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Online since: February 2017
Authors: J.V. Cortes-Suarez, N. López Perrusquia, T. de la Mora-Ramírez, M.A. Doñu Ruiz, D. Sánchez Huerta
Comparison of results between the different materials plates.
Biomedical applications of polymer-composite materials.
Journal of Biomechanics, 3229-3235
Journal Biomech Engineering, 273-280
Composites Science Technology, 55-65
Biomedical applications of polymer-composite materials.
Journal of Biomechanics, 3229-3235
Journal Biomech Engineering, 273-280
Composites Science Technology, 55-65
Online since: June 2014
Authors: Basirom Izzawati, M.S. Abdul Majid, Mohd Afendi, N.A.M. Amin, S. Nurhashima, M. Taufik
Adhesives are advantageous for joining thin or dissimilar materials, minimizing weight, and when a dampening joint is needed.
Maximum force applied cause failure of materials.
[3] Imanaka M, Fujinami A, Suzuki Y, Fracture and yield behavior of adhesively bonded joints under triaxial stress conditions, Journal of Materials Science 35 (2000) 2481–91
[4] Afendi M, Teramoto T, Effect of bond thickness on fracture behavior of interfacial crack in adhesive joint of dissimilar materials.
Stress-strain Curves, Department of Materials Science and Engineering Massauchusetts Institute of Technology Cambridge, MA 02139 (2001).
Maximum force applied cause failure of materials.
[3] Imanaka M, Fujinami A, Suzuki Y, Fracture and yield behavior of adhesively bonded joints under triaxial stress conditions, Journal of Materials Science 35 (2000) 2481–91
[4] Afendi M, Teramoto T, Effect of bond thickness on fracture behavior of interfacial crack in adhesive joint of dissimilar materials.
Stress-strain Curves, Department of Materials Science and Engineering Massauchusetts Institute of Technology Cambridge, MA 02139 (2001).
Online since: September 2013
Authors: Guang Ming Wang, Wei Teng
School of Electronic and Information Engineering, Liaoning University of Science and Technology Anshan, China
2.
Ansteel Engineering Technology Corporation Limited Anshan, China a. tengjiawei1978@163.com; b. tw_ln_1978@126.com Keywords: Cold Rolling Materials; Web Database; ASP.NET; Internet Abstract.
It provides users with a standard data of the domestic cold-rolling materials, including material properties, chemical composition, physical properties, mechanical properties, microstructure properties, process parameters and process equipments.
The system can provide users with rich resources and convenient query function, can help users to select reasonable cold rolling process according to the materials, and select appropriate equipments according to the materials and process.
[9] Bai Jianyu, Xu Jinfu, Bao Mingdong,”The Database of Cold-punched Die Material and Its Application” ,Materials for Mechanical Engineering, Vol.25, pp.36-39, 2001 [10] Tong Xiaoyan,”The Design of User-Oriented Database of Material Performance Based on Client/Server Model”, Technical Proceedings of the Materials Science and Engineering, pp.259-264, 1998.
Ansteel Engineering Technology Corporation Limited Anshan, China a. tengjiawei1978@163.com; b. tw_ln_1978@126.com Keywords: Cold Rolling Materials; Web Database; ASP.NET; Internet Abstract.
It provides users with a standard data of the domestic cold-rolling materials, including material properties, chemical composition, physical properties, mechanical properties, microstructure properties, process parameters and process equipments.
The system can provide users with rich resources and convenient query function, can help users to select reasonable cold rolling process according to the materials, and select appropriate equipments according to the materials and process.
[9] Bai Jianyu, Xu Jinfu, Bao Mingdong,”The Database of Cold-punched Die Material and Its Application” ,Materials for Mechanical Engineering, Vol.25, pp.36-39, 2001 [10] Tong Xiaoyan,”The Design of User-Oriented Database of Material Performance Based on Client/Server Model”, Technical Proceedings of the Materials Science and Engineering, pp.259-264, 1998.
Online since: February 2024
Authors: Mritunjay Kumar Singh, Anil Singh Yadav, Preeti Chincholkar, Ramesh Bokade, Neeraj Agarwal, Rohit Sahu, Jitendra Malviya, Gurjeet Singh
Advanced Materials Research 1119 (2015): 201-206
In IOP Conference Series: Materials Science and Engineering, vol. 1136, no. 1, p. 012012.
