Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: June 2015
Authors: M. Manikandan, Surendran Surendran
Materials Science and Engineering, 277A (2010), pp25-32
Tsao, Tribological behavior of aluminum/SiC/nickel-coated graphite hybrid composites, Materials Science and Engineering, 333A (2002), pp.134-145
Shui, Effects of macroscopic graphite particulates on the damping behavior of commercially pure aluminium, Materials Science and Engineering, 2002; 325A, pp.444-453
Ray, Y.Liu, Tribological properties of metal matrix–graphite particle composites, International Materials Review, 37 (3) (1992), pp.129-149
Rajkumar, Wear performance of Al–SiC–B4C hybrid composites under dry sliding conditions, Materials and Design 47 (2013), pp.456–464
Tsao, Tribological behavior of aluminum/SiC/nickel-coated graphite hybrid composites, Materials Science and Engineering, 333A (2002), pp.134-145
Shui, Effects of macroscopic graphite particulates on the damping behavior of commercially pure aluminium, Materials Science and Engineering, 2002; 325A, pp.444-453
Ray, Y.Liu, Tribological properties of metal matrix–graphite particle composites, International Materials Review, 37 (3) (1992), pp.129-149
Rajkumar, Wear performance of Al–SiC–B4C hybrid composites under dry sliding conditions, Materials and Design 47 (2013), pp.456–464
Online since: May 2019
Authors: Graeme E. Murch, Irina V. Belova, Mohammad Afikuzzaman
Lu, Microstructures and properties of high-entropy alloys, Progress in Materials Science, vol. 61, pp. 1-93, 2014
Vincent, Microstructural development in equiatomic multicomponent alloys, Materials Science and Engineering: A, vol. 375, pp. 213-218, 2004
Chen, On the superior hot hardness and softening resistance of AlCoCrxFeMo0. 5Ni high-entropy alloys, Materials Science and Engineering: A, vol. 528, no. 10-11, pp. 3581-3588, 2011
Chumlyakov, Tracer diffusion in single crystalline CoCrFeNi and CoCrFeMnNi high entropy alloys, Journal of Materials Research, pp. 1-8, 2018
Li, Microstructure and corrosion behaviour of FeCoNiCuSnx high entropy alloys, Materials Science and Technology, vol. 31, no. 10, pp. 1148-1152, 2015
Vincent, Microstructural development in equiatomic multicomponent alloys, Materials Science and Engineering: A, vol. 375, pp. 213-218, 2004
Chen, On the superior hot hardness and softening resistance of AlCoCrxFeMo0. 5Ni high-entropy alloys, Materials Science and Engineering: A, vol. 528, no. 10-11, pp. 3581-3588, 2011
Chumlyakov, Tracer diffusion in single crystalline CoCrFeNi and CoCrFeMnNi high entropy alloys, Journal of Materials Research, pp. 1-8, 2018
Li, Microstructure and corrosion behaviour of FeCoNiCuSnx high entropy alloys, Materials Science and Technology, vol. 31, no. 10, pp. 1148-1152, 2015
Online since: November 2010
Authors: Ferri M.H.Aliabadi, Z. Sharif-Khodaei
Fibre-optic wires can sense strain and vibration and have successfully been
integrated into composite materials.
Piezoceramic materials are used in vibration based damage detection methods to generate frequency response function or wave motions [6].
They travel on the surface of a material or through the thickness of thin materials and exhibit an infinite number of wave modes because the waves are dispersive (i.e. the wave speed is a function of frequency).
Boller, "Aircraft structural health management," Smart Materials and Structures, vol. 10, pp. 432-440, 2001
Kessler, et al., "Structural health monitoring in composite materials using frequency response methods," Journal of Composites Part B, vol. 33, pp. 87-95, 2002
Piezoceramic materials are used in vibration based damage detection methods to generate frequency response function or wave motions [6].
They travel on the surface of a material or through the thickness of thin materials and exhibit an infinite number of wave modes because the waves are dispersive (i.e. the wave speed is a function of frequency).
Boller, "Aircraft structural health management," Smart Materials and Structures, vol. 10, pp. 432-440, 2001
Kessler, et al., "Structural health monitoring in composite materials using frequency response methods," Journal of Composites Part B, vol. 33, pp. 87-95, 2002
Online since: February 2008
Authors: Yang Wu Mao, Hong Li Liu, Wen Wu Zhong
Preparation of SiOC Foam Ceramics Using Polysiloxane
Hongli Liu1, a, Wenwu Zhong
1 and Yangwu Mao2
1
College of Materials Science and Engineering, Jiamusi University, Jiamusi 154007, P.R.China
2
School of Materials Science and Engineering, BeiHang University, Beijing 100083, P.R.China
a
lhl@mse.buaa.edu.cn
Keywords: Foam ceramics, Polysiloxane, Inert filler
Abstract.
