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Online since: February 2009
Authors: Qiu Sheng Yan, Jia Bin Lu, Wei Qiang Gao, Yi Liu, Yong Yang
In order to obtain different
performances, the hard-brittle materials such as silicon, ceramic, glass and ferrite are employed as the
materials of micro components.
This confirms that the new tiny-grinding wheel can machine the microstructure of the brittle materials effectively.
Syoji, et al.: Key Engineering Materials, Vol. 257 (2004), pp. 95-100
Yan: Key Engineering Materials, Vol. 304 (2006), pp. 181-185
Yu, et al.: International Journal of Materials and Product Technology, Vol. 31 (2008), No. 1, pp. 113-124
This confirms that the new tiny-grinding wheel can machine the microstructure of the brittle materials effectively.
Syoji, et al.: Key Engineering Materials, Vol. 257 (2004), pp. 95-100
Yan: Key Engineering Materials, Vol. 304 (2006), pp. 181-185
Yu, et al.: International Journal of Materials and Product Technology, Vol. 31 (2008), No. 1, pp. 113-124
Online since: February 2016
Preface
The key point of modern mechanical engineering development is the modernization of existing and
development of new technologies for production and processing of various structural materials.
Development of technologies and creation of new materials are interdependent and mutually stimulating processes requiring that researchers and engineers constantly use high-tech and interdisciplinary approaches in their work.
Continuous improvement of traditional and development of new materials and technologies coupled with wide use of nanotechnology and application of the computational experiment in the practice of engineering simulation and design are the characteristic features of the modern mechanical engineering development.
The results of research and engineering development presented in this volume of the journal definitely meet the requirements of modern production and will be useful and interesting to a wide range of engineers and researchers in the field of applied materials science, development and creation of technological processes, control and robotics.
Managing Director of journal, Dr.
Development of technologies and creation of new materials are interdependent and mutually stimulating processes requiring that researchers and engineers constantly use high-tech and interdisciplinary approaches in their work.
Continuous improvement of traditional and development of new materials and technologies coupled with wide use of nanotechnology and application of the computational experiment in the practice of engineering simulation and design are the characteristic features of the modern mechanical engineering development.
The results of research and engineering development presented in this volume of the journal definitely meet the requirements of modern production and will be useful and interesting to a wide range of engineers and researchers in the field of applied materials science, development and creation of technological processes, control and robotics.
Managing Director of journal, Dr.
Online since: February 2009
Authors: Ji Wang Yan, Liang Chi Zhang, Tsunemoto Kuriyagawa, A.Q. Biddut, Tsutomu Ohta, B. Shaun
Tanaka, JSME International Journal Series A: Solid Mechanics & Materials
Engineering. 42 (1999) 546
Zhang, Journal of Materials Science Letters 15 (1996) 586
Ahern Materials Research Society. 11 (1996) 1128
Zhang, Journal of Materials Processing Technology. 84 (1998) 149
Sumino, Materials Science Forum Volumes.196-201 (1995) 1841
Zhang, Journal of Materials Science Letters 15 (1996) 586
Ahern Materials Research Society. 11 (1996) 1128
Zhang, Journal of Materials Processing Technology. 84 (1998) 149
Sumino, Materials Science Forum Volumes.196-201 (1995) 1841
Online since: December 2010
Authors: Yi Xia Yan, Fang Ju Zhang, Ruo Ze Xie, Xi Cheng Huang, Wen Jun Hu, Jun Mei, Yong Mei Chen
Journal of Nuclear Materials, 307-311, Part 1: 547-554. (2001)
[6] N.
A.: Journal of the Nuclear Materials.
Journal of Refractory Metals & hard Materials.
Journal of the Nuclear Materials.
Journal of the Nuclear Materials.
A.: Journal of the Nuclear Materials.
Journal of Refractory Metals & hard Materials.
Journal of the Nuclear Materials.
Journal of the Nuclear Materials.
Online since: February 2012
Authors: Ying Chang, Shi Jie Dong, Jin Fang Zou, Qin Biao Zhu, Kuan He Du
Chu: Materials Science and Engineering: C Vol. 25(2005), p .509
[5] Q.L.
Chen: Journal of Power Sources Vol. 162(2006), p. 1036 [6] Toshio Suzuk, Md.
Marple: Journal of Thermal Spray Technology Vol. 16(2007), p. 40 [9] Wean Sin Cheow, Selina Li, Kunn Hadinoto: Chemical Engineering Research and Design Vol. 88(2010), p. 673 [10] Bertrand Faure, Jesper Sæderup Lindeløv, Michael Wahlberg, Nicholas Adkins, Phil Jackson and Lennart Bergström: Powder Technology Vol. 203(2010), p. 384 [11] Izumi Taniguchi, Norifumi Fukuda, Muxina Konarova: Powder Technology Vol. 181(2008), p. 228 [12] Xiaoyi Shen, Yuchun Zhai, Yang Sun and Huimin Gu: Journal of Materials Science & Technology Vol.26(2010), p. 711 [13] Tian-zu YANG, Zuo-juan DU, Ying-ying GU, Xiao-yong QIU, Ming-xi JIANG and Guang CHU: Transactions of Nonferrous Metals Society of China Vol. 17(2007), p. 434 [14] Y.B Khollam, S.R Dhage, H.S Potdar, S.B Deshpande, P.P Bakare, S.D Kulkarni and S.K Date: Materials Letters Vol. 56(2002), p. 571 [15] S.