In International Journal of Management and Applied Science, vol. 4, pp. 73-75. 2018
In IOP Conference Series: Materials Science and Engineering, vol. 406, no. 1, p. 012018.
Journal of the mechanical behavior of biomedical materials 63 (2016): 303-313.
In IOP Conference Series: Materials Science and Engineering, vol. 1136, no. 1, p. 012012.
In International Journal of Management and Applied Science, vol. 4, pp. 73-75. 2018
In IOP Conference Series: Materials Science and Engineering, vol. 406, no. 1, p. 012018.
Journal of the mechanical behavior of biomedical materials 63 (2016): 303-313.
Online since: December 2014
Authors: Eduardo Saito, Vagner Eduardo Caetano, Erica Freire Antunes, Anderson Oliveira Lobo, Fernanda Roberto Marciano, Vladimir Jesus Trava-Airoldi, Evaldo José Corat
Carbon nanotubes are materials whose unique properties mechanical, thermal and electrical properties enable a wide range of wide potential applications in energy management, electronics, structural materials and chemical processing [2,3].
Biesheuvel: Progress in Materials Science Vol. 58 (8) (2013), p. 1388
Biesheuvel: ACS applied materials & interfaces Vol. 4 (3) (2012), p. 1194
Hamelers: Journal of Colloid and Interface Science Vol. 418 (2014), p. 200
Corat: Diamond and Related Materials Vol. 20(7) (2011), p. 931
Biesheuvel: Progress in Materials Science Vol. 58 (8) (2013), p. 1388
Biesheuvel: ACS applied materials & interfaces Vol. 4 (3) (2012), p. 1194
Hamelers: Journal of Colloid and Interface Science Vol. 418 (2014), p. 200
Corat: Diamond and Related Materials Vol. 20(7) (2011), p. 931
Online since: May 2013
Authors: Li Rong Lei, You Ming Li
In this work, basic mechanisms of degradation of organic pollutants by ozone-based technologies in the presence of environmental materials as catalyst are described.
The objectives of this work are to present the research process on environmental materials with application of ozone-based technologies in removal of characteristic pollutants in pulp and paper effluents and the development trend of ozonation technologies with environmental materials as catalysts.
Ozonation of pulp mill effluent with environmental materials as catalysts In recent years, ozonation of pulp mill effluent in the presence of environmental materials as catalysts has been researched and better treatment efficiencies than single ozonation were obtained.
At present, application of catalytic ozonation process with environmental materials as catalyst in removal of characteristic pollutants in pulp and paper effluents is limited.
Moral: Journal of Advanced Oxidation Technologies, Vol.11 (2008), p.543 [21] C.H.
The objectives of this work are to present the research process on environmental materials with application of ozone-based technologies in removal of characteristic pollutants in pulp and paper effluents and the development trend of ozonation technologies with environmental materials as catalysts.
Ozonation of pulp mill effluent with environmental materials as catalysts In recent years, ozonation of pulp mill effluent in the presence of environmental materials as catalysts has been researched and better treatment efficiencies than single ozonation were obtained.
At present, application of catalytic ozonation process with environmental materials as catalyst in removal of characteristic pollutants in pulp and paper effluents is limited.
Moral: Journal of Advanced Oxidation Technologies, Vol.11 (2008), p.543 [21] C.H.
Online since: February 2014
Authors: Yi Yang Li, Zhou Wan, Hao Hua Liu, Xi Cun You, Zhu En Chen
Design of low frequency hydrophone based on PVDF piezoelectric materials
Zhuen Chen1,a, Zhou Wan1,b, Yiyang Li1,c, Haohua Liu1,d, Xicun You1,e
1 Faculty of Information Engineering and Automation, Kunming University of Science and Technology, Kunming Yunnan 650500
aemail: 530799708@qq.com, bemail:ynkgwz@aliyun.com, cemail:kmustlyy@163.com,
demail: 578761499@qq.com, eemail: 349649975@qq.com
Keywords: PVDF; Low frequency; Hydrophone
Abstract.
By the formula (1) shows, can increase the value of to improve the storage of materials, so choose the material of limit value is larger or smaller elastic modulus.
With those advantages, this article selects PVDF as sensing materials.
Journal of Functional Materials,2004(4):450-456 [2] Huang Jiannan.
Kunming University of Science and Technology,2012 [4] Huang Jiannan.
