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Online since: October 2014
Authors: Bogumił Chiliński, Damian Markuszewski
The implementation of modern constructional materials such as composite materials in order to construct the composite masts has some consequences.
The implementation of modern constructional materials such as composite materials in order to construct the composite masts has some consequences.
The implementation of composite materials gives new perspectives in design.
Folęga, FEM analysis of the options of using composite materials in flexsplines, Archives of Materials Science and Engineering, 51(1) (2011) 55-60
Siwiec, Numerical analysis of selected materials for flexsplines, Archives of Metallurgy and Materials, 57(1) (2012) 185-191
The implementation of modern constructional materials such as composite materials in order to construct the composite masts has some consequences.
The implementation of composite materials gives new perspectives in design.
Folęga, FEM analysis of the options of using composite materials in flexsplines, Archives of Materials Science and Engineering, 51(1) (2011) 55-60
Siwiec, Numerical analysis of selected materials for flexsplines, Archives of Metallurgy and Materials, 57(1) (2012) 185-191
Online since: June 2012
Authors: Michael Eisterer, Tatiana Prikhna, Tobias Habisreuther, Jan Dellith, Christa Schmidt, Doris Litzkendorf, Athanasios G. Mamalis, Wolfgang Gawalek, Yaroslav Savchuk, Viktor Moshchil, Sergey Dub, Shu Jie You, Ulrich Dittrich, Nina Sergienko, Vladimir Sverdun, Roman Kuznietsov, Friedrich Karau, Istvan Vajda, Alexander Soldatov, Harald W. Weber, Vladimir Sokolovsky, Jacques G. Noudem, Xavier Chaud
SPS-manufactured in- situ MgB2-based materials usually have somewhat higher jc than sintered ex-situ.
Cao, Materials Science and Engineering R Vol. 63, (2009), p. 127
Xu, Journal of Applied Physics Vol. 93, (2003), p. 6208
Gawalek, et al., Materials Science Forum Vol. 670. (2011), p. 21-27
Gawalek, et al., Advances in Science and Technology Vol. 75 (2010), p. 161.
Cao, Materials Science and Engineering R Vol. 63, (2009), p. 127
Xu, Journal of Applied Physics Vol. 93, (2003), p. 6208
Gawalek, et al., Materials Science Forum Vol. 670. (2011), p. 21-27
Gawalek, et al., Advances in Science and Technology Vol. 75 (2010), p. 161.
Online since: September 2014
Authors: Aniello Riccio, F. Scaramuzzino, C. di Costanzo, P. di Gennaro
AIAA Journal 2003;41(5):933-940
Journal of Composite Materials 2013; DOI:10.1177/0021998313502741 [4] A.
Journal of Composite Materials 2013; DOI:10.1177/0021998313502742
Composite Science and Technology 2011;71(6):836-846
Progressive damage modeling in fiber-reinforced materials.
Journal of Composite Materials 2013; DOI:10.1177/0021998313502741 [4] A.
Journal of Composite Materials 2013; DOI:10.1177/0021998313502742
Composite Science and Technology 2011;71(6):836-846
Progressive damage modeling in fiber-reinforced materials.
Online since: July 2011
Authors: Jun Cai Zhang, Cheng Chang Jia
Preparation of Nano Ti3SiC2/MoSi2 Composite by SPS Process
ZHANG Jun-cai1,2,a, JIA Cheng-chang1,b
1School of Materials Science and Engineering, Beijing University of Science and Technology, Beijing 100083, China;
2College of Materials Science and Engineering, Institute of Science and Technology Heilongjiang, Harbin 150027, China
aemail:zhangjuncai1212@163.com; bemail:jiachc@126.com
Keywords: Ti3SiC2; MoSi2; composite materials; interface
Abstract.
HfB2, SiC, ZrO2, and Si3N4 attract wide focus as good second-phase materials [1-7], which improves the property of MoSi2 materials in some extent, but still with more or less problems.
Table 1 listed the main mechanical properties of main reinforced materials and MoSi2, Ti3SiC2.
Materials Chemistry and Physics, 2009, (113): 626–633
Materials Science and Engineering A 2008, (479): 23–30
HfB2, SiC, ZrO2, and Si3N4 attract wide focus as good second-phase materials [1-7], which improves the property of MoSi2 materials in some extent, but still with more or less problems.
Table 1 listed the main mechanical properties of main reinforced materials and MoSi2, Ti3SiC2.
