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Online since: May 2013
Authors: Morteza Khosravi, Ghodratollah Roudini, Mehdi Asgharian
Experimental Procedures
Materials.
Scott, Processing and Properties of Metal Matrix Composites Containing Discontinuous Reinforcement, Materials Science and Engineeriing , Vol. 107, (1989), P.93
Mallikarjuna, Characterization of Mechanical Properties of Al 2024 Hybrid Metal Matrix Composites, International Journal of Materials Physics, Vol. 3, (2012), P. 61
Materials Science and Engineering A, Vol. 332, (2002), P. 311
Journal of Materials Science, Vol. 21, (1986), P. 1667.
Scott, Processing and Properties of Metal Matrix Composites Containing Discontinuous Reinforcement, Materials Science and Engineeriing , Vol. 107, (1989), P.93
Mallikarjuna, Characterization of Mechanical Properties of Al 2024 Hybrid Metal Matrix Composites, International Journal of Materials Physics, Vol. 3, (2012), P. 61
Materials Science and Engineering A, Vol. 332, (2002), P. 311
Journal of Materials Science, Vol. 21, (1986), P. 1667.
Online since: May 2026
Authors: Pornsawan Assawaseangrat, Pongsert Sriprom, Phaewa Thongkham, Jurairat Taweesukyingjaroen, Apiruk Somphan, Kanjana Manamoongmongkol
Among the promising approaches is the conversion of vegetable and fruit fibers into paper materials, and the transformation of fruit seeds into activated carbon for use in ethylene adsorption, which plays a key role in fruit ripening [1].
In addition to fiber-based materials, activated carbon has gained widespread interest due to its high surface area and porous structure, making it highly effective in adsorbing gases such as ethylene [4, 5].
Materials and Methods Chemical Agent.
Siriphap: Academic Journal of Science and Applied Science, Vol. 1 (2020), p. 41-48
Charoenrein: International Journal of Food Science & Technology, Vol. 49 (2014), p. 2136-2141
In addition to fiber-based materials, activated carbon has gained widespread interest due to its high surface area and porous structure, making it highly effective in adsorbing gases such as ethylene [4, 5].
Materials and Methods Chemical Agent.
Siriphap: Academic Journal of Science and Applied Science, Vol. 1 (2020), p. 41-48
Charoenrein: International Journal of Food Science & Technology, Vol. 49 (2014), p. 2136-2141
Online since: May 2014
Authors: Guo Qiang Xie, Hidemi Kato, Guang Yin Yuan, Z.H. Chu, D.R. Yan
Yuan1, *,d
1National Engineering Research Center of Light Alloy Net Forming, Shanghai Jiao Tong University, Shanghai, 200240, China
2 School of Materials Science and Engineering, Hebei University of Technology, Tianjin, 300130, China
3Institute for Materials Research, Tohoku University, Sendai 980-8577, Japan
ae-mail:zhenhua_chu@163.com,be-mail:hikato@imr.tohoku.ac.jp,ce-mail:xiegq@imr.tohoku.ac.jp de-mail: gyyuan@sjtu.edu.cn,ee-mail:dianranyan@126.com
※Corresponding author at: National Engineering Research Center of Light Alloy Net Forming, Shanghai Jiao Tong University, 800 Dongchuan Road, 200240 Shanghai, China.
Experimental methods The Zr55Cu30Al10Ni5 alloy glassy powder was used as matrix material in this study.
Acknowledgements This work was supported by the National Nature Science Foundation of China(No.:50771063).
Inoue, Microstructure and properties of ceramic particulate reinforced metallic glassy matrix composites fabricated by spark plasma sintering, Materials Science and Engineering B: Solid-State Materials for Advanced Technology, 148 (2008) 77-81
Inoue, Consolidation and mechanical properties of Cu46Zr42Al7Y5 metallic glass by spark plasma sintering, Journal of Non-Crystalline Solids, 358 (2012) 1263-1267
Experimental methods The Zr55Cu30Al10Ni5 alloy glassy powder was used as matrix material in this study.
Acknowledgements This work was supported by the National Nature Science Foundation of China(No.:50771063).
Inoue, Microstructure and properties of ceramic particulate reinforced metallic glassy matrix composites fabricated by spark plasma sintering, Materials Science and Engineering B: Solid-State Materials for Advanced Technology, 148 (2008) 77-81
Inoue, Consolidation and mechanical properties of Cu46Zr42Al7Y5 metallic glass by spark plasma sintering, Journal of Non-Crystalline Solids, 358 (2012) 1263-1267
Online since: September 2016
Authors: N. Lenin, F. Michael Thomas Rex, D. Ravindran
The effect of material removal was considered in the FEM analysis.