By the formula (1) shows, can increase the value of to improve the storage of materials, so choose the material of limit value is larger or smaller elastic modulus.
With those advantages, this article selects PVDF as sensing materials.
Journal of Functional Materials,2004(4):450-456 [2] Huang Jiannan.
Kunming University of Science and Technology,2012 [4] Huang Jiannan.
Online since: May 2014
Authors: Yuan Dai, Xin Ru Shao, Zhong Su Ma
Seem were prepared by Spray-Drying, using maltodextrin and gum arabic as wall materials.
Experimental Section Materials.
Seem anthocyanins as core materials, maltodextrin and gum arabic as wall materials.
Boirdignon-Luiz: International Journal of Food Science & Technology, Vol.46 (2011) No.1, p.186
Saenz: International Journal of Food Science & Technology, Vol. 45 (2010) No.7, p.1386.
Experimental Section Materials.
Seem anthocyanins as core materials, maltodextrin and gum arabic as wall materials.
Boirdignon-Luiz: International Journal of Food Science & Technology, Vol.46 (2011) No.1, p.186
Saenz: International Journal of Food Science & Technology, Vol. 45 (2010) No.7, p.1386.
Online since: February 2011
Authors: Behnam Davoodi, Mohammad Bagher Momeni, Mohammad Reza Eslami
P., 1980, “Chip Curl, Chip Breaking and Chip Control of the Difficult to Cut
Materials,” CIRP Annals … Manufacturing Technology, pp. 79 – 83
D., 1999, “Finite Element Analysis of Chip Formation in Grooved Tool Metal Cutting,” ASME Journal of Manufacturing Science and Engineering, Vol. 3-1, pp. 245-258
M., 1996, “An evaluation of chip separation criteria for the fem simulation of machining”, Journal of Manufacturing Science and Engineering, 118, 545 – 553
[11] Ng E.G., Aspinwall D.K, Modeling of hard part machining, Journal of materials processing technology, Vol. 127,2002, p.222 [12] Strenkowski, J.S., and Carroll, J.T., 1985, “A finite element model of orthogonal metal cutting”, ASME Journal of Engineering for Industry, 1985, 107, 346-354
[13] Ceretti, E., Fallböhmer, P., Wu, W.T., and Altan, T., 1996, “Application of 2-D FEM to chip formation in orthogonal cutting”, Journal of Materials Processing Technology, 59, 169-181
D., 1999, “Finite Element Analysis of Chip Formation in Grooved Tool Metal Cutting,” ASME Journal of Manufacturing Science and Engineering, Vol. 3-1, pp. 245-258
M., 1996, “An evaluation of chip separation criteria for the fem simulation of machining”, Journal of Manufacturing Science and Engineering, 118, 545 – 553
[11] Ng E.G., Aspinwall D.K, Modeling of hard part machining, Journal of materials processing technology, Vol. 127,2002, p.222 [12] Strenkowski, J.S., and Carroll, J.T., 1985, “A finite element model of orthogonal metal cutting”, ASME Journal of Engineering for Industry, 1985, 107, 346-354
[13] Ceretti, E., Fallböhmer, P., Wu, W.T., and Altan, T., 1996, “Application of 2-D FEM to chip formation in orthogonal cutting”, Journal of Materials Processing Technology, 59, 169-181
Online since: December 2018
Authors: Guo Cai Chai, Joakim Nordström, Raveendra Siriki, Johan Moverare
Two type of materials were used.
Mahajan, Deformation twinning, Progress in Materials Science, 1995. 39(1): p. 1-157
Chin, State-of-the-knowledge on TWIP steel, Materials Science and Technology, 2012: VOL 28: NO 5:513:527
Strengthening via deformation twinning in a nickel alloy, Materials Science and Engineering, 2008, A 480 75–83
[10] ASM Metals Handbook, 10th ed., 1990, ASM INTERNATIONAL, Materials Park, OH,
Mahajan, Deformation twinning, Progress in Materials Science, 1995. 39(1): p. 1-157
Chin, State-of-the-knowledge on TWIP steel, Materials Science and Technology, 2012: VOL 28: NO 5:513:527
Strengthening via deformation twinning in a nickel alloy, Materials Science and Engineering, 2008, A 480 75–83
[10] ASM Metals Handbook, 10th ed., 1990, ASM INTERNATIONAL, Materials Park, OH,