Materials Chemistry and Physics, 2009, (113): 626–633
Materials Science and Engineering A 2008, (479): 23–30
Online since: September 2013
Authors: Guo Fu Yin, Dai Wu
As long as there are differences in basic properties of materials, different materials could be marked.
The product data structure visually displays all materials, including all materials and the materials consumed during the manufacturing process that comprises the final product, clearly describing the recursive relationship between the materials and the relation between the manufacturing processes.
Materials have the complete digital description.
Chen: Journal of Computer-Aided Design & Computer Graphics, Vol. 38 (2006) No.3, pp.464-469.
Journal of Qiqihar University(Natural Science Edition), Vol.28 (2007), No.3, pp53-57.
The product data structure visually displays all materials, including all materials and the materials consumed during the manufacturing process that comprises the final product, clearly describing the recursive relationship between the materials and the relation between the manufacturing processes.
Materials have the complete digital description.
Chen: Journal of Computer-Aided Design & Computer Graphics, Vol. 38 (2006) No.3, pp.464-469.
Journal of Qiqihar University(Natural Science Edition), Vol.28 (2007), No.3, pp53-57.
Online since: January 2016
Authors: Suhaimi Hassan, Wan Hamzah Azmi, Subhash Kamal, Korada Viswanatha Sharma
The experimental data of thermo-physical properties determined using spherical particles in a wide range of concentration, particle size, materials and operating temperatures are available in the literature.
The equation for the Prandtl index is to be determined applicable to nanofluids of different particle size, materials, temperatures and volume concentration up to 4.0%. 7.
Yang, Enhanced thermal conductivity of TiO2-water based nanofluids, International Journal of Thermal Sciences 44 (4) (2005) 367-373
[21] E.R. van Driest, On turbulent flow near a wall, Journal of Aeronautical Sciences 23 (11) (1956) 1007-1011
Kakac, A new method to predict convective heat transfer in a tube with twisted tape inserts for turbulent flow, International Journal of Thermal Sciences 41 (10) (2002) 955-960
The equation for the Prandtl index is to be determined applicable to nanofluids of different particle size, materials, temperatures and volume concentration up to 4.0%. 7.
Yang, Enhanced thermal conductivity of TiO2-water based nanofluids, International Journal of Thermal Sciences 44 (4) (2005) 367-373
[21] E.R. van Driest, On turbulent flow near a wall, Journal of Aeronautical Sciences 23 (11) (1956) 1007-1011
Kakac, A new method to predict convective heat transfer in a tube with twisted tape inserts for turbulent flow, International Journal of Thermal Sciences 41 (10) (2002) 955-960
Online since: July 2014
Authors: P. Nagaraj, N. Rajesh Jesudoss Hynes, M. Prakash
Joining of aluminum alloys, stainless steels and composites with any other materials is required in many underwater welding applications.
Transient analysis of heat conduction in the plate has been calculated numerically including heat generation due to friction between the materials.
The welding of dissimilar materials such as steel to aluminum plate is achieved in the modified machine.
Angela Jennifa Sujana, Investigation on Joining of Aluminum and Mild Steel by Friction Stud Welding, Materials and Manufacturing Processes. 27 (2012) 1409-1413
Meby Selvaraj, Finite element based thermal modelling of friction welding of dissimilar materials, International Journal of Modern Physics. 22 (2013) 196–202
Transient analysis of heat conduction in the plate has been calculated numerically including heat generation due to friction between the materials.
The welding of dissimilar materials such as steel to aluminum plate is achieved in the modified machine.
Angela Jennifa Sujana, Investigation on Joining of Aluminum and Mild Steel by Friction Stud Welding, Materials and Manufacturing Processes. 27 (2012) 1409-1413
Meby Selvaraj, Finite element based thermal modelling of friction welding of dissimilar materials, International Journal of Modern Physics. 22 (2013) 196–202
Online since: August 2013
Authors: Shu Yu Yao, Wei Wei Zhang, Han Ye, Jing Tian Hou
Keywords: fly ash, glass powder, architecture materials
Abstract.
Experiments Materials.
The sample Y5 and E1 with compact structure, high micro-hardness satisfied the requirements of building materials and structural materials.
Moreover, the phases of the sample Y5 and E1 were similar to those of the natural stone used as decorative materials.
Journal of Jilin Institute of Architecture & Civil Engineering, 2009, 26(5): 15-17
Experiments Materials.
The sample Y5 and E1 with compact structure, high micro-hardness satisfied the requirements of building materials and structural materials.