The effect of material removal effect is also considered in the analysis.
Material Properties of workpiece and locators Properties Workpiece Locators Material Aluminum 7075 T-6 Grey cast iron Density ( kg/m3) 2795 7200 Young’s modulus (GPa) 72 124 Poisson ratio 0.33 0.26 Table 2.
Modeling of material removal effect The effect of material removal influences the stiffness of the workpiece during machining and hence it has to be considered in the analysis.
Melkote, Iterative fixture layout and clamping force optimization using the genetic algorithm, ASME Journal of Manufacturing Science and Engineering, 124 (2002) 119-125
The effect of material removal effect is also considered in the analysis.
Material Properties of workpiece and locators Properties Workpiece Locators Material Aluminum 7075 T-6 Grey cast iron Density ( kg/m3) 2795 7200 Young’s modulus (GPa) 72 124 Poisson ratio 0.33 0.26 Table 2.
Modeling of material removal effect The effect of material removal influences the stiffness of the workpiece during machining and hence it has to be considered in the analysis.
Melkote, Iterative fixture layout and clamping force optimization using the genetic algorithm, ASME Journal of Manufacturing Science and Engineering, 124 (2002) 119-125
Online since: August 2019
Authors: P.N. Mary Lissy, G. Madhu, Roy M. Thomas
Thomas3,c
1Associate Professor, Dept. of civil engineering, Muthoot Institute of Technology & Science, Varikoli, Ernakulam, India.
2Professor, Dept. of Chemical Engineering, Cochin University of Science & Technology, Kalamasserry, Ernakulam, India.
3Associate Professor, Dept. of Civil Engineering, Cochin University of Science & Technology
Kalamasserry, Ernakulam, India.
Introduction Removal of toxic materials from wastewater is essential for health and environmental protection.
If the size of the adsorbent material is smaller ,intensive mixing to be provided for the adsorption systems in order to prevent a pressure drop in the packed bed adsorption column[6].
Materials and Methods Preparation of Al2O3-Fe2O3 nanocomposite.
[5] Fahmida Gulshan, Kiyoshi Okada, “Preparation of Alumina-Iron Oxide Compounds by Coprecipitation Method and Its Characterization”, American Journal of Materials Science and Engineering, 2013, Vol. 1, No. 1, 6-11 DOI: 10.12691/ajmse-1-1-1
Introduction Removal of toxic materials from wastewater is essential for health and environmental protection.
If the size of the adsorbent material is smaller ,intensive mixing to be provided for the adsorption systems in order to prevent a pressure drop in the packed bed adsorption column[6].
Materials and Methods Preparation of Al2O3-Fe2O3 nanocomposite.
[5] Fahmida Gulshan, Kiyoshi Okada, “Preparation of Alumina-Iron Oxide Compounds by Coprecipitation Method and Its Characterization”, American Journal of Materials Science and Engineering, 2013, Vol. 1, No. 1, 6-11 DOI: 10.12691/ajmse-1-1-1
Online since: December 2014
Authors: Yong Gang Xu, Yang Di, Hao Fan, Qian Jin
Introduction
In smart materials, magnetorheological elastomer(MRE) plays a great role in controlling mechanical vibration and noise.
Xuan and C.J.Kang: Journal of Intelligent Material Systems and Structures, Vol.23 (2012) No.1, p.25 [3] G.J.
Gong, C.J.Kang and S.H.Xuan: Smart Materials and Structures, Vol. 20 (2011) No.7, p. 1 [4] W.H.
Munoz: Journal of Intelligent Material Systems and Structures, Vol. 7(1996) No.6, p.613 [6] J.F.
Fan: Journal of Applied Polymer Science, Vol.123 (2012) No.4, p. 2476 [9] M.
Xuan and C.J.Kang: Journal of Intelligent Material Systems and Structures, Vol.23 (2012) No.1, p.25 [3] G.J.
Gong, C.J.Kang and S.H.Xuan: Smart Materials and Structures, Vol. 20 (2011) No.7, p. 1 [4] W.H.
Munoz: Journal of Intelligent Material Systems and Structures, Vol. 7(1996) No.6, p.613 [6] J.F.
Fan: Journal of Applied Polymer Science, Vol.123 (2012) No.4, p. 2476 [9] M.
Online since: January 2013
Authors: Sheng Liu, Xuan Yu Sheng, Yi Tong Shang
High strength material was replaced for super high strength materials steel 406.
In AUTODYN, materials in the software material library were loaded in, which included air, steel, copper, RDX explosives.