Hannula: Materials Letters Vol. 61(2007), p. 3171 [19] N.
Petrović: Superlattices and Microstructures Vol. 46(2009), p. 217 [20] Christel Laberty-Robert, Florence Ansart, Simone Castillo and Guillaume Richard: Solid State Sciences Vol. 4(2002), p. 1053 [21] Tian Ma, Yong Huang, Jinlong Yang, Jintao He and Lei Zhao: Materials and Design Vol. 25(2004), p. 515 [22] Yuchao Liao, Xiaofeng Wu, Zhen Wang and Yun-Fa Chen: Journal of Solid State Chemistry Vol.184(2011), p. 1603 [23] Teofil Jesionowski: Materials Chemistry and Physics Vol. 113(2009), p. 839 [24] Yong Huang, Tian Ma, Jin-Long Yang, Li-Ming Zhang, Jin-Tao He and Hai-Feng Li: Ceramics International Vol. 30(2004), p. 675 [25] Teofil Jesionowski, Filip Ciesielczyk, Andrzej Krysztafkiewicz: Materials Chemistry and Physics Vol. 119(2010), p. 65 [26] O Vasylkiv, Y.
Chen: Journal of Power Sources Vol. 162(2006), p. 1036 [6] Toshio Suzuk, Md.
Marple: Journal of Thermal Spray Technology Vol. 16(2007), p. 40 [9] Wean Sin Cheow, Selina Li, Kunn Hadinoto: Chemical Engineering Research and Design Vol. 88(2010), p. 673 [10] Bertrand Faure, Jesper Sæderup Lindeløv, Michael Wahlberg, Nicholas Adkins, Phil Jackson and Lennart Bergström: Powder Technology Vol. 203(2010), p. 384 [11] Izumi Taniguchi, Norifumi Fukuda, Muxina Konarova: Powder Technology Vol. 181(2008), p. 228 [12] Xiaoyi Shen, Yuchun Zhai, Yang Sun and Huimin Gu: Journal of Materials Science & Technology Vol.26(2010), p. 711 [13] Tian-zu YANG, Zuo-juan DU, Ying-ying GU, Xiao-yong QIU, Ming-xi JIANG and Guang CHU: Transactions of Nonferrous Metals Society of China Vol. 17(2007), p. 434 [14] Y.B Khollam, S.R Dhage, H.S Potdar, S.B Deshpande, P.P Bakare, S.D Kulkarni and S.K Date: Materials Letters Vol. 56(2002), p. 571 [15] S.
Hannula: Materials Letters Vol. 61(2007), p. 3171 [19] N.
Petrović: Superlattices and Microstructures Vol. 46(2009), p. 217 [20] Christel Laberty-Robert, Florence Ansart, Simone Castillo and Guillaume Richard: Solid State Sciences Vol. 4(2002), p. 1053 [21] Tian Ma, Yong Huang, Jinlong Yang, Jintao He and Lei Zhao: Materials and Design Vol. 25(2004), p. 515 [22] Yuchao Liao, Xiaofeng Wu, Zhen Wang and Yun-Fa Chen: Journal of Solid State Chemistry Vol.184(2011), p. 1603 [23] Teofil Jesionowski: Materials Chemistry and Physics Vol. 113(2009), p. 839 [24] Yong Huang, Tian Ma, Jin-Long Yang, Li-Ming Zhang, Jin-Tao He and Hai-Feng Li: Ceramics International Vol. 30(2004), p. 675 [25] Teofil Jesionowski, Filip Ciesielczyk, Andrzej Krysztafkiewicz: Materials Chemistry and Physics Vol. 119(2010), p. 65 [26] O Vasylkiv, Y.
Online since: November 2016
Authors: Natália Maria de Faria, Cristina Moniz Araujo Lopes, Rosa Maria Rocha
Polyurethane aqueous based adhesive presented better interaction with both materials when compared to organic solvent based adhesive.
The high resistance to fracture is related to the strong interactions between the materials [1, 2].
For achieving that, an adhesive layer must be introduced to bond the materials together.
Pluvinage: Applied Surface Science Vol. 264 (2013), p. 485
Douk: Journal of Colloid and Interface Science Vol. 252 (2002), p. 249.
The high resistance to fracture is related to the strong interactions between the materials [1, 2].
For achieving that, an adhesive layer must be introduced to bond the materials together.
Pluvinage: Applied Surface Science Vol. 264 (2013), p. 485
Douk: Journal of Colloid and Interface Science Vol. 252 (2002), p. 249.
