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Online since: March 2012
Authors: Zong Wei Niu, Xue Mei Huang, Jia You Zhang, Hong Fu Liu, Li Li
Xu, The remanufacturing engineering and automatic surface engineering technology, Key Engineering Materials, vol. 373-374(2008), p 1-10
Wang, Study on the green remanufacturing of ultrasonic vibration aided hot-dip aluminizing and micro arc oxidation, Advanced Materials Research, vol. 139-141(2010), p 394-397
Li, Surface coating control model of hot dip aluminizing, The Chinese Journal of Nonferrous Metals, vol. 13(2003), p 1202-1205
Chang, Structure analysis of coating for hot dip aluminum steel, Journal of Materials and Metallurgy, vol. 3, n 1(2004), p 51-53
Ishihara, Hot-dip coating of lead-free aluminum on steel substrates with ultrasonic vibration, Journal of Materials Science and Technology, vol. 24, n 1(2008), p 41-44.
Wang, Study on the green remanufacturing of ultrasonic vibration aided hot-dip aluminizing and micro arc oxidation, Advanced Materials Research, vol. 139-141(2010), p 394-397
Li, Surface coating control model of hot dip aluminizing, The Chinese Journal of Nonferrous Metals, vol. 13(2003), p 1202-1205
Chang, Structure analysis of coating for hot dip aluminum steel, Journal of Materials and Metallurgy, vol. 3, n 1(2004), p 51-53
Ishihara, Hot-dip coating of lead-free aluminum on steel substrates with ultrasonic vibration, Journal of Materials Science and Technology, vol. 24, n 1(2008), p 41-44.
Online since: February 2011
Authors: Ian M Reaney, Guo Hua Chen, Ying Cai Liu, Yan Sheng Yin, Yan Lei
Microwave dielectric properties and microstructures of RETiNbO6 (RE=La, Sm and Y)
Yan Lei1,2, a, Ian M Reaney2, Yingcai Liu1, b, Yansheng Yin1, c, and Guohua Chen3
1 Ocean University of China, Institute of Materials Science and Technology, Qingdao 266100, China
2 University of Sheffield, Department of Engineering Materials, Sir Robert Hadfield Building, Mapping Street, Sheffield S1 3JD, UK
3 Guilin University of Electronic Technology, Department of Information Materials Science and Engineering, Guilin 541004, China
ajoannlei@hotmail.com,blyc2004@ouc.edu.cn,cyys2003@ouc.edu.cn
Keywords: Dielectric Property; Microwave Ceramics; X-ray Diffraction; Scanning Electron Microscopy, Rare-earth Titanium Niobate.
Wersing: Current Opinion in Solid State and Materials Science, 1996. 1(5): 715-731
Varma, et al.: Journal of Materials Research, 2002. 17(10): 2561-2566
Han, et al.: Journal of Crystal Growth, 1997. 180(1): 73-80
Gallagher, et al.: Journal of Crystal Growth, 1996. 160: 111-118
Wersing: Current Opinion in Solid State and Materials Science, 1996. 1(5): 715-731
Varma, et al.: Journal of Materials Research, 2002. 17(10): 2561-2566
Han, et al.: Journal of Crystal Growth, 1997. 180(1): 73-80
Gallagher, et al.: Journal of Crystal Growth, 1996. 160: 111-118
Online since: August 2013
Authors: Li Po Yang, Bing Qiang Yu
Effect of Cold Rolling Strip Edge Offset on Original Shape Signal
Lipo Yang1,2,a, Bingqiang Yu1,b
1National Engieering Research Center for Equipment and Technology of Cold Rolling Strip;
2State Key Laboratory of Metastable Materials Science and Technology;
3College of Environmental and Chemical Engineering, Yanshan University, Qinhuangdao 066004, Hebei, China
ayanglp@ysu.edu.cn, byf6688@163.com
Keywords: shape detection, shape signal, edge error compensation, strip offset, cold rolling strip.
Acknowledgements This work was financially supported by National Science and Technology Support Plan of China (2011BAF15B03), and Hebei Province Colleges and Universities Natural Science Research Youth Foundation (Grant No.