The SiOC foam ceramics were prepared using polyurethane sponge and polysiloxane as raw materials.
Introduction Foam ceramics possess favorable properties, such as high porosity, large specific surface area, high thermal shock resistance, high temperature resistance, high chemical resistance, fine mechanical strength and filtrated property, which make them good candidates for materials of heat exchange, materials of resistance to heat and sound, carrier of chemical catalyst, device of liquid metal filtration, and so on [1~3].
Chen: Journal of Materials Engineering.
Colombo, E Bernardo: Composites Science and Technology, Vol. 63(2003), p. 2353
The SiOC foam ceramics were prepared using polyurethane sponge and polysiloxane as raw materials.
Introduction Foam ceramics possess favorable properties, such as high porosity, large specific surface area, high thermal shock resistance, high temperature resistance, high chemical resistance, fine mechanical strength and filtrated property, which make them good candidates for materials of heat exchange, materials of resistance to heat and sound, carrier of chemical catalyst, device of liquid metal filtration, and so on [1~3].
Chen: Journal of Materials Engineering.
Colombo, E Bernardo: Composites Science and Technology, Vol. 63(2003), p. 2353
Online since: January 2005
Authors: Guo Dong Wang, Long Li, Chun Zheng Yang, Hua Ding, Lin Xiu Du, Hongmei Song, Pijun Zhang, Xianghua Liu
Materials and experimental procedures
The composition of the experimental steel microalloyed with Nb is shown in Table 1.
Acknowledgements This work is financially supported by National Natural Science Foundation and Baoshan Iron & Steel Group Co.
(No.50271015) References [1] Pingguang Xu, Bingzhe Bai and Hongsheng Fang: Journal of University of Science and Technology Beijing.
Krauss and S.W.Thompson: ISIJ International Vol.35 (1995), p. 937-945 [3] M.Niikura, M.Fujioka and Y.Adachi: Journal of Materials Technology Vol.117 (2001), p.341 [4] Mingchun Zhao, Ke Yang and Yiying Shan: Materials Science and Engineering Vol.A355 (2002), p. 14-20 [5] Jinbo Qu and Yiyin Shan: Journal of Iron and Steel Research, Vol.13 (2001), p. 43-47 [6] Dong Han, Sun Xinjun and Liu Qingyou: Iron and Steel, Vol.38 (2003), p. 56-66
Acknowledgements This work is financially supported by National Natural Science Foundation and Baoshan Iron & Steel Group Co.
(No.50271015) References [1] Pingguang Xu, Bingzhe Bai and Hongsheng Fang: Journal of University of Science and Technology Beijing.
Krauss and S.W.Thompson: ISIJ International Vol.35 (1995), p. 937-945 [3] M.Niikura, M.Fujioka and Y.Adachi: Journal of Materials Technology Vol.117 (2001), p.341 [4] Mingchun Zhao, Ke Yang and Yiying Shan: Materials Science and Engineering Vol.A355 (2002), p. 14-20 [5] Jinbo Qu and Yiyin Shan: Journal of Iron and Steel Research, Vol.13 (2001), p. 43-47 [6] Dong Han, Sun Xinjun and Liu Qingyou: Iron and Steel, Vol.38 (2003), p. 56-66
Online since: September 2013
Authors: Fei Xue Han, Yu Feng Wang, Pu Xuan Yan, Ying Liang Li
Experiment
Materials.
TFE-P copolymer (grade FE2701, product of Shanghai 3F New Material Co., Ltd., Shanghai, China).
European Polymer Journal, Vol. 35(1999):P. 743
[2] John Wiley, Sona.: submitted to Journal of Polymer Science, Vol. 4(1993)
Polymer Materials Science & Engineering Vol. 15(1999), P. 83.
TFE-P copolymer (grade FE2701, product of Shanghai 3F New Material Co., Ltd., Shanghai, China).
European Polymer Journal, Vol. 35(1999):P. 743
[2] John Wiley, Sona.: submitted to Journal of Polymer Science, Vol. 4(1993)
Polymer Materials Science & Engineering Vol. 15(1999), P. 83.
Online since: December 2012
Authors: Jian Xu, Chi Zhang, Ye Zhou, Jing Xu, Hui Min Han, Jing Wang, Peng Qu, Ning Zhao
Materials and experiment
Materials.Methacrylic acid(MAA), N,N-methylene-bis-acrylamide (MBA) and potassium persulfate (KPS) were all of analytical grade and obtained from Chengdu Kelong Chemicals Company.