It is an ultra-high strength steel, developed to solve large-scale solid rocket motor case materials.
The finally calculated thickness for high-strength materials was 6.75mm less than that for original design.
Luo: Aerospace Materials & Technology, Vol.6(1986), p.11 [10] S.H.
In AUTODYN, materials in the software material library were loaded in, which included air, steel, copper, RDX explosives.
It is an ultra-high strength steel, developed to solve large-scale solid rocket motor case materials.
The finally calculated thickness for high-strength materials was 6.75mm less than that for original design.
Luo: Aerospace Materials & Technology, Vol.6(1986), p.11 [10] S.H.
Online since: November 2011
Authors: Pei Yuan He, An Li Wu, Yun Hong Hao
The results will provide the basis for protecting engineering materials and structures not to erode by wind-sand environment.
The results will provide the basis for protecting engineering materials and structures not to erode by wind-sand environment.
Journal of Natural Disasters,1996,5(2):86-94
Journal of Meteorology,1998,24(2):39-44
Chinese Journal of Geophysics. 2006,49(1):83-92
The results will provide the basis for protecting engineering materials and structures not to erode by wind-sand environment.
Journal of Natural Disasters,1996,5(2):86-94
Journal of Meteorology,1998,24(2):39-44
Chinese Journal of Geophysics. 2006,49(1):83-92
Online since: June 2014
Authors: Jin Feng Geng, Hong Sheng Cai, Dong Fang Ma, Kai Shu Guan, Xiang Sai Feng
Hurst: Journal of nuclear materials.
Hamaguchi: Journal of Nuclear Materials.
Viswanathan: Journal of Materials Engineering and Performance.
Guan: Materials Science and Engineering.
CHAKRBARTY: International Journal of Mechanical Sciences.
Hamaguchi: Journal of Nuclear Materials.
Viswanathan: Journal of Materials Engineering and Performance.
Guan: Materials Science and Engineering.
CHAKRBARTY: International Journal of Mechanical Sciences.
Online since: July 2013
Authors: Athanasios G. Mamalis, István Zador, Achilleas K. Vortselas, Laszlo Lukacs, Andras Szalay
Lukacs 3,e
1 S-Metalltech Materials Research and Development Ltd, Budapest.
2 Project Center for Nanotechnology and Advanced Engineering, National Center for Scientific Research "Demokritos", Athens, Greece
3 National Public Service University, Hadtudományi és Honvédtisztképző Kar (NKE-HHK) Military Science and Army Officer Training Faculty, Budapest.
By applying the properly calculated and directed shock waves on powders or powder-mixtures special tasks can be realised, such as: · preparation of metallic matrix composites reinforced with ceramic and carbide particles aiming at creation of structural materials, or special electrical contact materials · creation of parts of nanostructured materials without influencing the nanostructure of the starting materials · manufacture of special filter materials The explosive compaction of powders and granulates does not merely consist of a simple compression as in conventional compaction processes but involves a shock wave passing through the powder or granulate mass.
Pantelis, Macroscopic and microscopic phenomena of nickel/titanium “shape-memory” bimetallic strips fabricated by explosive cladding and rolling, Materials Science and Engineering A. 188 (1994) 267–275
Manolakos, Fabrication of bimetallic rods by explosive cladding and warm extrusion, Journal of Materials Processing Technology. 83 (1998) 48–53
Mamalis, et al., High-pressure synthesized nanostructural magnesium diboride-based materials for superconductive electromotors, generators and pumps, Journal of Materials Processing Technology. 181 (2007) 71–75
By applying the properly calculated and directed shock waves on powders or powder-mixtures special tasks can be realised, such as: · preparation of metallic matrix composites reinforced with ceramic and carbide particles aiming at creation of structural materials, or special electrical contact materials · creation of parts of nanostructured materials without influencing the nanostructure of the starting materials · manufacture of special filter materials The explosive compaction of powders and granulates does not merely consist of a simple compression as in conventional compaction processes but involves a shock wave passing through the powder or granulate mass.
Pantelis, Macroscopic and microscopic phenomena of nickel/titanium “shape-memory” bimetallic strips fabricated by explosive cladding and rolling, Materials Science and Engineering A. 188 (1994) 267–275
Manolakos, Fabrication of bimetallic rods by explosive cladding and warm extrusion, Journal of Materials Processing Technology. 83 (1998) 48–53
Mamalis, et al., High-pressure synthesized nanostructural magnesium diboride-based materials for superconductive electromotors, generators and pumps, Journal of Materials Processing Technology. 181 (2007) 71–75