Chinese Journal of Mechanical Engineering, Vol. 44 No. 8 (2008), p. 137-142
Chinese Journal of Scientific Instrument, Vol. 31 No. 4 (2010), p. 904-911
Journal of Mechanical Engineering, Vol. 47 No. 12 (2011), p. 56-61
Acknowledgements This work was financially supported by National Science and Technology Support Plan of China (2011BAF15B03), and Hebei Province Colleges and Universities Natural Science Research Youth Foundation (Grant No.
Chinese Journal of Mechanical Engineering, Vol. 44 No. 8 (2008), p. 137-142
Chinese Journal of Scientific Instrument, Vol. 31 No. 4 (2010), p. 904-911
Journal of Mechanical Engineering, Vol. 47 No. 12 (2011), p. 56-61
Online since: April 2021
Authors: Masaji Watanabe, Fusako Kawai
http://journal.austms.org.au/ojs/index.php/ANZIAMJ/article/view/2433
[8] MASAJI WATANABE, FUSAKO KAWAI, EXPONENTIAL APPROXIMATION OF CONSUMPTION
RATE OF CARBON SOURCE IN NUMERICAL SIMULATION OF MICROBIAL
DEPOLYMERIZATION PROCESS, International Journal of Advances in Science Engieering
and Technology, ISSN(p):2321-8991, ISSN(e): 2321-9009, Vol-7, ISS-1, Spl.
volume id=553 [9] Masaji Watanabe, Fusako Kawai, Mathematical Modeling and Inverse Analysis for Microbial Depolymerization Processes of Xenobiotic Polymers, Journal of Materials Science and Chemical Engineering, 2019, 7, pp. 39-46.
DOI: 10.4236/msce.2019.712005 [10] Masaji Watanabe, Fusako Kawai, Numerical Study on Microbial Depolymerization Process of Xenobiotic Polymer, Jounal of Material Science and Chemical Engineering Vol. 9 No. 1, January 29, 2021.
DOI: 10.4236/msce.2021.91004 https://www.scirp.org/journal/paperinformation.aspx?
paperid=107007 [11] Fusako Kawai, Shogo Enokibara, Symbolic Degradation of Polyethylene Glycol (PEG) 20,000- Phthalate Polyester by Phthalate Ester- and PEG 20,000-Utilizing Bacteria, Journal of Fermentation and Bioengineering, Vol. 82, No. 6, 575-579, 1996.
volume id=553 [9] Masaji Watanabe, Fusako Kawai, Mathematical Modeling and Inverse Analysis for Microbial Depolymerization Processes of Xenobiotic Polymers, Journal of Materials Science and Chemical Engineering, 2019, 7, pp. 39-46.
DOI: 10.4236/msce.2019.712005 [10] Masaji Watanabe, Fusako Kawai, Numerical Study on Microbial Depolymerization Process of Xenobiotic Polymer, Jounal of Material Science and Chemical Engineering Vol. 9 No. 1, January 29, 2021.
DOI: 10.4236/msce.2021.91004 https://www.scirp.org/journal/paperinformation.aspx?
paperid=107007 [11] Fusako Kawai, Shogo Enokibara, Symbolic Degradation of Polyethylene Glycol (PEG) 20,000- Phthalate Polyester by Phthalate Ester- and PEG 20,000-Utilizing Bacteria, Journal of Fermentation and Bioengineering, Vol. 82, No. 6, 575-579, 1996.
Online since: January 2022
Authors: Junya Jettanasen, Panapong Songsukthawan, Tanchanok Prakit, Nattapon Thongyoo
Material
Isotropic Thermal conductivity (W m-1 K-1)
Specific heat (J kg-1 K-1)
Silica sand
0.26
800
Silver
429
234
In the experiment, the outstanding properties of both materials were combined to achieve a high-quality heat-retaining material: silica sand coated with silver nanoparticles.
