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Online since: October 2006
Authors: Jacques Lamon, R. Pailler, J.C. Ichard
This may be achieved through a directional flow and using highly
viscous silicon (thanks to a localized wick), and by keeping the sides of the materials permeable
to gas.
This led to composite materials with a thermal conductivity which was four times as high as that of those materials densified via CVI.
[6] D.Brewer, Materials Science and Engineering A, 261, 1999, 284-291
[9] R.Saliger, V.Bock, R.Petricevic, T.Tillotson, S.Geis, J.Fricke, Journal of Non-Crystalline Solids, 221, 1997, 144-150
[11] M.Singh and D.R.Behrendt, Journal of Materials Synthesis and Processing, 2, 2, 1994, 117- 123.
This led to composite materials with a thermal conductivity which was four times as high as that of those materials densified via CVI.
[6] D.Brewer, Materials Science and Engineering A, 261, 1999, 284-291
[9] R.Saliger, V.Bock, R.Petricevic, T.Tillotson, S.Geis, J.Fricke, Journal of Non-Crystalline Solids, 221, 1997, 144-150
[11] M.Singh and D.R.Behrendt, Journal of Materials Synthesis and Processing, 2, 2, 1994, 117- 123.
Online since: July 2014
Authors: K. Hemalatha, V.S.K. Venkatachalapathy, N. Alagumurthi
Aluminium based metal matrix composites have been one of the key research areas in materials processing field in the last few decades.
WEDM is considered as a unique adoption of the conventional EDM process, which uses an electrode to initialize the sparking processes [7] MATERIALS AND METHODS The material used in the present investigation consists of Aluminium alloy (Al6063) as the base matrix alloy.
Fig: 4 SEM Image of Al6063+9% Al2O3 Fig: 5 SEM Image of Al6063+6% Al2O3 Fig:6 SEM Image of Al6063+3% Al2O3 WIRE EDM Wire EDM (Electrical Discharge Machining) uses electric current and fine wire to cut conductive materials.
Pai, “Review Rein-forcement Coatings and Interfaces in Aluminium Metal Matrix Composites,” Journal Material Science, Vol. 33, No. 14, pp. 3491-3503,( 1998) [4]Mohd Dan.ish, Dr.M.Arif Siddique, “Microstructural & Morphological Evolutions of Al-Al2O3 Powder Composite during Ball Milling”, International Journal of Engineering Research & Technology, Vol.1, No.10,(2012) [5]M.
Srivatsan, “Influence of Reinforcement on Microstructure and Mechanical Response of a Magnesium Alloy,” Cur-rent Science, Vol. 87, No. 9, (2009) [6] K.K.Alaneme, M.O.Bodunrin, “Corrosion Behaviour of Alumina reinforced Aluminium (6063) metal matrix composite”, Journal of Minerals & Materials Characterisation &Engineering, Vol.10, no.12, pp 1153-1165(2011) [7] Kanlayasiri.K, Boonmung, S.(2007), “An investigation on effects of wire-EDM machining parameters on surface roughness of newly developedDC53 die steel”, Journal of Material Processing Technology, Vol.10, 26-29,(2007) [8]Gopalakannan.S, Senthilvelan.T, Renganathan.S, “Stasticical Optimisation of EDM parameter on machining of aluminium hybrid Metal Matrix composite by applying Taguchi based Grey analysis”, Journal of Scientific & Industrial Research, Vol.72, pp 358-365,( 2013) [9]Jayaram V,and Biswas S.H, “Wear ofAl2O3-SiC, Melt oxidised ceramic Composite, Wear,1999,225-229 [10]Lloyd D.J., “The solidification Microstructure of
WEDM is considered as a unique adoption of the conventional EDM process, which uses an electrode to initialize the sparking processes [7] MATERIALS AND METHODS The material used in the present investigation consists of Aluminium alloy (Al6063) as the base matrix alloy.
Fig: 4 SEM Image of Al6063+9% Al2O3 Fig: 5 SEM Image of Al6063+6% Al2O3 Fig:6 SEM Image of Al6063+3% Al2O3 WIRE EDM Wire EDM (Electrical Discharge Machining) uses electric current and fine wire to cut conductive materials.
Pai, “Review Rein-forcement Coatings and Interfaces in Aluminium Metal Matrix Composites,” Journal Material Science, Vol. 33, No. 14, pp. 3491-3503,( 1998) [4]Mohd Dan.ish, Dr.M.Arif Siddique, “Microstructural & Morphological Evolutions of Al-Al2O3 Powder Composite during Ball Milling”, International Journal of Engineering Research & Technology, Vol.1, No.10,(2012) [5]M.