In the small amplitude oscillatory shear, higher G’ indicates higher elasticity or higher entanglement/crosslink degree of the materials.
Acknowledgements The authors are grateful to the Doctoral Fund of Southwest University of Science and Technology (Contract No:10zx7104) and Opening Fund of Engineering Research Center of Biomass Materials of Ministry of Education, Southwest University of Science and Technology(contract no.: 09zxbk01), Mianyang, Sichuan 621010, China.
S., Journal of Applied Polymer Science, (1997)64, 2647–2655
[9] Yao, F., Xu, L.Q., Fu, G.D., Lin, B.P., Macromolecules (2010)43, 9761–9770 [10]Zhang, C., Easteal A., Journal of Applied Polymer Science, (2004)91, 3625-3641.
In the small amplitude oscillatory shear, higher G’ indicates higher elasticity or higher entanglement/crosslink degree of the materials.
Acknowledgements The authors are grateful to the Doctoral Fund of Southwest University of Science and Technology (Contract No:10zx7104) and Opening Fund of Engineering Research Center of Biomass Materials of Ministry of Education, Southwest University of Science and Technology(contract no.: 09zxbk01), Mianyang, Sichuan 621010, China.
S., Journal of Applied Polymer Science, (1997)64, 2647–2655
[9] Yao, F., Xu, L.Q., Fu, G.D., Lin, B.P., Macromolecules (2010)43, 9761–9770 [10]Zhang, C., Easteal A., Journal of Applied Polymer Science, (2004)91, 3625-3641.
Online since: September 2013
Authors: P. Sardjono, Novizal Novizal, Azwar Manaf
INTRODUCTION
Coupling effects which promote induced magnetization by electric fields and induced polarization by magnetic fields have added a new direction in materials research and found a new type of materials the so-called multiferoic [1].
Included in Fig.1 are mean crystallite (or grain) sizes of sintered milled materials for respectively B7ST and B3SF samples.
When milled particles for both materials are co-milled and sintered, the XRD identification showed that the material is roaming a mixture, no decomposition or transformation.
ACKNOWLEDGEMENT The authors acknowledge the support from Postgraduate program of Materials Science, Universitas Indonesia for research facilities.
Of Materials Science, Faculty of Computer Science and Material Science, Univ of Silesia, 2, Poland, The European Physical Journal, Special Topics 154, 15-18 (2008), EDP Sciences, Springer-Verlag, 2008 [4].
Included in Fig.1 are mean crystallite (or grain) sizes of sintered milled materials for respectively B7ST and B3SF samples.
When milled particles for both materials are co-milled and sintered, the XRD identification showed that the material is roaming a mixture, no decomposition or transformation.
ACKNOWLEDGEMENT The authors acknowledge the support from Postgraduate program of Materials Science, Universitas Indonesia for research facilities.
Of Materials Science, Faculty of Computer Science and Material Science, Univ of Silesia, 2, Poland, The European Physical Journal, Special Topics 154, 15-18 (2008), EDP Sciences, Springer-Verlag, 2008 [4].
Online since: December 2012
Authors: Yue Cheng Deng, Hong Chun Sun, Yuan Cheng You
N110403012)and province science and technology in the Liaoning offends pass item(NO. 2010220032).
Submitted to International Journal of Mechanical Science Vol. 38 (1996) 499-507
Submitted to Journal of Sound and Vibration Vol. 172 (1994)549-558
Submitted to Journal of Smart Materials and structures Vol. 7 (1998)
Submitted to Journal of Engineering & Test Vol. 49 (2009) 23-24
Submitted to International Journal of Mechanical Science Vol. 38 (1996) 499-507
Submitted to Journal of Sound and Vibration Vol. 172 (1994)549-558
Submitted to Journal of Smart Materials and structures Vol. 7 (1998)
Submitted to Journal of Engineering & Test Vol. 49 (2009) 23-24
Energy Efficient Laser Beam Welding of Metals with a Ultra-High Brightness Direct-Diode Laser System
Online since: November 2015
Authors: Michael Schmidt, Michael Dobler, Stefanie Kohl, Haro Fritsche, Andreas Grohe, Bastian Kruschke, Artur Laukart
In: Journal of Materials
Processing Technology (2008)
In: Computational Materials Science 46 (2009), pp. 49-56
In: Materials Science and Engineering A (2005), pp. 465-469
In: Materials Science and Engineering A (2007)
In: Journal of Electronic Materials 37.1 (2008), pp. 23-31
In: Computational Materials Science 46 (2009), pp. 49-56
In: Materials Science and Engineering A (2005), pp. 465-469
In: Materials Science and Engineering A (2007)
In: Journal of Electronic Materials 37.1 (2008), pp. 23-31