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Online since: September 2014
Authors: You Hai Jin, Da Lei Zhang, Xiao Rui Guan
Acknowledgements
This work was funded by National Natural Science Foundation of China (No. 41106068) and Natural Science Foundation of Shandong Province (No.
Singh: Metallurgical and Materials Transactions A, Vol. 44(2013) No.11, p. 5039-5053
Haque: Journal of Mechanical Engineering, Vol. 43(2014) No.2, p.61-67
Ma: Journal of materials engineering and performance, Vol. 23(2014) No.1, p.230-237
Antón: Corrosion Science, Vol. 49(2007) No.12, p. 4472-4490
Singh: Metallurgical and Materials Transactions A, Vol. 44(2013) No.11, p. 5039-5053
Haque: Journal of Mechanical Engineering, Vol. 43(2014) No.2, p.61-67
Ma: Journal of materials engineering and performance, Vol. 23(2014) No.1, p.230-237
Antón: Corrosion Science, Vol. 49(2007) No.12, p. 4472-4490
Online since: July 2015
Authors: Bernhard Wielage, Guntram Wagner, Thomas Gessner, Thomas Seider, Daniel Wett, Daisy Nestler, Jörg Martin
Klages, Me-DLC films as material for highly sensitive temperature compensated strain gauges, Diamond & Related Materials 20 (2011) 814
[3] R.
Nendel, CAPAAL and CAPET – new materials of high-strength, high-stiff hybrid laminates, in M.
Bhushan, Optical and mechanical properties of DC sputtered carbon films, Journal of Materials Research, 5 (1990) 2538 [13] S.
Nittono, Formation of Ni3C nanocrystallites in codeposited Ni-C films, Journal of material science letters 15 (1996) 928 [16] B.
Voevodin, The role of the nickel catalyst and its chemical and structural evolution during carbon nanopearl growth, Journal of Electronic Materials 42, 3 (2013) 417 [19] A.
Nendel, CAPAAL and CAPET – new materials of high-strength, high-stiff hybrid laminates, in M.
Bhushan, Optical and mechanical properties of DC sputtered carbon films, Journal of Materials Research, 5 (1990) 2538 [13] S.
Nittono, Formation of Ni3C nanocrystallites in codeposited Ni-C films, Journal of material science letters 15 (1996) 928 [16] B.
Voevodin, The role of the nickel catalyst and its chemical and structural evolution during carbon nanopearl growth, Journal of Electronic Materials 42, 3 (2013) 417 [19] A.
Online since: July 2012
Authors: Guang Cheng Zhang, Chen Hui Zhao
Effect of gravity on resin flow behavior by VARI process
Chenhui Zhao, Guangcheng Zhang
Department of Applied Chemistry, School of Natural and Applied Science, Northwestern Polytechnical University, Xi’an, 710129, P.R.China
zhaohui18201@163.com, zhangguc@nwpu.edu.cn
Keywords: VARI; foam sandwich; foam grooves; resin flow behavior
Abstract:The resin flow behavior in vacuum assisted resin infusion molding process (VARI) of foam sandwich materials was studied through visualization flow experiments.
This article focuses on the effect of resin gravity on resin flow behavior via VARI process to optimize technological parameters and provide fundamental knowledge for practical production process. 1 glass mould; 2 vacuum point source; 3 release cloth; 4 glass fabric; 5 foam sandwich; 6 stripping cloth; 7 diversion medium; 8 vacuum bag; 9 resin point source Fig. 1 Experiment device schemes of VARI Experimental Materials.
Development and application of materials, Vol. 25(2010), p. 99 [3] Dominik Bender, Jens Schuster, Dirk Heider.
Journal of WuHan University of Technology (in Chinese), Vol. 24(2002), p. 1 [7] Liu Jinliang, Wu Xiaoqing.
Journal of WuHan University of Technology (in Chinese), Vol. 31(2009), p. 59 [8] Yang Jinshui.
This article focuses on the effect of resin gravity on resin flow behavior via VARI process to optimize technological parameters and provide fundamental knowledge for practical production process. 1 glass mould; 2 vacuum point source; 3 release cloth; 4 glass fabric; 5 foam sandwich; 6 stripping cloth; 7 diversion medium; 8 vacuum bag; 9 resin point source Fig. 1 Experiment device schemes of VARI Experimental Materials.