Moreover, the phases of the sample Y5 and E1 were similar to those of the natural stone used as decorative materials.
Journal of Jilin Institute of Architecture & Civil Engineering, 2009, 26(5): 15-17
Online since: January 2017
Authors: Zi Qiang Wang, Yu Mei Luo, Fen Xu, Li Xian Sun
Porous Carbon Derived from Metal-Organic Framework as an Anode
for Lithium-Ion Batteries with Improved Performance
Yu-mei Luo1, Li-xian Sun1, 2, a, Fen Xu1, b, Zi-qiang Wang1, 2
1Guangxi Key Laboratory of Information Materials & Guangxi Collaborative Innovation Center of Structure and Property for New Energy and Materials, School of Material Science and Engineering, Guilin University of Electronic Technology, Guilin 541004, P.
It exhibited a typical cyclic voltammogram curve (CV) of carbon anode materials, in agreement with other reports on carbonaceous materials [27, 28].
Stein: Advanced Energy Materials, Vol. 2 (2012) No.9, p.1056
Zhang: Journal of Materials Chemistry A, Vol. 1 (2013) No.14, p.4490
Hyeon: Advanced Materials, Vol. 18 (2006) No.16, p.2073
It exhibited a typical cyclic voltammogram curve (CV) of carbon anode materials, in agreement with other reports on carbonaceous materials [27, 28].
Stein: Advanced Energy Materials, Vol. 2 (2012) No.9, p.1056
Zhang: Journal of Materials Chemistry A, Vol. 1 (2013) No.14, p.4490
Hyeon: Advanced Materials, Vol. 18 (2006) No.16, p.2073
Online since: January 2012
Authors: Somasundaram Saravanan, K. Raghukandan
References
[1] S.Saravanan, K.Raghukandan, weldability windows for dissimilar metals cladding using explosives, Theory and practice of Energetic Materials, Vol VIII,(2009) pp 585-589
[2] B.Crossland, “Explosive welding of metals and its applications” Oxford university press (1982)
The microstructure of explosive welded joint sand their mechanical properties J Mater Science (2010) [7] Vi.
Kuz'min, Vi.Liysak ,An.Kriventsov and Mayakovlev, Critical conditions of the formation and failure of welded joints in explosive welding Welding International 2004 18 (3) 223–227 [8] Jun Hyun Han, Jae Pyoung Ahn, Myung Chul Shin journal of materials science 38 (2003) 13– 18 [9] J.G Banker National Association of Corrosion Engineers, NACE Paper 03459(2003) [10] P.Manikandan, K.Hokamoto, M.Fujita, K.Raghukandan, R.Tomoshige, Control of energetic conditions by employing interlayer of different thickness for explosive welding of titanium/304 stainless steel journal of materials processing technology 195 (2008) 232–240
[11] S.Saravanan, K.Raghukandan Energy Dissipation in Explosive Welding of Dissimilar Metals Material Science Forum Vol. 673 (2011) pp 125-129 [12] P.V.Vaidyanathan and Ar.Ramanathan, Computer aided design of explosive welding systems J.
Raghukandan “Analysis of the explosive cladding of cu–low carbon steel plates” Journal of Materials Processing Technology 139 (2003) 573–577
The microstructure of explosive welded joint sand their mechanical properties J Mater Science (2010) [7] Vi.
Kuz'min, Vi.Liysak ,An.Kriventsov and Mayakovlev, Critical conditions of the formation and failure of welded joints in explosive welding Welding International 2004 18 (3) 223–227 [8] Jun Hyun Han, Jae Pyoung Ahn, Myung Chul Shin journal of materials science 38 (2003) 13– 18 [9] J.G Banker National Association of Corrosion Engineers, NACE Paper 03459(2003) [10] P.Manikandan, K.Hokamoto, M.Fujita, K.Raghukandan, R.Tomoshige, Control of energetic conditions by employing interlayer of different thickness for explosive welding of titanium/304 stainless steel journal of materials processing technology 195 (2008) 232–240
[11] S.Saravanan, K.Raghukandan Energy Dissipation in Explosive Welding of Dissimilar Metals Material Science Forum Vol. 673 (2011) pp 125-129 [12] P.V.Vaidyanathan and Ar.Ramanathan, Computer aided design of explosive welding systems J.
Raghukandan “Analysis of the explosive cladding of cu–low carbon steel plates” Journal of Materials Processing Technology 139 (2003) 573–577