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Online since: May 2014
Authors: Ping Cao, Yue Bai, Zhi Qu
Huang: Journal of Magnetism and Magnetic Materials, Vol. 324(2012), p.1733
[7] K.C.
Li: Journal of Materials Science & Technology, Vol. 28(2012), p. 313 [14] A.
Datta: Journal of Magnetism and Magnetic Materials, Vol. 345(2013), p.159 [16] H.
Kondo: Materials Science and Engineering: B, Vol. 173( 2010), p.7 [17] C.
Pan: Journal of Magnetism and Magnetic Materials, Vol. 309( 2007), p. 25 [18] Amalia Mesaros, Cristina D.
Li: Journal of Materials Science & Technology, Vol. 28(2012), p. 313 [14] A.
Datta: Journal of Magnetism and Magnetic Materials, Vol. 345(2013), p.159 [16] H.
Kondo: Materials Science and Engineering: B, Vol. 173( 2010), p.7 [17] C.
Pan: Journal of Magnetism and Magnetic Materials, Vol. 309( 2007), p. 25 [18] Amalia Mesaros, Cristina D.
Online since: October 2023
Authors: Pavlos K. Pandis, Vassilis N. Stathopoulos, Paraskevi Nanou, Marina Georgala
Concerning reactor design, electrode materials and operation modes, great achievements have been reported with an emphasis on developing anode materials to improve overall MFC performance.
Umar, Recent Advances in Anodes for Microbial Fuel Cells: An Overview, Materials (Basel), 13 (2020)
Rodríguez-Couto, Development and modification of materials to build cost-effective anodes for microbial fuel cells (MFCs): An overview, Biochemical Engineering Journal, 164 (2020) 107779
Lewis, 3D-Printing of Lightweight Cellular Composites, Advanced Materials, 26 (2014) 5930-5935
Comparison of processing and effects of multi-wall and single-wall carbon nanotubes on thermal, mechanical and electrical properties, Journal of Materials Science & Technology, 121 (2022) 52-66
Umar, Recent Advances in Anodes for Microbial Fuel Cells: An Overview, Materials (Basel), 13 (2020)
Rodríguez-Couto, Development and modification of materials to build cost-effective anodes for microbial fuel cells (MFCs): An overview, Biochemical Engineering Journal, 164 (2020) 107779
Lewis, 3D-Printing of Lightweight Cellular Composites, Advanced Materials, 26 (2014) 5930-5935
Comparison of processing and effects of multi-wall and single-wall carbon nanotubes on thermal, mechanical and electrical properties, Journal of Materials Science & Technology, 121 (2022) 52-66
Online since: July 2021
Authors: Viktoriia Shvedun, Oleksii Kaglyak, Bohdan Romanov, Kateryna Romanova, Oksana Myrgorod, Artem Ruban
Laser shaping of sheet materials is a flexible process and is carried out without force contact on the material, it allows forming, among other things, brittle, elastic and difficult-to-deformed materials.
It does not require heavy metal-intensive equipment and tools, allows formation of rigid, elastic materials and brittle materials.
Osoblyvosti lazernogo formoutvorennya lystovych materialiv [Features of laser formation of sheet materials].
Journal of Manufacturing Science and Engineering. 2002.
Journal of Manufacturing Process. 2001.
It does not require heavy metal-intensive equipment and tools, allows formation of rigid, elastic materials and brittle materials.
Osoblyvosti lazernogo formoutvorennya lystovych materialiv [Features of laser formation of sheet materials].
Journal of Manufacturing Science and Engineering. 2002.
Journal of Manufacturing Process. 2001.
Online since: November 2011
Authors: Xiao Zhen Zhang, Yong Qing Wang, Jian Er Zhou, Jing Zhang, Shi Kai Zhao, Xi E Cai
Influence of Clay Materials on Acicular Mullite Porous Ceramic
Jian-er Zhou a, Xiaozhen Zhang b, Jing Zhang, Yongqing Wang,
Shikai Zhao and Xi-e Cai
Key Laboratory of Jiangxi Universities for Inorganic Membranes, School of Materials Science and Engineering, Jingdezhen Ceramic Institute, Jingdezhen 333001, P.R.
Porous acicular mullite ceramic was prepared by in-situ reaction sintering, using clay materials and Al(OH)3) as the raw materials.
Different clay materials and industrial Al(OH)3 powder were used as the starting materials to synthesize the mullite ceramics.