Shim, The effects of wet heat and dry heat on the gait and feet of healthy adults, Journal of physical therapy science, 26 (2014) 183-185
Zhang, Novel metal coated nanoencapsulated phase change materials with high thermal conductivity for thermal energy storage, Solar energy materials and solar cells, 176 (2018) 212-221
Arblaster, Thermodynamic properties of silver, Journal of Phase Equilibria and Diffusion, 36 (2015) 573-591
Wright, The Science and Engineering of Materials, 6th ed., Cengage Learning, 2010
Shim, The effects of wet heat and dry heat on the gait and feet of healthy adults, Journal of physical therapy science, 26 (2014) 183-185
Zhang, Novel metal coated nanoencapsulated phase change materials with high thermal conductivity for thermal energy storage, Solar energy materials and solar cells, 176 (2018) 212-221
Arblaster, Thermodynamic properties of silver, Journal of Phase Equilibria and Diffusion, 36 (2015) 573-591
Wright, The Science and Engineering of Materials, 6th ed., Cengage Learning, 2010
Online since: April 2015
Authors: Amal Kabalan, Pritpal Singh
Introduction
CdTe is one of the favorable materials in fabricating solar cells due to its optical properties.
Walsh, "Thermoelectric quantum-dot superlattices with high ZT," Journal of Electronic Materials, vol. 29, pp.
Shneck, "Growth and characterization of PbTe films by magnetron sputtering," Materials Science and Engineering B-Solid State Materials for Advanced Technology, vol. 106, pp. 89-94, Jan. 2004
Dauscher, "Pulsed laser deposition of PbTe films on glass substrates," Applied Physics a-Materials Science & Processing, vol. 69, pp.
Shneck, "Growth and characterization of PbTe films by magnetron sputtering," Materials Science and Engineering B-Solid State Materials for Advanced Technology, vol. 106, pp. 89-94, Jan. 2004
Walsh, "Thermoelectric quantum-dot superlattices with high ZT," Journal of Electronic Materials, vol. 29, pp.
Shneck, "Growth and characterization of PbTe films by magnetron sputtering," Materials Science and Engineering B-Solid State Materials for Advanced Technology, vol. 106, pp. 89-94, Jan. 2004
Dauscher, "Pulsed laser deposition of PbTe films on glass substrates," Applied Physics a-Materials Science & Processing, vol. 69, pp.
Shneck, "Growth and characterization of PbTe films by magnetron sputtering," Materials Science and Engineering B-Solid State Materials for Advanced Technology, vol. 106, pp. 89-94, Jan. 2004
Online since: September 2012
Authors: Yong Kim, Anshul Agrawal, Paul D. Calvert, Michael Lee
Materials used in manufacturing of organic photovoltaic wire.
H., "Flexible Solar Cell for Clothing", Materials Today, 9, 6, 42-50, June 2006
A., "Solar Power Wires Based Organic Photovoltaic Materials", Science Express Report, 324, 5924, 232-235, 12 March 2009
A., “Solar Power Wires Based on Organic Photovoltaic Materials”, Supporting Online Material, Science Express Report, 2009
A., Calvert P., and Agrawal A., “Optical and Electronic Properties of Organic Photovoltaic Wires and Fabrics”, Journal of Macromolecular Science, Part A:Pure and Applied Chemistry, 46, 12, 1238-1246, 2009
H., "Flexible Solar Cell for Clothing", Materials Today, 9, 6, 42-50, June 2006
A., "Solar Power Wires Based Organic Photovoltaic Materials", Science Express Report, 324, 5924, 232-235, 12 March 2009
A., “Solar Power Wires Based on Organic Photovoltaic Materials”, Supporting Online Material, Science Express Report, 2009
A., Calvert P., and Agrawal A., “Optical and Electronic Properties of Organic Photovoltaic Wires and Fabrics”, Journal of Macromolecular Science, Part A:Pure and Applied Chemistry, 46, 12, 1238-1246, 2009
Online since: January 2014
Authors: Huda Abdullah, Markom Masturah, Siti Nur Fadhilah Zainudin
Yang, Electronic surface state of TiO2 electrode doped with transition metals, studied with cluster model and DV-X method,Computational Materials Science30(2004)383–388
Gholami, Transition metal ions effect on the properties and photocatalytic activity of nanocrystalline TiO2 prepared in an ionic liquid, Journal of Hazardous Materials 172(2009)1573–1578
[14] N.Venkatachalam, M.Palanichamy, V.Murugesan, Sol–gel preparation and characterization of nanosize TiO2: Its photocatalytic performance, Materials Chemistry and Physics 104(2007) 454–459
Jung, Enhanced efficiency of dye-sensitized TiO2 solar cells (DSSC) by doping of metal ions,Journal of Colloid and Interface Science 283(2005)482–487
Lee, M.Yang, Review: Progress in light harvesting and charge injection of dye-sensitized solar cells, Materials Science and Engineering B 176 (2011) 1142– 1160
Gholami, Transition metal ions effect on the properties and photocatalytic activity of nanocrystalline TiO2 prepared in an ionic liquid, Journal of Hazardous Materials 172(2009)1573–1578
[14] N.Venkatachalam, M.Palanichamy, V.Murugesan, Sol–gel preparation and characterization of nanosize TiO2: Its photocatalytic performance, Materials Chemistry and Physics 104(2007) 454–459
Jung, Enhanced efficiency of dye-sensitized TiO2 solar cells (DSSC) by doping of metal ions,Journal of Colloid and Interface Science 283(2005)482–487
Lee, M.Yang, Review: Progress in light harvesting and charge injection of dye-sensitized solar cells, Materials Science and Engineering B 176 (2011) 1142– 1160
Online since: January 2013
Authors: Teng Yong Ng, William Toh, Zi Shun Liu
Early studies on the mechanics of gel swelling by Tanaka et al [1] consists of decomposing the material into the two individual phases for separate analysis, which limits the analysis of such materials to simple geometries[1], [2].
