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Online since: December 2006
Authors: Zhao Zhong Zhou, Ju Long Yuan, Bing Hai Lv, Bao Chun Tao
Influence of parameters involving load, speed, and slurry
concentration for a given workmaterial with given abrasive (material and size) are discussed, and the
optimum lapping conditions are figured out.
Important parameters identified that influence the surface quality generated during lapping process fro a given workmaterial with given abrasive (material and grain size) are the lapping load, the lapping speed and the abrasive, concentration [1,2].
Acknowledgment This work was supported by Natural Science Foundation of China (50375147, 50475119), Zhejiang Provincial Natural Science Foundation of China (Y104494), and granted financial support from The MOE Key Laboratory of Mechanical Manufacture and Automation, Zhejiang University of Technology.
Lv and Z.W Wang: Materials Science Forum, Vol.471-472 (2004), pp.473-476
Umehara: International Journal of Machine Tool & Manufacture, Vol.46 (2006), pp.151-169.
Important parameters identified that influence the surface quality generated during lapping process fro a given workmaterial with given abrasive (material and grain size) are the lapping load, the lapping speed and the abrasive, concentration [1,2].
Acknowledgment This work was supported by Natural Science Foundation of China (50375147, 50475119), Zhejiang Provincial Natural Science Foundation of China (Y104494), and granted financial support from The MOE Key Laboratory of Mechanical Manufacture and Automation, Zhejiang University of Technology.
Lv and Z.W Wang: Materials Science Forum, Vol.471-472 (2004), pp.473-476
Umehara: International Journal of Machine Tool & Manufacture, Vol.46 (2006), pp.151-169.
Online since: March 2017
Authors: Maroš Martinkovič, Lukáš Likavčan
Quantitative analysis of composite structures
Total examination of the structure and properties of materials carried out in the production and processing conditions should be related with macroscopic properties of the material.
Eberhardt, The representation of reinforcing fibres in composites as 3D space curves, Composites Science and Technology 59 (1999) 1227–37
[3] A.G Advani, C.L Tucker III., The use of tensors to describe and predict fiber orientation in short fiber composites, Journal of Rheology 31 (1987) 751–84
Hartley, Strain and the quantitative characterization of anisotropic microstructures, Metallurgical and Materials Transactions A: Physical Metallurgy and Materials Science 37 (2006) 3531-3539
Han, Measurement of fiber orientation and elastic-modulus analysis in short-fibre-reinforced composites, Composites Science and Technology 61 (2001) 107-116.
Eberhardt, The representation of reinforcing fibres in composites as 3D space curves, Composites Science and Technology 59 (1999) 1227–37
[3] A.G Advani, C.L Tucker III., The use of tensors to describe and predict fiber orientation in short fiber composites, Journal of Rheology 31 (1987) 751–84
Hartley, Strain and the quantitative characterization of anisotropic microstructures, Metallurgical and Materials Transactions A: Physical Metallurgy and Materials Science 37 (2006) 3531-3539
Han, Measurement of fiber orientation and elastic-modulus analysis in short-fibre-reinforced composites, Composites Science and Technology 61 (2001) 107-116.
Online since: July 2012
Authors: Guo Dong Cui, Wu Qian Chai, Bing Xue Nie, Yan Shuo Zhang
Introduction
Exploring new materials is an eternal theme when studying materials science.
Fig.1 Process flow diagram Experimental materials and method The experimental materials are Q235 steel samples.
Tu: Materials Review, Vol. 21(2007), p. 380 [2] Y.
Banhart: Progress in Materials Science, Vol. 46(2001), p. 560 [5] U.
Paul: Acta Materials, Vol. 52(2004), p. 869 [6] D.P.
Fig.1 Process flow diagram Experimental materials and method The experimental materials are Q235 steel samples.
Tu: Materials Review, Vol. 21(2007), p. 380 [2] Y.
Banhart: Progress in Materials Science, Vol. 46(2001), p. 560 [5] U.
Paul: Acta Materials, Vol. 52(2004), p. 869 [6] D.P.
Online since: January 2013
Authors: Norani Muti Mohamed, Siti Nur Azella Zaine
Introduction
In the quest for low-cost solar technology, rapid research activities can be seen in developing various TiO2 nanostructures as photoelectrode materials in the application of DSC.
Methodology Synthesis of TiO2 Photoelectrode Material.