Srivatsan, “Influence of Reinforcement on Microstructure and Mechanical Response of a Magnesium Alloy,” Cur-rent Science, Vol. 87, No. 9, (2009) [6] K.K.Alaneme, M.O.Bodunrin, “Corrosion Behaviour of Alumina reinforced Aluminium (6063) metal matrix composite”, Journal of Minerals & Materials Characterisation &Engineering, Vol.10, no.12, pp 1153-1165(2011) [7] Kanlayasiri.K, Boonmung, S.(2007), “An investigation on effects of wire-EDM machining parameters on surface roughness of newly developedDC53 die steel”, Journal of Material Processing Technology, Vol.10, 26-29,(2007) [8]Gopalakannan.S, Senthilvelan.T, Renganathan.S, “Stasticical Optimisation of EDM parameter on machining of aluminium hybrid Metal Matrix composite by applying Taguchi based Grey analysis”, Journal of Scientific & Industrial Research, Vol.72, pp 358-365,( 2013) [9]Jayaram V,and Biswas S.H, “Wear ofAl2O3-SiC, Melt oxidised ceramic Composite, Wear,1999,225-229 [10]Lloyd D.J., “The solidification Microstructure of
Online since: August 2016
Authors: M.P. Deshpande, Kiran N. Patel, S.H. Chaki, Vivek P. Gujarati, Kamakshi Patel
Nanoparticles show novel properties that are significantly different from bulk solid materials.
Materials.
All materials used in the experiment were of analytical grade.
Kim, Materials Science and Engineering B. 128 (2006) 111-114
Kimb,Materials Science and Engineering B 128 (2006) 111–114
Materials.
All materials used in the experiment were of analytical grade.
Kim, Materials Science and Engineering B. 128 (2006) 111-114
Kimb,Materials Science and Engineering B 128 (2006) 111–114
Online since: July 2020
Authors: Vu Ngoc Pi, Luu Anh Tung, Tran Thi Hong, Nguyen Manh Cuong, Le Hong Ky, Nguyen Van Cuong, Nguyen Thanh Tu, Tran Thanh Hoang
Materials Science-Poland, 2008. 26(3): p. 547-554
Journal of materials processing technology, 2005. 164: p. 889-896
Journal of Materials Processing Technology, 2003. 138(1-3): p. 475-478
Journal of Materials Processing Technology, 2007. 184(1-3): p. 27-31
Journal of Materials Processing Technology, 2004. 149(1-3): p. 284-288
Journal of materials processing technology, 2005. 164: p. 889-896
Journal of Materials Processing Technology, 2003. 138(1-3): p. 475-478
Journal of Materials Processing Technology, 2007. 184(1-3): p. 27-31
Journal of Materials Processing Technology, 2004. 149(1-3): p. 284-288
Online since: September 2013
Authors: Rachmat Andika, Muhammad Hikam
Recent Development in Ferroelectric Smart Materials.
Journal Material Letters 56, 933-940, (2002)
Journal of Material Science: Materials In Electronics 13, (2002)
Journal Material Science Engenering, (2012)
Journal Material Letters 82, 205-207, (2012)
Journal Material Letters 56, 933-940, (2002)
Journal of Material Science: Materials In Electronics 13, (2002)
Journal Material Science Engenering, (2012)
Journal Material Letters 82, 205-207, (2012)
Online since: May 2011
Authors: Li Ping Li, Yan Zhao, Qin Liu, Shu Cai Li, Ning Zhang
Present grouting materials can hardly meet the requirements to block up the high-pressure water burst [1-5].
Experimental design of grouting based on uniform Choice of experimental factors The experimental material is a new polymeric grouting material.
Simulation materials are composed of sand and gravel, referencing the results of penetration testing device.
Simulation materials (See Tables 8 and 9) with different permeability coefficients is vibrated and put into the test container.
J, Yan Chen: International Journal of Materials & Product Technology Vol. 20(2004) p. 101-114
Experimental design of grouting based on uniform Choice of experimental factors The experimental material is a new polymeric grouting material.
Simulation materials are composed of sand and gravel, referencing the results of penetration testing device.
Simulation materials (See Tables 8 and 9) with different permeability coefficients is vibrated and put into the test container.
J, Yan Chen: International Journal of Materials & Product Technology Vol. 20(2004) p. 101-114
Online since: June 2012
Authors: Bing Hua Zhao, Shi Ping Zhang
Polypropylene fibers can also reduce cracking, and improve the cracking resistance of concrete materials.
Concrete admixture used was JM–PCA produced by Jiangsu Bote New Materials Co., Ltd.
