College of Mathematics and Computer Science, Huanggang Normal University, Huanggang 438000, China
2 Institute of Systems Engineering, Huazhong University of Science and Technology, Wuhan 430074, P.
Dickson: Journal of Purchasing Vol. 2 (1966), p. 5-17
Wilson: International Journal of Purchasing & Materials Management Vol. 25 (2006), p.35-41
Lee: The Journal of Supply Chain Management Vol. 8 (2003), p. 140-154
McGinnis: Journal of Business Logistics Vol. 19 (2008), p. 121-137
Dickson: Journal of Purchasing Vol. 2 (1966), p. 5-17
Wilson: International Journal of Purchasing & Materials Management Vol. 25 (2006), p.35-41
Lee: The Journal of Supply Chain Management Vol. 8 (2003), p. 140-154
McGinnis: Journal of Business Logistics Vol. 19 (2008), p. 121-137
Online since: September 2011
Authors: Luboš Náhlík, Pavel Hutař, Zdeněk Knésl, Martin Ševčík
Kuhn : International Journal of Fatigue, Vol. 28 (2006), p. 627
Knésl: International Journal of Fatigue, Vol. 32 (2010), p. 1265
Knésl: Computational Materials Science, Vol. 45 (2009), p. 653
Knésl: Key Engineering Materials, Vol. 385-387 (2008), p. 317
Knésl: Key Engineering Materials, Vol. 348-349 (2007), p. 377
Knésl: International Journal of Fatigue, Vol. 32 (2010), p. 1265
Knésl: Computational Materials Science, Vol. 45 (2009), p. 653
Knésl: Key Engineering Materials, Vol. 385-387 (2008), p. 317
Knésl: Key Engineering Materials, Vol. 348-349 (2007), p. 377
Online since: January 2013
Authors: Yi Zhi Yan, Zhi Min Su, Jian Fei Xiao
The sediments were treated as the elastic and elastic-plastic materials to compare in figure 2-4.
The sediments gradually formed after years of the reservoir operation, the nature of the materials was non-linear, and the sediments were treated as elastic material was a kind of simplification, and the sediments should be treated as elastic-plastic material, it could be seen from figure 2-4, there were great differences when the sediments were treated as elastic material or elastic-plastic material.
Journal of Engineering Mechanics, ASCE,1993, 119 (7): 1411~1433
Journal of hydrodynamic engineering,2002,6:83~90.
Journal of hydrodynamic engineering, 2006, 37(9): 1063~1069.
The sediments gradually formed after years of the reservoir operation, the nature of the materials was non-linear, and the sediments were treated as elastic material was a kind of simplification, and the sediments should be treated as elastic-plastic material, it could be seen from figure 2-4, there were great differences when the sediments were treated as elastic material or elastic-plastic material.
Journal of Engineering Mechanics, ASCE,1993, 119 (7): 1411~1433
Journal of hydrodynamic engineering,2002,6:83~90.
Journal of hydrodynamic engineering, 2006, 37(9): 1063~1069.
Online since: May 2015
Authors: Yong Sung Lee, Junji Sakamoto, Seong Kyun Cheong
Experimental methods
Materials and fatigue testing.
The materials used in this study were steel and aluminum alloy A7075-T6.
Tables 1 list the chemical compositions of the tested materials.
Table 1 Chemical compositions of the tested materials (mass%) Material Chemical composition (mass%) Medium-carbon steel C Si Mn S Al Cr Ni Cu Fe 0.45 0.77 0.54 0.32 1.32 0.15 0.33 0.23 Bal.
Cheong, Effect of shot peening coverage on fatigue limit in round bar of annealed medium carbon steel, Journal of Mechanical Science and Technology 28(9) (2014) 3555-3560
The materials used in this study were steel and aluminum alloy A7075-T6.
Tables 1 list the chemical compositions of the tested materials.
Table 1 Chemical compositions of the tested materials (mass%) Material Chemical composition (mass%) Medium-carbon steel C Si Mn S Al Cr Ni Cu Fe 0.45 0.77 0.54 0.32 1.32 0.15 0.33 0.23 Bal.
Cheong, Effect of shot peening coverage on fatigue limit in round bar of annealed medium carbon steel, Journal of Mechanical Science and Technology 28(9) (2014) 3555-3560
Online since: March 2013
Authors: X.G. Fu, X.J. Wang
Introduction
Recently, Ca3(VO4)2 artificial crystal materials have attracted increasing interests due to their potential application in solid state lasers, luminescent, and ferroelectric materials, etc.
Experimental Analytical reagent grade of NH4VO3, Ca(NO3)2·4H2O, (NH4)2HPO4 and Bi(NO3)3·5H2O were used as starting materials.
Eu2O3(99.99 %) was purchased from Shanghai Yuelong New Materials Corporation.
Li, et al., Luminescence Property of Ca3(VO4)2: Eu3+ Dependence on Molar Ratio of Ca/V and Solution Combustion Synthesis Temperature, Journal of Materials Science, 45 (2010) 5456–5462 [2] S.Takeshita, T.Isobe and S.J.Niikura, Low-temperature Wet Chemical Synthesis and Photoluminescence Properties of YVO4: Bi3+, Eu3+ Nanophosphors, Journal of Luminescence, 128 (2008) 1515–1522 [3] X.C.
