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Online since: June 2014
Authors: Kazuo Arakawa, Ding Ding Chen, Ryo Matsumoto, Sangjae Yoon
Gu: Journal of Composite Materials Vol. 44-5 (2010), pp. 593-619
Guo: Journal of Inorganic Materials Vol. 22-2 (2007), pp. 311-314
Gu: Journal of Composite Materials Vol. 44-14 (2010), pp.1779-1795
Rajulu: Journal of Composite Materials Vol. 44-14(2010), pp. 1681-1687
Jiang: Journal of Composite Materials Vol. 46-26 (2012), pp. 3297-3309
Guo: Journal of Inorganic Materials Vol. 22-2 (2007), pp. 311-314
Gu: Journal of Composite Materials Vol. 44-14 (2010), pp.1779-1795
Rajulu: Journal of Composite Materials Vol. 44-14(2010), pp. 1681-1687
Jiang: Journal of Composite Materials Vol. 46-26 (2012), pp. 3297-3309
Online since: October 2010
Authors: Alexander Gorin, Khaled A. Abou-El-Hossein, Moola Mohan Reddy
Advanced Ceramic materials are difficult to do machining by conventional methods due to the brittle nature and high hardness.
References [1] Seiichi Taruta , Ryuji Fujisawa, Kunio Kitajima, Preparation and mechanical properties of machinable alumina/mica composites, Journal of the European Ceramic Society 26 (2006) 1687–1693 [2] Luis.C.J, Puertas.I, Villa.G, Material removal rate and electrode wear study on the EDM of silicon carbide, Journal of Materials Processing Technology 164-165(2005) 889-896 [3] Malkin S.Ritter JE, Grinding mechanisms and strength degration for ceramics ASME, Journal of engineering for Industry 1989; 111:2111-18
[10] Chwan-Huei Tsai, Hong-Wen Chen, Laser cutting of thick ceramic substrates by controlled fracture technique, Journal of Materials Processing Technology 136 (2003), 166–173 [11] Rajurkar.K.P, Wang.Z.Y, Kuppattan.A, Micro removal of ceramic material (AL2O3) in the precision ultrasonic machining, Precision Engineering 23, 1999, 73-78
A, Prakash J.R.S, Micro milling of pure Copper, Journal of materials Processing Technology 116(2001) 39-43
[13] Takacs.M, Vero.B, Meszaros.I, Micro milling of metallic materials, Journal of Materials processing Technology 138(2003) 152-155
References [1] Seiichi Taruta , Ryuji Fujisawa, Kunio Kitajima, Preparation and mechanical properties of machinable alumina/mica composites, Journal of the European Ceramic Society 26 (2006) 1687–1693 [2] Luis.C.J, Puertas.I, Villa.G, Material removal rate and electrode wear study on the EDM of silicon carbide, Journal of Materials Processing Technology 164-165(2005) 889-896 [3] Malkin S.Ritter JE, Grinding mechanisms and strength degration for ceramics ASME, Journal of engineering for Industry 1989; 111:2111-18
[10] Chwan-Huei Tsai, Hong-Wen Chen, Laser cutting of thick ceramic substrates by controlled fracture technique, Journal of Materials Processing Technology 136 (2003), 166–173 [11] Rajurkar.K.P, Wang.Z.Y, Kuppattan.A, Micro removal of ceramic material (AL2O3) in the precision ultrasonic machining, Precision Engineering 23, 1999, 73-78
A, Prakash J.R.S, Micro milling of pure Copper, Journal of materials Processing Technology 116(2001) 39-43
[13] Takacs.M, Vero.B, Meszaros.I, Micro milling of metallic materials, Journal of Materials processing Technology 138(2003) 152-155
Online since: July 2014
Authors: M. Gajendiran, N. Nallusamy
These types of materials are called phase change materials.
Geometric design of solar-aided latent heat store depending on various parameters and phase change materials.
Journal of Applied Sciences 11(16): 3044-3048
Renganarayanan, Heat transfer and parametric studies of an encapsulated phase change material based cool thermal energy storage system, Journal of Zhejiang University Science 7 (2006) 1886e1895
Zhejiang Univ Science A 7(8), 1422-1430
Geometric design of solar-aided latent heat store depending on various parameters and phase change materials.
Journal of Applied Sciences 11(16): 3044-3048
Renganarayanan, Heat transfer and parametric studies of an encapsulated phase change material based cool thermal energy storage system, Journal of Zhejiang University Science 7 (2006) 1886e1895
Zhejiang Univ Science A 7(8), 1422-1430
Online since: October 2014
Authors: Ji Rong Yang
Disassembly is the premise of the waste recycling and the recycling is the guarantee of the re-use of waste materials.
