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Online since: April 2015
Authors: Joanna Karwan-Baczewska, Iwona Sulima, Magdalena Suśniak
These materials are often used wherever is a desire to replace the traditional materials by a new generation materials of increased strength appropriate or better functional properties [1].
Kleebe, Efect of reinforcement volume fraction on the mechanical properties of AlSiC nanocomposites produced by mechanical alloying and consolidation, Journal of Composite Materials, 44 (2010) 313-326
Chawla, Development of Aluminium Based Silicon Carbide Particulate Metal Matrix Composite, Journal of Minerals Materials Characterization Engineering, 8 (2009) 455-467
Suryanarayana, Mechanical alloying and milling, Progress in Materials Science, 46 (2001) 1184
Omori Sintering, consolidation, reaction and crystal growth by the spark plasma system (SPS), Materials Science and Engineering, 287(2000) 183-188
Kleebe, Efect of reinforcement volume fraction on the mechanical properties of AlSiC nanocomposites produced by mechanical alloying and consolidation, Journal of Composite Materials, 44 (2010) 313-326
Chawla, Development of Aluminium Based Silicon Carbide Particulate Metal Matrix Composite, Journal of Minerals Materials Characterization Engineering, 8 (2009) 455-467
Suryanarayana, Mechanical alloying and milling, Progress in Materials Science, 46 (2001) 1184
Omori Sintering, consolidation, reaction and crystal growth by the spark plasma system (SPS), Materials Science and Engineering, 287(2000) 183-188
Online since: July 2011
Authors: Xiang Cheng, Jun Ying Liu, Zhong Qiang Tian, Xi Zhang
Micro machining by wire electrical discharge machining (WEDM) has become prosperous owing to its ability to machine conductive, exotic and high strength and temperature resistive (HSTR) materials with the scope of generating intricate shapes and profiles.
The capability of machining intricate parts and hard materials has made EDM as one of the most popular machining processes [2].
WEDM has been gaining wide acceptance in the machining of the various materials used in modern tooling applications [5].
Antonoglou, Using ultra thin electrodes to produce micro-parts with wire-EDM, Journal of Material Processing Technology, 149, 2004, p. 579
Yamazaki, Design and development of micro straight edge end mills for micronano machining of hard and brittle materials , Journal of Mechanical Science and Technology, DOI 10.1007/s12206-010-0804-7,2010, 24(11), p. 1.
The capability of machining intricate parts and hard materials has made EDM as one of the most popular machining processes [2].
WEDM has been gaining wide acceptance in the machining of the various materials used in modern tooling applications [5].
Antonoglou, Using ultra thin electrodes to produce micro-parts with wire-EDM, Journal of Material Processing Technology, 149, 2004, p. 579
Yamazaki, Design and development of micro straight edge end mills for micronano machining of hard and brittle materials , Journal of Mechanical Science and Technology, DOI 10.1007/s12206-010-0804-7,2010, 24(11), p. 1.
Online since: August 2019
Authors: Arini Tiwow Vistarani, Arsyad Muhammad, Sulistiawaty Sulistiawaty, Meytij Jeanne Rampe, Indira B. Tiro Winda
In addition, the observation of iron sand at the point of 23 was mixed with other materials such as clay and gravel, due to the sampling depth of 1 m.
[2] Findorak, R., Froehlichova, M., and Legemza, J. (2014), “Potential of ilmenite sand application in the iron ore materials agglomeration”.
Materials Science Forum, 827, 229-234
ITB Journal of Science, 42A (1), 31-48
IOP Conference Series Material Science Engineering, 202, 12013
[2] Findorak, R., Froehlichova, M., and Legemza, J. (2014), “Potential of ilmenite sand application in the iron ore materials agglomeration”.
Materials Science Forum, 827, 229-234
ITB Journal of Science, 42A (1), 31-48
IOP Conference Series Material Science Engineering, 202, 12013
Online since: September 2019
Authors: Chun Guang Zhang
Materials Science Forum, 2015, 809-810:193
Liquid-target reactive magnetron sputter epitaxy of High quality GaN(0001̄) nanorods on Si(111), Materials Science in Semiconductor Processing, 2015, 39(5): 702. -[] M Deura, T Nakahara, T Momose, et al.
Materials Science in Semiconductor Processing, 2015, 29(5): 288-293. 8 Among them, Kim et al [] Hasina F.
Optical Materials, 2016, 60: 481. .
Materials Science in Semiconductor Processing, 2017, 71(15): 166. .
Liquid-target reactive magnetron sputter epitaxy of High quality GaN(0001̄) nanorods on Si(111), Materials Science in Semiconductor Processing, 2015, 39(5): 702. -[] M Deura, T Nakahara, T Momose, et al.
Materials Science in Semiconductor Processing, 2015, 29(5): 288-293. 8 Among them, Kim et al [] Hasina F.
Optical Materials, 2016, 60: 481. .
