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Online since: October 2016
Authors: Akhil S. Karun, Freddie L. Inambao, Williams S. Ebhota
The functionally graded materials (FGMs), A356 alloy and A356-10%SiCp are under investigation.
Ignatio, "Efficiency Improvement of Pelton Wheel and Crossflow Turbines in Micro-Hydro Power Plants: Case Study," International Journal of Engineering and Computer Science vol. 2, pp. 416-432, 2013
Prasad, "Design and Static Analysis of Pelton Turbine Bucket " International Journal of Science Technology and Management, vol. 4, pp. 19-25, 2015
ASM International, Materials Park, Ohio American Technical Publishers Ltd, 2000
StJohn, "Effect of Solution Treatment Temperature on Tensile Properties of AI-7Si-0.3 (wt-%) Alloy," Materials Science and Technology, vol. 14, pp. 619-625, 1998
Ignatio, "Efficiency Improvement of Pelton Wheel and Crossflow Turbines in Micro-Hydro Power Plants: Case Study," International Journal of Engineering and Computer Science vol. 2, pp. 416-432, 2013
Prasad, "Design and Static Analysis of Pelton Turbine Bucket " International Journal of Science Technology and Management, vol. 4, pp. 19-25, 2015
ASM International, Materials Park, Ohio American Technical Publishers Ltd, 2000
StJohn, "Effect of Solution Treatment Temperature on Tensile Properties of AI-7Si-0.3 (wt-%) Alloy," Materials Science and Technology, vol. 14, pp. 619-625, 1998
Online since: May 2014
Authors: Hong Lei, Ting Jiang
Journal of the electrochemical society, 176-180 (2009) 156
Journal of The Electrochemical Society, 3907-3913 (2000) 147 [3] S.
Homma, et al: Journal of The Electrochemical Society. 3907 (2000) 147 (10) [4] M.
Applied Surface Science 4114–4118(2009) 255 [6] Yongjin Seo, Namhoon Kim, Woosun Lee.
Materials Letters, 1192~1197(2006) 60
Journal of The Electrochemical Society, 3907-3913 (2000) 147 [3] S.
Homma, et al: Journal of The Electrochemical Society. 3907 (2000) 147 (10) [4] M.
Applied Surface Science 4114–4118(2009) 255 [6] Yongjin Seo, Namhoon Kim, Woosun Lee.
Materials Letters, 1192~1197(2006) 60
Online since: July 2006
Authors: Ming Zhou, Lan Cai, X.Q. Zhu, Q.X. Dai
Grains Ultra-refinement of Materials Imposed by Pulse Laser
M.
Gleiter: Progress in Materials Science, Vol.33 (1989) No.4, pp.223
Tsenev: Materials Science and Engineering, Vol.137A (1991), pp.35
Lu: Materials and Science Engineering: Reports, Vol.16 (1996), pp.161
Lu: Materials and Science Engineering, Vol.286A (2000), pp.91
Gleiter: Progress in Materials Science, Vol.33 (1989) No.4, pp.223
Tsenev: Materials Science and Engineering, Vol.137A (1991), pp.35
Lu: Materials and Science Engineering: Reports, Vol.16 (1996), pp.161
Lu: Materials and Science Engineering, Vol.286A (2000), pp.91
Online since: October 2011
Authors: Muhammad Yahaya, Muhamad Mat Salleh, Mohammad Hafizuddin Haji Jumali, Mariam Mohamad Siti, Rozidawati Awang
Song: Journal of Materials Science and Engineering B.
Kim: Journal of Materials Research.
Mercurio: Journal Sol- Gel Science Technology.
Li: Materials Chemistry and Physics.
Yin: Materials Science and Engineering.
Kim: Journal of Materials Research.
Mercurio: Journal Sol- Gel Science Technology.
Li: Materials Chemistry and Physics.
Yin: Materials Science and Engineering.
Online since: February 2014
Authors: Ya Cong Zhang, Che Chen, Ning Yao, Zhi Long Wang, Hui Chen
Because of its excellent optical properties , Y2O2S is still irreplaceable red light-emitting materials .
Chem.B, 2002, 106:7177—7185 [4] BAI Zhao-Hui1 RI Su-Hyon1,2 ZHANG Xi-Yan*,1 LU Li-Ping1 LIU Quan-Sheng1 MI Xiao-Yun1(1School of Materials Science and Engineering,Changchun University of Science and Technology,Changchun 130022,China)(2Department of Physics,University of Science,DPR of Korea).