When putting into regular use, new oil need static precipitation and filtration before added to the system. [10] Choice of green materials in Construction machinery Materials are the basis constituting the Construction machinery.
Green materials, also known as environmental coordination materials or eco-materials, have good use performance or functionality, less consumption to resource and energy, less pollution on ecology and environment, benefit to human health, high recycling rate or biodegradable recycling.
It has significant technical and economic benefits that can achieve a variety of cold and hot process and a variety of composite materials for selection, and combine organically materials and technology, so it is a breakthrough in mechanical manufacturing technology.
Journal of Mechanical Engineering,2013.39(11):149-154
When putting into regular use, new oil need static precipitation and filtration before added to the system. [10] Choice of green materials in Construction machinery Materials are the basis constituting the Construction machinery.
Green materials, also known as environmental coordination materials or eco-materials, have good use performance or functionality, less consumption to resource and energy, less pollution on ecology and environment, benefit to human health, high recycling rate or biodegradable recycling.
It has significant technical and economic benefits that can achieve a variety of cold and hot process and a variety of composite materials for selection, and combine organically materials and technology, so it is a breakthrough in mechanical manufacturing technology.
Journal of Mechanical Engineering,2013.39(11):149-154
Online since: April 2021
Authors: Natalya Gabelchenko, Artem Belov, Artem Kravchenko, Oleg Kryuchkov
High hardness materials are generally more resistant to abrasive wear, but there are many exceptions.
However, not all blade materials are equally effective.
Volkova, The study of wear-resistant materials of the blades for mixers – pneumosuperchargers, Bulletin of the Samara Scientific Center of the Russian Academy of Sciences. 18 (2016) 175-178
Problems of materials science, welding and strength in mechanical engineering. 10 (2017) 136-140
Materials Science and Engineering A. 460 (2007) 542-549.
However, not all blade materials are equally effective.
Volkova, The study of wear-resistant materials of the blades for mixers – pneumosuperchargers, Bulletin of the Samara Scientific Center of the Russian Academy of Sciences. 18 (2016) 175-178
Problems of materials science, welding and strength in mechanical engineering. 10 (2017) 136-140
Materials Science and Engineering A. 460 (2007) 542-549.
Online since: July 2011
Authors: Yan Ping Fan, Bao Qing Zhang, Zhi Zhang, Bao Zhong Liu
Hydrogen storage property of Ti45Zr35Ni17Cu3 quasicrystal powder
Baozhong LIU1,a, Yanping FAN2,b, Baoqing ZHANG1,c and Zhi ZHANG1,d
1 School of Materials Science and Engineering, Henan Polytechnic University, 2001 Shiji Road, Jiaozuo 454000, China
2 School of Physics and chemistry, Henan Polytechnic University, 2001 Shiji Road, Jiaozuo 454000, China
aemail bzliu@hpu.edu.cn, bemail fanyanping@hpu.edu.cn, cemail bqzhang@hpu.edu.cn demail zhizhang@hpu.edu.cn
Keywords: Ti-Zr-Ni-Cu alloy; icosahedral quasicrystal; hydrogen storage; electrode materials
Abstract.
Here, we reviewed the research results and proposed the research of Ti/Zr-based I-phase as hydrogen storage material.
Electrochemical properties of I-phase alloy electrode were lower than that of commercial negative materials of Ni-MH battery, but it can be improved by the introducing of new electrocatalytic phase and element substitution in the alloy.
Kumpf, E.Burkel: The European Physical Journal B Vol. 3 (1998), p. 1
Wu, L.Wang: Journal of Power Sources Vol. 162 (2006), p. 713.
Here, we reviewed the research results and proposed the research of Ti/Zr-based I-phase as hydrogen storage material.
Electrochemical properties of I-phase alloy electrode were lower than that of commercial negative materials of Ni-MH battery, but it can be improved by the introducing of new electrocatalytic phase and element substitution in the alloy.
Kumpf, E.Burkel: The European Physical Journal B Vol. 3 (1998), p. 1
Wu, L.Wang: Journal of Power Sources Vol. 162 (2006), p. 713.
Online since: March 2004
Authors: J.M. Yang, Di Zhu, Ning Song Qu, W.N. Lei
Advanced electroforms are
made of high-strength alloys, e.g., Ni-Co, Ni-Mn, Co-W, and composite materials such as Ni-SiC and
Ni-Al2O3 [3-4].
It has been shown that electrodeposition is a promising method to prepare nanocrystalline materials [2, 5-7].
Some technologies can be used to prepare nanocrystalline materials in electrodeposition, such as the application of pulsed current, high current density, the additives added to the electrolyte and alloy co-deposition.