Miao: Materials Letters vol. 38(1999), p. 167
Wang: Journal of ceramics vol. 31(2010), p. 46 (in Chinese)
Porous acicular mullite ceramic was prepared by in-situ reaction sintering, using clay materials and Al(OH)3) as the raw materials.
Different clay materials and industrial Al(OH)3 powder were used as the starting materials to synthesize the mullite ceramics.
Miao: Materials Letters vol. 38(1999), p. 167
Wang: Journal of ceramics vol. 31(2010), p. 46 (in Chinese)
Online since: September 2011
Authors: Yong Hua Ren, Xiao Ning Sun, Hong Song
Study on the sound absorption properties of several kinds of fibers
Yonghua Ren 1,2,a Xiaoning Sun 1,b Hong Song 1,c
1School of Textile & Materials , Xi’an Polytechnic University , XI’an 710048 , China
2School of Textile & Materials , Donghua University , Shanghai 201620 , China
a ryh@mail.dhu.edu.cn
Keywords: sound absorption coefficient, material thickness, material density, and cavity length
Abstract.
Results and discussion The effects of cavity length on sound absorption properties of materials.
Progress in Textile Science & Technology, 2008, No. 5, p. 75-78 [2] Zhang Yuqing, Zhang Xinan.
Wool Textile Journal. 2008, No. 11, p. 28-30 [3] Zhang Chi.
Beijing, China environmental science press, 2007, No. 2 [4] Gao Hongwu.
Results and discussion The effects of cavity length on sound absorption properties of materials.
Progress in Textile Science & Technology, 2008, No. 5, p. 75-78 [2] Zhang Yuqing, Zhang Xinan.
Wool Textile Journal. 2008, No. 11, p. 28-30 [3] Zhang Chi.
Beijing, China environmental science press, 2007, No. 2 [4] Gao Hongwu.
Online since: December 2011
Authors: Ching Chang Lin, Cheng Hou Liu, Cho Liang Tsai
Besides, the long-term durability of CFRP is an important factor in successful application as repair materials for concrete.
NSC 99-2221- E -035-084 by the National Science Council, Taiwan, R.O.C.
Bradford: Construction and Building Materials, Vol.9, No.2 (1995), p.115
Farschman: Construction and Building Materials, Vol. 9, No. 3 (1995), p.141 [11] H.A.
Gupta: ACI Materials Journal, November-December (2000), p.703
NSC 99-2221- E -035-084 by the National Science Council, Taiwan, R.O.C.
Bradford: Construction and Building Materials, Vol.9, No.2 (1995), p.115
Farschman: Construction and Building Materials, Vol. 9, No. 3 (1995), p.141 [11] H.A.
Gupta: ACI Materials Journal, November-December (2000), p.703
Online since: May 2012
Authors: Yuan Li, Lin Xiang Pang, Lan Qiao
The materials of the dam are composed by a variety of media that have irregular geometric and complex physical properties.
Fig 1, The standard section of Lana Calculation Method and Calculation Parameters Modeling.The model reflects the system's geometry, materials, force and other characteristics.
Table 1.All calculated parameters of dam materials No.
References [1]G.Y.Li,L.S.Wang,Z.K.Mi:Research on stress-strain behavior of soil core rock-fill dam.Chinese Journal of Rock Mechanics and Engineering.Vol.23(2004),p.1363[in Chinese] [2]Y.J Qian, S.S Chen:Verification of numerical simulation results of stress and deformation of core-wall dams.HYDRO-SCIENCE AND ENGINEERING.
International Journal for Numerical and Analytical Methods in Geomechanics.
Fig 1, The standard section of Lana Calculation Method and Calculation Parameters Modeling.The model reflects the system's geometry, materials, force and other characteristics.
Table 1.All calculated parameters of dam materials No.
References [1]G.Y.Li,L.S.Wang,Z.K.Mi:Research on stress-strain behavior of soil core rock-fill dam.Chinese Journal of Rock Mechanics and Engineering.Vol.23(2004),p.1363[in Chinese] [2]Y.J Qian, S.S Chen:Verification of numerical simulation results of stress and deformation of core-wall dams.HYDRO-SCIENCE AND ENGINEERING.
International Journal for Numerical and Analytical Methods in Geomechanics.
Online since: July 2014
Authors: Arumugam Mahamani, Sai Kumar Jetti, M. Vijay Sekar Reddy, P. Vamsi Krishna Naidu, M. Rithesh, K. Veeranagaiah, N. Sakthivelon
Electrical discharge machining is considered as a suitable process for making complicated shape of difficult to machine materials.