Development and application of materials, Vol. 25(2010), p. 99 [3] Dominik Bender, Jens Schuster, Dirk Heider.
Journal of WuHan University of Technology (in Chinese), Vol. 24(2002), p. 1 [7] Liu Jinliang, Wu Xiaoqing.
Journal of WuHan University of Technology (in Chinese), Vol. 31(2009), p. 59 [8] Yang Jinshui.
Online since: May 2011
Authors: Ai Bin Xu, Hong Mei Cheng, Xing Guang Liu, Feng Gao
Table1. shows the material parameters of strata.
The material damage accumulation taken into consideration, the distribution and evolution law of the volumetric strain, stress and damage field was obtained
Xu : Mining Science and Technology,Vol.99(1999),p.357-360
Cheng: Journal of Xi’an University of Science and Technology,Vol.22(2002),p.247-249
Zhou: Journal of He Hai University,Vol.17(1989),p.40-47
The material damage accumulation taken into consideration, the distribution and evolution law of the volumetric strain, stress and damage field was obtained
Xu : Mining Science and Technology,Vol.99(1999),p.357-360
Cheng: Journal of Xi’an University of Science and Technology,Vol.22(2002),p.247-249
Zhou: Journal of He Hai University,Vol.17(1989),p.40-47
Online since: December 2014
Authors: Yun Dong Sha, Que Yue Jia, Li Luo, Feng Tong Zhao, Xiao Chi Luan
Materials China. 2011, vol.30, No. 6
International Journal of Solids and Structures. 2001, 38, 3905-3925
Composite Science and Technology, Vol.56, No.2, 1996, 171–179
Beijing: Science Press,2004.31~48.
Journal of Northwestern Polytechnical University, 2006, 06: 787-790.
International Journal of Solids and Structures. 2001, 38, 3905-3925
Composite Science and Technology, Vol.56, No.2, 1996, 171–179
Beijing: Science Press,2004.31~48.
Journal of Northwestern Polytechnical University, 2006, 06: 787-790.
Online since: February 2022
Authors: Marina G. Kovaleva, Sergey Zaitsev, Dmitriy Prokhorenkov, Andrey Skiba, Michael Limarenko, Viacheslav V. Sirota
These materials make it possible to obtain composite coatings with a unique composition and characteristics using a magnetron.
These materials make it possible to create composite coatings with a unique composition and characteristics using a magnetron.
Shukhov and Joint Research Center “Technologies and Materials” of the Belgorod National Research University.
Mändl Thin film deposition using energetic ions Materials 3 (2010) 4109-4141
Moore The Structure and Properties of Ti–B–N, Ti–Si–B–N, Ti–Si–C–N, and Ti–Al–C–N coatings deposited by magnetron sputtering using composite targets produced by self-propagating high-temperature synthesis SHS Journal of Materials Synthesis and Processing. 6(1) (1998) 61–72 https://doi.org/10.1023/A:1022663210694 [5] F.V.
These materials make it possible to create composite coatings with a unique composition and characteristics using a magnetron.
Shukhov and Joint Research Center “Technologies and Materials” of the Belgorod National Research University.
Mändl Thin film deposition using energetic ions Materials 3 (2010) 4109-4141
Moore The Structure and Properties of Ti–B–N, Ti–Si–B–N, Ti–Si–C–N, and Ti–Al–C–N coatings deposited by magnetron sputtering using composite targets produced by self-propagating high-temperature synthesis SHS Journal of Materials Synthesis and Processing. 6(1) (1998) 61–72 https://doi.org/10.1023/A:1022663210694 [5] F.V.
Online since: May 2017
Authors: Prihartini Widiyanti, Jan Setiawan, Dwi Gustiono, Karina Dwi Saraswati
Materials and Methods
Materials
The materials used in this study was PLGA (Poly (lactide-co-glycolic acid)) derived from Polysitech products with a lactide: glycolide ratio of 90: 10 and a molecular weight of 66000-107000 g/mol.
Materials Letters 95 (2013) 40–43 [6] K.
KMITL Science and Technology Journal Vol 13, no.1
American Journal of Plant Sciences, 2013, 4, 1-9 [15] Namuli, Aidah, et al., 2014.
Materials 2014, 7(9), 6105-6119
Materials Letters 95 (2013) 40–43 [6] K.