Stangle, Preparation of Fine Multicomponent Oxide Ceramic Powder by a Combustion Synthesis Process, Journal of Materials Research, 9(1994), 1997–2004 [5] G.
Experimental Analytical reagent grade of NH4VO3, Ca(NO3)2·4H2O, (NH4)2HPO4 and Bi(NO3)3·5H2O were used as starting materials.
Eu2O3(99.99 %) was purchased from Shanghai Yuelong New Materials Corporation.
Li, et al., Luminescence Property of Ca3(VO4)2: Eu3+ Dependence on Molar Ratio of Ca/V and Solution Combustion Synthesis Temperature, Journal of Materials Science, 45 (2010) 5456–5462 [2] S.Takeshita, T.Isobe and S.J.Niikura, Low-temperature Wet Chemical Synthesis and Photoluminescence Properties of YVO4: Bi3+, Eu3+ Nanophosphors, Journal of Luminescence, 128 (2008) 1515–1522 [3] X.C.
Stangle, Preparation of Fine Multicomponent Oxide Ceramic Powder by a Combustion Synthesis Process, Journal of Materials Research, 9(1994), 1997–2004 [5] G.
Online since: May 2007
Authors: Min Li, Bao Yan Zhang, Xiang Bao Chen
Distortion Simulation of Unsymmetrical Composite Laminates Using the
Finite Element Analysis Method
Min LIa, Bao-yan ZHANGb and Xiang-bao CHEN
Beijing Institute of Aeronautical Materials, Beijing 100095, China
a
lm0708@yahoo.com.cn, bzhangbaoyan0916@yahoo.com
Keywords: unsymmetric laminate; composite; FEA; distortion; simulation
Abstract: Unsymmetric composite laminates were benefit to reducing the structure weight of some
aircrafts.
Introduction Composite materials are very important for aerospace industry due to their light weight and high stiffness/weight ratio.
And further more composites have superior performance over traditional materials, including the fact that composite materials could be tailored to meet specific design and loading requirements.
Material properties The unsymmetrical composite laminates were manufactured by typical fabrication process of 3234/T300 epoxy/carbon fiber composite, which was produced in authors' institute.
References: [1] Hyer,M.W., Journal of Composite Materials, 1981, 15: 175-194 [2] Hyer,M.W., Journal of Composite Materials, 1981, 15: 296-310 [3] M.W.Hyer, Journal of Composite Materials, 1982, 16: 318-340 [4] Jun,W.J., C.S.Hong, Composite Science Technology, 1990, 38: 55-67 [5] W.J.Jun, C.S.Hong, J. of Reinforced Plastics and Composites, 1992, 11, 12, 1352-66 [6] Cho,M., M.H.Kim, Journal of Composite Materials, 1998, 32, 5: 460-482 [7] Libo Ren, Azar Parvizi-Majidi, Journal of Composite Materials, 2003,37(20): 1801
Introduction Composite materials are very important for aerospace industry due to their light weight and high stiffness/weight ratio.
And further more composites have superior performance over traditional materials, including the fact that composite materials could be tailored to meet specific design and loading requirements.
Material properties The unsymmetrical composite laminates were manufactured by typical fabrication process of 3234/T300 epoxy/carbon fiber composite, which was produced in authors' institute.
References: [1] Hyer,M.W., Journal of Composite Materials, 1981, 15: 175-194 [2] Hyer,M.W., Journal of Composite Materials, 1981, 15: 296-310 [3] M.W.Hyer, Journal of Composite Materials, 1982, 16: 318-340 [4] Jun,W.J., C.S.Hong, Composite Science Technology, 1990, 38: 55-67 [5] W.J.Jun, C.S.Hong, J. of Reinforced Plastics and Composites, 1992, 11, 12, 1352-66 [6] Cho,M., M.H.Kim, Journal of Composite Materials, 1998, 32, 5: 460-482 [7] Libo Ren, Azar Parvizi-Majidi, Journal of Composite Materials, 2003,37(20): 1801
Online since: June 2021
Authors: Ai Jun Xu, Yun Long Huang, Ze Jun Tang, Hai Feng Wan
Journal of Materials Processing Technology, 137(1): 96-99
Journal of Manufacturing Science and Engineering, 2007, 129(1): 84-94
Journal of Materials Processing Technology, 2017: S09240136173 05149
Journal of Materials Processing Technology, 2018, 261:12-23
Journal of Materials Processing Technology, 2019, 278:116492.
Journal of Manufacturing Science and Engineering, 2007, 129(1): 84-94
Journal of Materials Processing Technology, 2017: S09240136173 05149
Journal of Materials Processing Technology, 2018, 261:12-23
Journal of Materials Processing Technology, 2019, 278:116492.
Online since: August 2014
Authors: Yang Yang, Qi Jie Zhai, Zheng Yan Shen, Yun Hu Zhang, Chang Jiang Song, Wei Lu
Material Science Engineer A , 2004;375-377: 581-584
Material Science Engineer A, 2000;279 (1): 16-24(9)
Material Science R, 1989;4 (1):1-40
Metallurgical and Materials Transactions A, 2007;38(9): 1991-2000
Material Science Engineer, 1984;65(1): 75-83
Material Science Engineer A, 2000;279 (1): 16-24(9)
Material Science R, 1989;4 (1):1-40
Metallurgical and Materials Transactions A, 2007;38(9): 1991-2000
Material Science Engineer, 1984;65(1): 75-83