[5] HAN Pengde,ZHU Yiqing,ZHANG Le,CHEN Yan,WANG Lixi,ZHANG Qitu(College of Materials Science and Engineering,Nanjing University of Technology,Nanjing 210009,China).
Preparation and Properties of Upconversion Luminescent Materials of Y2O2S:Yb,Ho, Journal of the Chinese Ceramic Society, July,2012
Journal of Materials Science & Technology,, July,2012 [13] Lü Dong,WANG Wei & MIAO Chen * State Key Laboratory of Cotton Biology,Key Laboratory of Plant Stress Biology,Henan University,Kaifeng 475004,China.
Chem.B, 2002, 106:7177—7185 [4] BAI Zhao-Hui1 RI Su-Hyon1,2 ZHANG Xi-Yan*,1 LU Li-Ping1 LIU Quan-Sheng1 MI Xiao-Yun1(1School of Materials Science and Engineering,Changchun University of Science and Technology,Changchun 130022,China)(2Department of Physics,University of Science,DPR of Korea).
[5] HAN Pengde,ZHU Yiqing,ZHANG Le,CHEN Yan,WANG Lixi,ZHANG Qitu(College of Materials Science and Engineering,Nanjing University of Technology,Nanjing 210009,China).
Preparation and Properties of Upconversion Luminescent Materials of Y2O2S:Yb,Ho, Journal of the Chinese Ceramic Society, July,2012
Journal of Materials Science & Technology,, July,2012 [13] Lü Dong,WANG Wei & MIAO Chen * State Key Laboratory of Cotton Biology,Key Laboratory of Plant Stress Biology,Henan University,Kaifeng 475004,China.
Online since: June 2013
Authors: Li Jun Wei, Fang Lue Huang, Hong Peng Li
Impact response and invalidation on compression between sandwich composite laminates with different core materials and regular composite laminates were compared.
The simulation results indicated that softer core materials can absorb more impact energy, reduce the structure damage and enhance the residual compressive strength after impact.
Journal of Reinforced Plastics and Composites, 2008( 27) : 797-818
Polymer Materials Science & Engineering, 1995, 11(6): 76-81
Computational M aterials Science, 2005, 32: 252-260
The simulation results indicated that softer core materials can absorb more impact energy, reduce the structure damage and enhance the residual compressive strength after impact.
Journal of Reinforced Plastics and Composites, 2008( 27) : 797-818
Polymer Materials Science & Engineering, 1995, 11(6): 76-81
Computational M aterials Science, 2005, 32: 252-260
Online since: December 2010
Authors: Zainal Arifin Ahmad, Ahmed Omran Alhareb
Journal of Physical Science Vol. 20(2) (2009), p. 1
Mangalarja, B. k Chandrasekhar and P Manohar: Journal of materials Science and engineering.
Journal of University of Science and Technology, Vol 15 (6) (2008), p. 764
Journal of Material Research.
Journal Dental Materials.
Mangalarja, B. k Chandrasekhar and P Manohar: Journal of materials Science and engineering.
Journal of University of Science and Technology, Vol 15 (6) (2008), p. 764
Journal of Material Research.
Journal Dental Materials.
Online since: October 2011
Authors: Yang Wang, Xue Feng Wu, Xiang Wei Wang, Hong Zhi Zhang, Li Jun Yan
Laser assisted milling (LAML) is a potential method for machining difficult-to-machine materials such as superalloys and ceramics, which uses a high power laser to focally heat a workpiece prior to material removal with a traditional cutting tool.
LAML is also a potential machining method with the ability of machining planes and grooves of difficult-to-machine materials.
Melkote [12] developed a novel laser assisted micro-milling mach-ine to enable the creation of freeform three-dimensional micro-scale features in hard materials.
The main cutting force is greater than axial force and it is the common characteristics of cutting plastic materials.