Materials Science in Semiconductor Processing, 2017, 71(15): 166. .
Online since: May 2003
Authors: Yasuhito Tanaka, Yoshinori Takakura, Tetsuya Tateishi, Hajime Ohgushi, M. Ikeuchi, Hiroko Machida, Yasuaki Tohma
Journal Citation (to be inserted by the publisher )
Copyright by Trans Tech Publications
Marrow Mesenchymal Stem Cells Cultured on Alumina Ceramics
(From basic science to clinical applications)
H.
In contrast, the fibrous membrane is minimal and some areas show regenerated new (bone) tissue in contact with the implanted materials without other types of fibrous tissues intervening, when alumina (Al2O3) ceramics or titanium devices are implanted into the bone defects.
Such bone/material (glass and calcium phosphate ceramics) interaction is referred to as bone bonding and these materials are called "Bioactive materials"[2].
Therefore, the tissue engineering approaches can be expected to solve the problems of aseptic loosening after the total joint replacements made by non-bioactive materials such as alumina ceramics.
Black, Biological performance of materials, J.
In contrast, the fibrous membrane is minimal and some areas show regenerated new (bone) tissue in contact with the implanted materials without other types of fibrous tissues intervening, when alumina (Al2O3) ceramics or titanium devices are implanted into the bone defects.
Such bone/material (glass and calcium phosphate ceramics) interaction is referred to as bone bonding and these materials are called "Bioactive materials"[2].
Therefore, the tissue engineering approaches can be expected to solve the problems of aseptic loosening after the total joint replacements made by non-bioactive materials such as alumina ceramics.
Black, Biological performance of materials, J.
Online since: August 2011
Authors: Da Heng Mao, Ji Bin Li, Hong Zhi Wang, Jian Zhe Ma
The Arrhenius equation is used to describe the material flow behavior [9]:
(1)
where is the peak stress, A, α, n are the material constants.
[2] Tsutomu Murai, Shin-ichi Matsuoka, Susumu Miyamoto, Yoshinari Oki, in: Effects of extrusion conditions on microstructure and mechanical properties of AZ31B magnesium alloy extrusions, Journal of Materials Processing Technology, 141 ,2003, p:207–212 [3] Maoliang Hu, Zesheng Ji, Xiaoyu Chen, Effect of extrusion ratio on microstructure and mechanical properties of AZ91D magnesium alloy recycled from scraps by hot extrusion, Transactions of Nonferrous Metals Society of China, 20, 2010 p:987-991.
Sheppard, in: Application of finite element method in the hot extrusion of aluminium alloys,Materials Science and Engineering A369, 2004, p: 66–75 [5] Xinjian Duan, Terry Sheppard, in: Simulation and control of microstructure evolution during hot extrusion of hard aluminium alloys, Materials Science and Engineering A351, 2003, p:282-292 [6] H.E.
Chen, in: Microstructure characterization of 7050 aluminum alloy during dynamic recrystallization and dynamic recovery, Materials Characterization, 2009, p:1185-1189 [7] Ziyang Xiu, Guoqin Chen, Yanmei Liu,ect in: Effects of extrusion deformation on mechanical properties of sub-micron Si3N4p/2024 composite, Transactions of Nonferrous Metals Society of China ,2009, p:373-377.
In Chinese [8] Xinjian Duan, Terry Sheppard, in: Simulation and control of microstructure evolution during hot extrusion of hard aluminium alloys, Materials Science and Engineering A351, 2003, p:282-292 [9] Peifeng Zhao, Guangsheng Ren,Chunguo Xu, in: Research on materical constant values of 6061 Aluminum alloy, Journal of Plasticity Engine,2006, p:79-81.
[2] Tsutomu Murai, Shin-ichi Matsuoka, Susumu Miyamoto, Yoshinari Oki, in: Effects of extrusion conditions on microstructure and mechanical properties of AZ31B magnesium alloy extrusions, Journal of Materials Processing Technology, 141 ,2003, p:207–212 [3] Maoliang Hu, Zesheng Ji, Xiaoyu Chen, Effect of extrusion ratio on microstructure and mechanical properties of AZ91D magnesium alloy recycled from scraps by hot extrusion, Transactions of Nonferrous Metals Society of China, 20, 2010 p:987-991.
Sheppard, in: Application of finite element method in the hot extrusion of aluminium alloys,Materials Science and Engineering A369, 2004, p: 66–75 [5] Xinjian Duan, Terry Sheppard, in: Simulation and control of microstructure evolution during hot extrusion of hard aluminium alloys, Materials Science and Engineering A351, 2003, p:282-292 [6] H.E.
Chen, in: Microstructure characterization of 7050 aluminum alloy during dynamic recrystallization and dynamic recovery, Materials Characterization, 2009, p:1185-1189 [7] Ziyang Xiu, Guoqin Chen, Yanmei Liu,ect in: Effects of extrusion deformation on mechanical properties of sub-micron Si3N4p/2024 composite, Transactions of Nonferrous Metals Society of China ,2009, p:373-377.