The swelling kinetics of a polymeric gel is due to the migration of solvent molecules within and across the material boundary.
Tanaka, “Kinetics of swelling and shrinking of gels,” The Journal of Chemical Physics, vol. 92, no. 2, p. 1365, 1990
Fillmore, “Kinetics of swelling of gels,” The Journal of Chemical Physics, vol. 70, no. 3, p. 1214, 1979
Zhang, “Modeling and simulation of buckling of polymeric membrane thin film gel,” Computational Materials Science, vol. 49, no. 1, pp.
The swelling kinetics of a polymeric gel is due to the migration of solvent molecules within and across the material boundary.
Tanaka, “Kinetics of swelling and shrinking of gels,” The Journal of Chemical Physics, vol. 92, no. 2, p. 1365, 1990
Fillmore, “Kinetics of swelling of gels,” The Journal of Chemical Physics, vol. 70, no. 3, p. 1214, 1979
Zhang, “Modeling and simulation of buckling of polymeric membrane thin film gel,” Computational Materials Science, vol. 49, no. 1, pp.
Online since: July 2011
Authors: Bing Hai Lv, Ju Long Yuan, Duc Nam Nguyen, Zhe Wu
Plane lapping method using the elasticity of materials has many advantages comparing with current machining method for aspherical surface machining.
Introduction As the major machining methods in large volume production of aspherical workpieces, precision injection molding and glass molding have many advantages such as high efficiency and good compatibility when comparing with the traditional cold working methods[1], but there are still some problems during the machining process; for example, as the materials are heated, the property like refractive index will slightly change and when cool down, the materials will shrink which cause the profile errors[2].
Plane machining method using the elasticity of materials has been seen in few references such as the machining of Schmidt correctors[3].The basic principle of the plane lapping method using elastic deformation is: lapping one side of the workpiece when it is deformed and after recovery the un-lapped side will become the deformed profile, so the complex aspherical surface machining is converted to simple flat surface machining.
Acknowledgements This research is supported by the National Science Foundation of China (50705028, 50975085).
Masuda, et al: Journal of Materials Processing Technology Vol. (2009) No.209, pp: 4484-4489
Introduction As the major machining methods in large volume production of aspherical workpieces, precision injection molding and glass molding have many advantages such as high efficiency and good compatibility when comparing with the traditional cold working methods[1], but there are still some problems during the machining process; for example, as the materials are heated, the property like refractive index will slightly change and when cool down, the materials will shrink which cause the profile errors[2].
Plane machining method using the elasticity of materials has been seen in few references such as the machining of Schmidt correctors[3].The basic principle of the plane lapping method using elastic deformation is: lapping one side of the workpiece when it is deformed and after recovery the un-lapped side will become the deformed profile, so the complex aspherical surface machining is converted to simple flat surface machining.
Acknowledgements This research is supported by the National Science Foundation of China (50705028, 50975085).
Masuda, et al: Journal of Materials Processing Technology Vol. (2009) No.209, pp: 4484-4489