Zeng, B.Yang and Q.Li: Microstructure and mechanical properties of in-situ Al- Cu/TiC composites: Journal Materials Science Technology Vol 14 (1998), p.255- 258
Technol, Vol 22 (2006), p.514-518 [7] P.Narendrasingh, K.Raghukandan, M.Rathinasabapathi and B.C.Pai: Electric discharge machining of Al-10%SiC as cast metal matrix composites: Journal of material processing technology, Vol 155 -156 (2000), p.1653-1657 [8] R.Karthikeyan, S.Raju and R.S.Nagavazen: Optimization of EDM characteristics of SiC/LM 25 Al composite using goal programming: Journal of material science technology, Vol 17(2001), p.57-60
Pai: Optimization by Grey relational analysis of EDM parameters on machining Al–10%SiCP composites: Journal of Materials Processing Technology,Vol 155–156 (2004), p.1658–1661 [11] M.
Vedhagiri Eswaran: (2013) Electrical discharge machining of Al-TiB2 with low-frequency vibrating tool: Science and Engineering of Composite Materials, Vol 0 (2013), p.1–8, DOI: 10.1515/secm-2013-0023 [12] P.Senthil, Vinodh Sekar and Adarsh Kumar Singh: Parametric optimization of EDM on Al- Cu/TiB2 in-situ Metal Matrix Composites using TOPSIS method: International Journal of Machining and Machinability of Materials,(2014) (Accepted manuscript), Available at http://www.inderscience.com/info/ingeneral/forthcoming.php?
Zeng, B.Yang and Q.Li: Microstructure and mechanical properties of in-situ Al- Cu/TiC composites: Journal Materials Science Technology Vol 14 (1998), p.255- 258
Technol, Vol 22 (2006), p.514-518 [7] P.Narendrasingh, K.Raghukandan, M.Rathinasabapathi and B.C.Pai: Electric discharge machining of Al-10%SiC as cast metal matrix composites: Journal of material processing technology, Vol 155 -156 (2000), p.1653-1657 [8] R.Karthikeyan, S.Raju and R.S.Nagavazen: Optimization of EDM characteristics of SiC/LM 25 Al composite using goal programming: Journal of material science technology, Vol 17(2001), p.57-60
Pai: Optimization by Grey relational analysis of EDM parameters on machining Al–10%SiCP composites: Journal of Materials Processing Technology,Vol 155–156 (2004), p.1658–1661 [11] M.
Vedhagiri Eswaran: (2013) Electrical discharge machining of Al-TiB2 with low-frequency vibrating tool: Science and Engineering of Composite Materials, Vol 0 (2013), p.1–8, DOI: 10.1515/secm-2013-0023 [12] P.Senthil, Vinodh Sekar and Adarsh Kumar Singh: Parametric optimization of EDM on Al- Cu/TiB2 in-situ Metal Matrix Composites using TOPSIS method: International Journal of Machining and Machinability of Materials,(2014) (Accepted manuscript), Available at http://www.inderscience.com/info/ingeneral/forthcoming.php?
Online since: May 2014
Authors: Nattawit Promma, Nad Siroros
The Blatz-Ko hyperelastic model was used to identify the shear modulus of the materials by curve fitting method.
Material Parameter Identification Mechanic of material is where the behavior of materials is structurally studied.
[4] Wiwatwongwana F. et al., Identification of Shear Modulus of Gelatin Blended with Carboxymethylcellulose Scaffolds Using Curve Fitting Method from Compressive Test, Journal of Materials Science Research; Vol. 1, No. 4; 2012
[6] Promma N, et al., Application of the virtual fields method to mechanical characterization of elastomeric materials, International Journal of Solids and Structures 46.3, 2009:698-715
R, Jr., DeWolf J T, Mechanics of Materials 4th Edition in SI units, McGraw-Hill, NY, USA, 2006.
Material Parameter Identification Mechanic of material is where the behavior of materials is structurally studied.
[4] Wiwatwongwana F. et al., Identification of Shear Modulus of Gelatin Blended with Carboxymethylcellulose Scaffolds Using Curve Fitting Method from Compressive Test, Journal of Materials Science Research; Vol. 1, No. 4; 2012
[6] Promma N, et al., Application of the virtual fields method to mechanical characterization of elastomeric materials, International Journal of Solids and Structures 46.3, 2009:698-715
R, Jr., DeWolf J T, Mechanics of Materials 4th Edition in SI units, McGraw-Hill, NY, USA, 2006.