In Chinese [8] Xinjian Duan, Terry Sheppard, in: Simulation and control of microstructure evolution during hot extrusion of hard aluminium alloys, Materials Science and Engineering A351, 2003, p:282-292 [9] Peifeng Zhao, Guangsheng Ren,Chunguo Xu, in: Research on materical constant values of 6061 Aluminum alloy, Journal of Plasticity Engine,2006, p:79-81.
Online since: August 2012
Authors: José Adilson de Castro, Izabel de Oliveira da Mota
In this context of environmental protection, adsorption has been widely recognized as an effective means of controlling emissions to the atmosphere and, in some applications, of recovering recyclable materials from process exhaust streams [6].
The Science Total Environmental, n. 366 (2006), p.500–513
Journal of Environmental Science, n.20 (2008), p.1063–1069
Chemical Engineering Journal, n. 150 (2009), p. 25–39
Journal of Hazardous Materials, n. 97 (2003), p. 219–243
The Science Total Environmental, n. 366 (2006), p.500–513
Journal of Environmental Science, n.20 (2008), p.1063–1069
Chemical Engineering Journal, n. 150 (2009), p. 25–39
Journal of Hazardous Materials, n. 97 (2003), p. 219–243
Online since: March 2014
Authors: Osman Adiguzel
Noebe, High Temperature Shape Memory Alloys, International Materials Reviews 55 (2010) 257-315
Adiguzel, Smart Materials and the Influence of Atom Sizes on Martensite Microstructures in Copper-Based Shape Memory Alloys, Journal of Materials Processing Technology 185 (2007) 120-124
Romero, Calorimetry in Cu–Zn–Al alloys under different structural and microstructural conditions, Materials Science and Engineering A 282 (2000) 16-22 [8] Z.
Paidar, Shuffling in Displacive Phase Transformations, Materials Science and Engineering A 481–482 (2008) 243-246
Adiguzel, Long-Term Ageing Behaviour of Martensite in Shape Memory Cu–Al–Ni Alloys, Journal of Materials Processing Technology153-154 (2004) 164-169.
Adiguzel, Smart Materials and the Influence of Atom Sizes on Martensite Microstructures in Copper-Based Shape Memory Alloys, Journal of Materials Processing Technology 185 (2007) 120-124
Romero, Calorimetry in Cu–Zn–Al alloys under different structural and microstructural conditions, Materials Science and Engineering A 282 (2000) 16-22 [8] Z.
Paidar, Shuffling in Displacive Phase Transformations, Materials Science and Engineering A 481–482 (2008) 243-246
Adiguzel, Long-Term Ageing Behaviour of Martensite in Shape Memory Cu–Al–Ni Alloys, Journal of Materials Processing Technology153-154 (2004) 164-169.
Online since: December 2012
Authors: Hong Yu Gong, Yun Na Song, Yu Jun Zhang, Xiao Yu Zhang
Introduction
Sodium titanate with chemical formula Na2O·nTiO2(n=3,6,9) are widely used as energy saving materials, refractories, heat-insulating materials, friction materials due to its low thermal conductivity, high infrared reflectivity, excellent chemical stability and outstanding mechanical properties[1].
Journal of Inorganic Materials, 2005, 20(4),808-814
Journal of Qingdao University of Science and Technology, 2005, 26(5):417-420
Materials Review, 2006, 20:121-123
Journal of Materials Science and Engineering, 2007, 25:43-47
Journal of Inorganic Materials, 2005, 20(4),808-814
Journal of Qingdao University of Science and Technology, 2005, 26(5):417-420
Materials Review, 2006, 20:121-123
Journal of Materials Science and Engineering, 2007, 25:43-47
Online since: January 2013
Authors: Cheng Zhong Chi, Ying Chao Liu, Jin Bo Xue, Wei Liang, Guang Liang Li
Introduction
Cu2O is one of the most important p-type semiconductor materials with a direct band gap in the range of 1.8–2.5eV.
Nano-sized transition-metal oxides as negative-electrode materials for lithium-ion batteries J.
Clem: submitted to Journal of Materials Research (2003) [5] Poonam Sharma, H.S.Bhatti.
Journal of Colloid and Interface Science. 243 (2001) 85-89
Synthesis of Uniform Spherical Cu2O Particles.from Condensed CuO Suspensions1.Journal of Colloid and Interface Science. 189 (1997) 167-173
Nano-sized transition-metal oxides as negative-electrode materials for lithium-ion batteries J.
Clem: submitted to Journal of Materials Research (2003) [5] Poonam Sharma, H.S.Bhatti.
Journal of Colloid and Interface Science. 243 (2001) 85-89
Synthesis of Uniform Spherical Cu2O Particles.from Condensed CuO Suspensions1.Journal of Colloid and Interface Science. 189 (1997) 167-173