KMITL Science and Technology Journal Vol 13, no.1
American Journal of Plant Sciences, 2013, 4, 1-9 [15] Namuli, Aidah, et al., 2014.
Materials 2014, 7(9), 6105-6119
Online since: February 2011
Authors: Suo Mei Zhang, Zi Dong Wang
Effect of Ce2S3 Powder Addition on Morphology of Graphite in Cast Iron
Suomei Zhang1, a, Zidong Wang2,b
1 School of Mechanical EngineeringUniversity of Science and Technology Beijing
Beijing, China
2 School of Materials Science and Engineering University of Science and Technology Beijing
Beijing, China
a zhangsuomei2006@126.com, b wangzd@mater.ustb.edu.cn,
Keywords: Graphite Nuclei Theory; Graphite Morphology; Graphite Nodular;Mechanism Of Nodularization.
Materials and Methods of Experiment In this paper pure carbon, industrial pure iron bars and single crystall silicon were used.
Journal of Kunming University of Science and Technology , 2000(05):74.
Journal of Mechanical Engineering 1982(01):15.
Journal of Tsinghua University (Science and Technology)1989(02):105.
Materials and Methods of Experiment In this paper pure carbon, industrial pure iron bars and single crystall silicon were used.
Journal of Kunming University of Science and Technology , 2000(05):74.
Journal of Mechanical Engineering 1982(01):15.
Journal of Tsinghua University (Science and Technology)1989(02):105.
Online since: April 2014
Authors: Hao Rui Liu, Chang Xin Nai
Research on environmental materials with complex resistivity dispersion properties of chrome-contaminated soil
Haorui Liu1,a, Changxin Nai2,b
1China University of Mining & Technology, Beijing, China
2 Chinese Research Academy of Environmental Sciences, China
aliuhaorui@yeah.net, b729375550@qq.com
Keywords: Complex resistivity, water content, contamination content, frequency dispersion experiment
Abstract.
Environmental Science & Technology, 2006, (12) 93~95
Study on mechanisms of complex resistivity frequency dispersion property of rocks[J].Journal of Zhejiang University(Science Edition),2006,33(5):584~587.
Environmental Science & Technology, 2006, (12) 93~95
Study on mechanisms of complex resistivity frequency dispersion property of rocks[J].Journal of Zhejiang University(Science Edition),2006,33(5):584~587.
Online since: September 2014
Authors: J.S. Ajiboye, S.T. Oyinbo
Sheppard, Extrusion of AA2024 Alloy, Materials Science Technology 9 (1993) 430-440
Peng, FEM analysis to predict development of structure during extrusion and subsequent solution soak cycle, Materials Science and Technology, 23 (5) 2007, 582-592 [4] Libura, W.& Zasadzinski, J., "The influence of strain gradient on material structure during extrusion of the AlCu4Mg alloy", Journal of Material Processing Technology, vol. 34, 1992, p.517-524 [5] M.
Moon, Overview of adaptable die design for extrusions, Journal of Materials Processing Technology 187–188 (2007) 662–667 [12] K.
Duszczyk, FEM analysis of aluminium extrusion through square and round dies , Materials and Design 21 (2000) 323-335 [15] Zhi Peng, Terry Sheppard, Simulation of multi-hole die extrusion, Materials Science and Engineering A 367 (2004) 329–342 [16] OO.
Adeyemi, Warm compression and extrusion tests of Aluminium, Journal of Materials Processing Technology, 2005, 136, 7-11
Peng, FEM analysis to predict development of structure during extrusion and subsequent solution soak cycle, Materials Science and Technology, 23 (5) 2007, 582-592 [4] Libura, W.& Zasadzinski, J., "The influence of strain gradient on material structure during extrusion of the AlCu4Mg alloy", Journal of Material Processing Technology, vol. 34, 1992, p.517-524 [5] M.
Moon, Overview of adaptable die design for extrusions, Journal of Materials Processing Technology 187–188 (2007) 662–667 [12] K.
Duszczyk, FEM analysis of aluminium extrusion through square and round dies , Materials and Design 21 (2000) 323-335 [15] Zhi Peng, Terry Sheppard, Simulation of multi-hole die extrusion, Materials Science and Engineering A 367 (2004) 329–342 [16] OO.
Adeyemi, Warm compression and extrusion tests of Aluminium, Journal of Materials Processing Technology, 2005, 136, 7-11