Palumbo: NanoStructured Materials Vol. 12 (1999), p. 1035 [3] S.H.
Erb: Journal of Materials Science Vol. 30 (1995), p. 5743 [8] R.T.C.
It has been shown that electrodeposition is a promising method to prepare nanocrystalline materials [2, 5-7].
Some technologies can be used to prepare nanocrystalline materials in electrodeposition, such as the application of pulsed current, high current density, the additives added to the electrolyte and alloy co-deposition.
Palumbo: NanoStructured Materials Vol. 12 (1999), p. 1035 [3] S.H.
Erb: Journal of Materials Science Vol. 30 (1995), p. 5743 [8] R.T.C.
Online since: September 2024
Authors: Selma M.H. AL-Jawad, Isam M. Ibrahim, Amel S. Sabber, Abdulhussain K. Elttayf, Mohammed Rasheed
Ilegbusi, Gas Semiconducting Sensors Based on Metal Oxide Nanocomposites, Journal of Materials Science Research. 1 2 (2012)
Major, Effect of heavy doping in SnO2:F films, Journal of Materials Science. 31 11 (1996) 2965–2969
Balraju, Deciphering the functionalization routes for SnO2 anodes, Journal of Materials Science. 20 (2023) 54-63
Maity, Band gap tailoring and photosensitivity study of Al-doped SnO2 nanocrystallites prepared by sol–gel technique, Journal of Materials Science: Materials in Electronics. 33 32 (2022) 24559–24570
Chen, Aging and activation of room temperature hydrogen sensitive Pt–SnO2 composite nanoceramics, Journal of Materials Science. 57 32 (2022) 15267–15275
Major, Effect of heavy doping in SnO2:F films, Journal of Materials Science. 31 11 (1996) 2965–2969
Balraju, Deciphering the functionalization routes for SnO2 anodes, Journal of Materials Science. 20 (2023) 54-63
Maity, Band gap tailoring and photosensitivity study of Al-doped SnO2 nanocrystallites prepared by sol–gel technique, Journal of Materials Science: Materials in Electronics. 33 32 (2022) 24559–24570
Chen, Aging and activation of room temperature hydrogen sensitive Pt–SnO2 composite nanoceramics, Journal of Materials Science. 57 32 (2022) 15267–15275
Online since: January 2017
Authors: Ji Gang Wang, Yong Zhi Yu
Fabrication of g-C3N4 Microspheres without Template via Microwave Heating Method
Yong-zhi Yu1, Ji-gang Wang1,2,a*
1Jiangsu Key Laboratory of Advanced Metallic Materials, School of Materials Science and Engineering, Southeast University, Nanjing, 211189, P.
Journal of Materials Chemistry, 2008, 18(41): 4893-4908
Nature materials, 2009, 8(1): 76-80
Materials Science and Engineering: B, 2010, 175(2): 95-99
Journal of Materials Chemistry C, 2014, 2(39): 8212-8215
Journal of Materials Chemistry, 2008, 18(41): 4893-4908
Nature materials, 2009, 8(1): 76-80
Materials Science and Engineering: B, 2010, 175(2): 95-99
Journal of Materials Chemistry C, 2014, 2(39): 8212-8215
Online since: December 2011
Authors: Anna Boczkowska, Grzegorz Slawinski, Danuta Miedzińska, Tadeusz Niezgoda
Sylvester Kaliskiego 2, 00-908 Warsaw 49, Poland
2Warsaw University of Technology, Faculty of Materials Science and Engineering, Woloska 141, 02-507 Warsaw, Poland
admiedzinska@wat.edu.pl (corresponding author), bgslawinski@wat.edu.pl, ctniezgoda@wat.edu.pl, dabocz@meil.pw.edu.pl
Keywords: Numerical modeling, microstructure, magnetorheological elastomer, smart materials, magnetic field.
This is achieved via adding the micro-sized magnetisable particles into the elastomers or rubber-like materials [1].
Awietjan, Urethane magnetorheological elastomers microstructure and properties, III ECCOMAS conference on Smart Structures and Materials, Gdansk (2007)
Munoz, A model of the behavior of magnetorheological materials, Smart Mater.
Munoz, A model of the behaviour of magnetorheological materials, Smart Mater.
This is achieved via adding the micro-sized magnetisable particles into the elastomers or rubber-like materials [1].
Awietjan, Urethane magnetorheological elastomers microstructure and properties, III ECCOMAS conference on Smart Structures and Materials, Gdansk (2007)
Munoz, A model of the behavior of magnetorheological materials, Smart Mater.
Munoz, A model of the behaviour of magnetorheological materials, Smart Mater.