The short-circuit current was found [17] to be the result of the initial number of photogenerated carriers, electron injection efficiency from dye to photoelectrode materials as well as the rate of recombination between the injected electrons and redox couple electrolyte system.
Huang, Phase transformation of precipitated nanoparticles, Material Science and Engineering A 344 (2003) 209
Hagfeldt, Dye-Sensitization Nanostructured ZnO Electrodes for Solar Cell Applications, in Nanostructured Materials for Solar Energy Conversion, T.
Methodology Synthesis of TiO2 Photoelectrode Material.
The short-circuit current was found [17] to be the result of the initial number of photogenerated carriers, electron injection efficiency from dye to photoelectrode materials as well as the rate of recombination between the injected electrons and redox couple electrolyte system.
Huang, Phase transformation of precipitated nanoparticles, Material Science and Engineering A 344 (2003) 209
Hagfeldt, Dye-Sensitization Nanostructured ZnO Electrodes for Solar Cell Applications, in Nanostructured Materials for Solar Energy Conversion, T.
Online since: June 2011
Authors: Roland Taillard, Jérémie De Baerdemaeker, Rajashekhara Shabadi, Elke Leunis, Bertrand Radiguet
Worrall, Effects of the Radiation on Materials: 14 Intl.
Conf. on Small Angle Neutron Scattering in Material Science, 1985 (Springer Verilag, Berlin) ].
Tamehiro: Materials Transactions, JIM, 40 (4), 268 (1999). ,[] Kozo Osamura.
Krishnadev., in Advances in Materials Technology in the Amerias-1980: Vol. 2- Materials Processing and Performance, I.
Domain, Journal of Nucl.
Conf. on Small Angle Neutron Scattering in Material Science, 1985 (Springer Verilag, Berlin) ].
Tamehiro: Materials Transactions, JIM, 40 (4), 268 (1999). ,[] Kozo Osamura.
Krishnadev., in Advances in Materials Technology in the Amerias-1980: Vol. 2- Materials Processing and Performance, I.
Domain, Journal of Nucl.
Online since: August 2021
Authors: Valentina N. Zyryanova, Evgeniya V. Lytkina, Arzana P. Ochur-Ool
These materials, as well as the silica and CaCO3 are investigated in this paper as fillers magnesia binders.
Kramar, Dolomite magnesium oxychloride cement properties control method during its production, IOP Conference Series: Materials Science and Engineering. 71-1 (2015) 012045
Miryuk, Prospects for the use of waste in the technology of magnesian building materials, Science and the World. 11 (2014) 41-45
Akchurin, Raw materials use of the Volgograd region in the technology of building materials (state and prospects), Reliability and Durability of Building Materials and Structures. 2 (2000) 3-9
Ochur-ool, Serpentinite magnesia binders based on technogenic raw materials, University News.
Kramar, Dolomite magnesium oxychloride cement properties control method during its production, IOP Conference Series: Materials Science and Engineering. 71-1 (2015) 012045
Miryuk, Prospects for the use of waste in the technology of magnesian building materials, Science and the World. 11 (2014) 41-45
Akchurin, Raw materials use of the Volgograd region in the technology of building materials (state and prospects), Reliability and Durability of Building Materials and Structures. 2 (2000) 3-9
Ochur-ool, Serpentinite magnesia binders based on technogenic raw materials, University News.
Online since: May 2021
Authors: Frank Abraham, John Summerscales, Paul Brown, Dayang Habibah Abang Ismawi Hassim
Experimental
Materials.
The CRP400 and MRP074 recycled materials were from different batches of truck tyres.
De, Processing and material characteristics of a reclaimed ground rubber tire reinforced styrene butadiene rubber, Materials Sciences and Applications 2 (2011) 486-496
Payne, Hysteresis in rubber vulcanizates, Journal of Polymer Science:Polymer Symposia 48 (1974) 169-196
Weltin, Effects of very high loads on fatigue life of NR elastomer materials, Int.
The CRP400 and MRP074 recycled materials were from different batches of truck tyres.
De, Processing and material characteristics of a reclaimed ground rubber tire reinforced styrene butadiene rubber, Materials Sciences and Applications 2 (2011) 486-496
Payne, Hysteresis in rubber vulcanizates, Journal of Polymer Science:Polymer Symposia 48 (1974) 169-196
Weltin, Effects of very high loads on fatigue life of NR elastomer materials, Int.