References [1] Rozzi JC, Pfefferkorn FE, Shin YC: Journal of Manufacturing Science and Engineering Vol.122(4) (2000), p. 666-670 [2] Rebro PA, Shin YC, Incropera FP: Journal of Manufacturing Science and Engineering Vol.124(4) (2002), p. 875-885 [3] Pfefferkorn FE, Shin YC, Tian Y: Journal of Manufacturing Science and Engineering Vol.126(1) (2004), p.42-51 [4] Anderson M, Patwa R, Shin YC: International Journal of Machine Tools and Manufacture Vol.46(14) (2006), p.1879-1891 [5] Skvarenina S, Shin YC: International Journal of Machine Tools and Manufacture Vol.46(1) (2006),p.7-17 [6] Anderson MC, Shin YC: Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture Vol.220(12) (2006), p.2055-2067 [7] Konig W, Zaboklicki A K: NIST Special Publication, Gaithersburg, MD Vol. 847 (1993), p.455–463 [8] Shen, X. and S.
LAML is also a potential machining method with the ability of machining planes and grooves of difficult-to-machine materials.
Melkote [12] developed a novel laser assisted micro-milling mach-ine to enable the creation of freeform three-dimensional micro-scale features in hard materials.
The main cutting force is greater than axial force and it is the common characteristics of cutting plastic materials.
References [1] Rozzi JC, Pfefferkorn FE, Shin YC: Journal of Manufacturing Science and Engineering Vol.122(4) (2000), p. 666-670 [2] Rebro PA, Shin YC, Incropera FP: Journal of Manufacturing Science and Engineering Vol.124(4) (2002), p. 875-885 [3] Pfefferkorn FE, Shin YC, Tian Y: Journal of Manufacturing Science and Engineering Vol.126(1) (2004), p.42-51 [4] Anderson M, Patwa R, Shin YC: International Journal of Machine Tools and Manufacture Vol.46(14) (2006), p.1879-1891 [5] Skvarenina S, Shin YC: International Journal of Machine Tools and Manufacture Vol.46(1) (2006),p.7-17 [6] Anderson MC, Shin YC: Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture Vol.220(12) (2006), p.2055-2067 [7] Konig W, Zaboklicki A K: NIST Special Publication, Gaithersburg, MD Vol. 847 (1993), p.455–463 [8] Shen, X. and S.
Online since: October 2020
Authors: Edson Jansen Pedrosa Miranda Jr., J.M.C. dos Santos, H.V. Cantanhêde
When composite materials and structures consist of two or more different materials periodically, there will be stop band characteristic, in which there are no mechanical propagating waves.
The physical properties of PCs are not essentially determined by chemical elements and bonds in the materials, but rather on the internal specific structures.
They are created by arranging periodically two or more materials with different vibrational properties.
Acoustic band gaps in fibre composite materials are studied in [2] and band structures are calculated for 2D binary solid/solid composite systems.
Dos Santos: Materials Research Vol. 20 (2) (2017), p. 555
The physical properties of PCs are not essentially determined by chemical elements and bonds in the materials, but rather on the internal specific structures.
They are created by arranging periodically two or more materials with different vibrational properties.
Acoustic band gaps in fibre composite materials are studied in [2] and band structures are calculated for 2D binary solid/solid composite systems.
Dos Santos: Materials Research Vol. 20 (2) (2017), p. 555
Online since: March 2017
Authors: Soňa Rusnáková, Ladislav Fojtl, Milan Žaludek, Lukáš Maňas, Alexander Čapka
Jute fabric is well-known reinforcing material in composite science, however, there is a necessity to treat these fabrics to reduce moisture uptake and improve properties.
Introduction In the last three decades we have seen a great research and development in the field of composite materials resulting into application of new materials and material combinations.
Traditional support materials were used and further for better resin flow during production, resin distribution medium and Resinflow mesh were applied.
Saravanan, Determination of mechanical properties of intra-layer abaca–jute–glass fiber reinforced composite, Materials & Design 60 (2014) 643-652
Vijayarangan, Tensile, flexural and interlaminar shear properties of woven jute and jute-glass fabric reinforced polyester composites, Journal of Materials Processing Technology 207 (2008) 330-335
Introduction In the last three decades we have seen a great research and development in the field of composite materials resulting into application of new materials and material combinations.
Traditional support materials were used and further for better resin flow during production, resin distribution medium and Resinflow mesh were applied.
Saravanan, Determination of mechanical properties of intra-layer abaca–jute–glass fiber reinforced composite, Materials & Design 60 (2014) 643-652
Vijayarangan, Tensile, flexural and interlaminar shear properties of woven jute and jute-glass fabric reinforced polyester composites, Journal of Materials Processing Technology 207 (2008) 330-335