BK 2011690) and State Key Laboratory of High Performance Civil Engineering Materials ( No. 2010CEM019).
Olek: Materials and Structures Vol. 36 (260) (2003), p. 386–395
Shah: ACI Materials Journal Vol.
Concrete admixture used was JM–PCA produced by Jiangsu Bote New Materials Co., Ltd.
BK 2011690) and State Key Laboratory of High Performance Civil Engineering Materials ( No. 2010CEM019).
Olek: Materials and Structures Vol. 36 (260) (2003), p. 386–395
Shah: ACI Materials Journal Vol.
Online since: October 2017
Authors: Shuang Jie Zhang, Shi Bo Ma, Hua Jun Yan, Rui Dong Hou
Study on Interface Formation and Microstructures Evolution
of Metal Shear Extrusion Bonding
Ruidong Houa, Shuangjie Zhangb, Shibo Mac, Huajun Yand
School of Materials Science and Engineering, Hebei University of Science and Technology,
Hebei Key Laboratory of Material Near-net Forming Technology, Shijiazhuang 050018, China
ahouruidong1991@163.com, bzsjzlili@163.com, cmashibo1980@163.com, dyanhj22@163.com
Keywords: Shear bonding, Q345 steel, press quantity, shear rate, tensile strength.
Materials and Experimental Procedures Experiment material is low alloy Q345 steel, the chemical composition is listed in Table 1, and dimensions of the plates are 120mm × 29mm × 22mm.
References [1] Kenji H, Takao F, Yasutsugu Y: Journal of the JSTP.
Vol.28(2015), p.1123-1130 [5] Jin-Woop, Chanwoo Y, Younhee K: Materials Science & Engineering A.
Vol 46(2009), p. 29-35 [7] Yongjuan D, Xiaoli Z //Applied Mechanics and Materials. 2014, 633-634: 197-200 [8] Bo M, Yan P, Yunfei L: Transactions of Materials and Heat Treatment.Vol.31 (2010), p.141-146 [9] Fuxian Z, Yanchun L, Yanmei L: Journal of Northeastern University (Natural Science).Vol. 26 (2005), p.565-569 [10] Shenghua Z, Zujun G: Journal of Central South University of Technology (Natural Science).Vol.26 (1995), p.512-514
Materials and Experimental Procedures Experiment material is low alloy Q345 steel, the chemical composition is listed in Table 1, and dimensions of the plates are 120mm × 29mm × 22mm.
References [1] Kenji H, Takao F, Yasutsugu Y: Journal of the JSTP.
Vol.28(2015), p.1123-1130 [5] Jin-Woop, Chanwoo Y, Younhee K: Materials Science & Engineering A.
Vol 46(2009), p. 29-35 [7] Yongjuan D, Xiaoli Z //Applied Mechanics and Materials. 2014, 633-634: 197-200 [8] Bo M, Yan P, Yunfei L: Transactions of Materials and Heat Treatment.Vol.31 (2010), p.141-146 [9] Fuxian Z, Yanchun L, Yanmei L: Journal of Northeastern University (Natural Science).Vol. 26 (2005), p.565-569 [10] Shenghua Z, Zujun G: Journal of Central South University of Technology (Natural Science).Vol.26 (1995), p.512-514
Online since: August 2012
Authors: Mariane Costalonga de Aguiar, Carlos Maurício Fontes Vieira, Monica Castoldi Borlini Gadioli, Sérgio Neves Monteiro, Abiliane de Andrade Pazeto
As raw materials, a clayey ceramic body for red ceramic production and a granite waste, resulting from ornamental stones cutting with the multi-wire technology were used.
Experimental Procedure The raw materials used in this work were a clayey body and a granite waste.
Raw materials Compositions C0W C10W C20W C30W Clay 100 90 80 70 Waste 0 10 20 30 Rectangular specimens were prepared by 20 MPa uniaxial press-molding and tested according to procedures described elsewhere [8,10].
Vieira: Journal of the European Ceramic Society Vol. 26 (2004), p. 305
Acchar: Applied Clay Science Vol. 30 (2005), p. 42
Experimental Procedure The raw materials used in this work were a clayey body and a granite waste.
Raw materials Compositions C0W C10W C20W C30W Clay 100 90 80 70 Waste 0 10 20 30 Rectangular specimens were prepared by 20 MPa uniaxial press-molding and tested according to procedures described elsewhere [8,10].
Vieira: Journal of the European Ceramic Society Vol. 26 (2004), p. 305
Acchar: Applied Clay Science Vol. 30 (2005), p. 42