Online since: August 2019
Authors: V. Muthupandi, Katakam Sivaprasad, R. Sokkalingam, M.P. Shankar
Soutis, Recent developments in advanced aircraft aluminium alloys, Materials and Design 56 (2014) 862–871
Aksakal, Effects of various homogenisation treatments on the hot workability of ingot aluminium alloy AA2014, Materials Science and Engineering A254 (1998) 189–199
Prangnell, Effect of welding parameters on the solidification microstructure of autogenous TIG welds in an Al–Cu–Mg–Mn alloy, Materials Science and Engineering A, 259 (1999) 53–64 [5] R.A.
Webster, Neutron and synchrotron measurements of residual strain in TIG welded aluminium alloy 2024, Materials Science and Engineering A, 346 (2003) 159-167
Tan, Study of microstructural and mechanical properties of weld heat affected zones of 2024-T3 aluminium using Gleeble simulation, Materials Science and Technology, 27:1 (2014) 357-365
Aksakal, Effects of various homogenisation treatments on the hot workability of ingot aluminium alloy AA2014, Materials Science and Engineering A254 (1998) 189–199
Prangnell, Effect of welding parameters on the solidification microstructure of autogenous TIG welds in an Al–Cu–Mg–Mn alloy, Materials Science and Engineering A, 259 (1999) 53–64 [5] R.A.
Webster, Neutron and synchrotron measurements of residual strain in TIG welded aluminium alloy 2024, Materials Science and Engineering A, 346 (2003) 159-167
Tan, Study of microstructural and mechanical properties of weld heat affected zones of 2024-T3 aluminium using Gleeble simulation, Materials Science and Technology, 27:1 (2014) 357-365
Online since: August 2011
Authors: Lei Xu, Guang Ze Dai, Xing Min Huang, Jun Wen Zhao, Jing Han
Influence of Initial Microstructure on Rheology of Al-Zn-Mg-Cu Alloy during Thermal Compression
Lei Xu1, Guangze Dai1, a, Xingmin Huang1, Junwen Zhao1 and Jing Han1
1 Key Laboratory of Advanced Technologies of Materials (Ministry of Education), School of Materials Science and Engineering, Southwest Jiaotong University, Chengdu, 610031, RP China
ag.dai@163.com
Keywords: Al-Zn-Mg-Cu alloy; rheology; activation energy; initial microstructure.
(1) Where is apparent active energy of materials, is gas constant, and are materials constants.
Material Science and Engineer A Vol.280(2000),p.1027
Materials Science and Engineering A Vol.379(2004),p.321
Tian: Fundamentals of Material Science (Tsinghua Press, China1998) [11] Taku Sakai, Xuyue Yang, Hiromi Miura: Materials Science and Engineering A, Vol.234-236 (1997), p.857
(1) Where is apparent active energy of materials, is gas constant, and are materials constants.
Material Science and Engineer A Vol.280(2000),p.1027
Materials Science and Engineering A Vol.379(2004),p.321
Tian: Fundamentals of Material Science (Tsinghua Press, China1998) [11] Taku Sakai, Xuyue Yang, Hiromi Miura: Materials Science and Engineering A, Vol.234-236 (1997), p.857
Online since: December 2003
Authors: Takahiro Kawai, Masanobu Kamitakahara, Chikara Ohtsuki, Masao Tanihara, Shigeji Konagaya, Toshiki Miyazaki, Yoshimitsu Sakaguchi
Bone-like
apatite layer is a key substance to bring about direct bonding of artificial materials to living bone.
Materials and Methods Polyamides shown in Fig. 1 were prepared according to a literature method [4].
Organic polymers modified with sulfonic groups and calcium chloride are candidate materials to produce apatite-polymer hybrids.
Acknowledgements This work was conducted under the auspices of the research project, "Technology Development for Medical Materials Merging Genome Information and Materials Science", in the Kansai Science City Innovative Cluster Creation Project, supported by the Ministry of Education, Culture, Sports, Science and Technology of Japan.
Konagaya: Key engineering Materials. 240-242 (2003) 59
Materials and Methods Polyamides shown in Fig. 1 were prepared according to a literature method [4].
Organic polymers modified with sulfonic groups and calcium chloride are candidate materials to produce apatite-polymer hybrids.
Acknowledgements This work was conducted under the auspices of the research project, "Technology Development for Medical Materials Merging Genome Information and Materials Science", in the Kansai Science City Innovative Cluster Creation Project, supported by the Ministry of Education, Culture, Sports, Science and Technology of Japan.
Konagaya: Key engineering Materials. 240-242 (2003) 59