Online since: December 2011
Authors: Ning Li, Bo Rong Wu, Chun Wei Yang, Feng Wu, Chuan Xiong Zhou, Yong Huan Ren, Jing Wen Yao
It is deemed as one of the most potential cathode materials in the application of power battery.
The cathode was prepared by mixing active materials, acetylene black and Polyvinylidene Fluoride(PVDF) in a weight ratio of 78:15:8.
The SEM images of doped cathode materials are shown in Fig. 2.
Chiang: Nature Materials Vol. 1 (2002), p. 123 [13] C.
Yao: Journal of Power Sources Vol. 189 (2009), p. 543 [15] N.
The cathode was prepared by mixing active materials, acetylene black and Polyvinylidene Fluoride(PVDF) in a weight ratio of 78:15:8.
The SEM images of doped cathode materials are shown in Fig. 2.
Chiang: Nature Materials Vol. 1 (2002), p. 123 [13] C.
Yao: Journal of Power Sources Vol. 189 (2009), p. 543 [15] N.
Online since: March 2015
Authors: Yuan Hua Lin, Lu Jiang Zhou, Shu Liang Wang, Jia Lian Li, Xiao Hong Wang, Xing Jun Liu
Thermodynamic Study of Ag-Au-Gd, Tb Ternary Systems
Jialian Li1, a, Shuliang Wang1, b*, Lujiang Zhou1, c, Xiaohong Wang1, d,
Yuanhua Lin1, e* and Xingjun Liu2, f
1School of Materials Science and Engineering, Southwest Petroleum University,
Chengdu 610000,China.
2College of Materials, Xiamen University, Xiamen, 361005, PR China
akjljl01@163.com, bwsliang1465@126.com, ck21zhou@163.com, dxhwang3368@swpu.edu.cn, eyhlin28@163.com, flxj@xmu.edu.cn
Keywords: Ag-based filler alloy, CALPHAD method, Ternary system, Thermodynamic database.
Phase diagram provides an important direction for materials design of the Ag-based filler alloy.
Phase diagram can give a significant direction for materials design of the Ag-based filler alloy.
Ge, Effect of Ce on Microstructure and Properties of Sn-Ag-Cu Solder Alloys, Electronic Components & Materials. 25(2006) 27-29
Sarkar, NK, Effect of Pd or Au addition on age-hardening in Ag Mn-based alloys, Dental Materials. 5(2000) 12-14
Phase diagram provides an important direction for materials design of the Ag-based filler alloy.
Phase diagram can give a significant direction for materials design of the Ag-based filler alloy.
Ge, Effect of Ce on Microstructure and Properties of Sn-Ag-Cu Solder Alloys, Electronic Components & Materials. 25(2006) 27-29
Sarkar, NK, Effect of Pd or Au addition on age-hardening in Ag Mn-based alloys, Dental Materials. 5(2000) 12-14
Online since: January 2010
Authors: A. Saritha, Joseph Kuruvilla, Thomas Sabu
[34] Xiao-Lin Xie, Yiu-Wing Mai, Xing-Ping Zhou, Materials Science and Engineering R Vol.
49 (2005), p. 89
[35] E.S.
Park: Materials Science and Engineering A, Vol.478 (2008), p. 406 G.
Yu, Materials Science and Engineering A Vol. 485 (2008), p. 524 [108] J.
Kar: Materials Science and Engineering A Vol. 491 (2008), p. 454 [110] J.
Noferesti: Journal of Membrane Science Vol. 282 (2006), p. 142 [113] K.
Park: Materials Science and Engineering A, Vol.478 (2008), p. 406 G.
Yu, Materials Science and Engineering A Vol. 485 (2008), p. 524 [108] J.
Kar: Materials Science and Engineering A Vol. 491 (2008), p. 454 [110] J.
Noferesti: Journal of Membrane Science Vol. 282 (2006), p. 142 [113] K.
Online since: October 2017
Authors: Rashid Tanzadeh, Javad Tanzadeh, Navid Kamvar, Hossein Nazari
Materials and Experimental Methods
Aggregates.
Goh, Rheological Properties and Chemical Bonding of Asphalt Modified with Nanosilica, Journal of Materials in Civil Engineering, 25(11) (2013) 1619-1630
Xie, Nanoparticles-modified polymer-based solar-reflective coating as a cooling overlay for asphalt pavement, International Journal of Smart and Nano Materials, 4 (2013) 102-111
Huang, Developments of nano materials and technologies on asphalt materials–A review, Construction and Building Materials, 143 (2017) 633-648
White, Durability quantification of TiO2 surface coating on concrete and asphalt pavements, Journal of Materials in Civil Engineering, 26 (2013) 331-337
Goh, Rheological Properties and Chemical Bonding of Asphalt Modified with Nanosilica, Journal of Materials in Civil Engineering, 25(11) (2013) 1619-1630
Xie, Nanoparticles-modified polymer-based solar-reflective coating as a cooling overlay for asphalt pavement, International Journal of Smart and Nano Materials, 4 (2013) 102-111
Huang, Developments of nano materials and technologies on asphalt materials–A review, Construction and Building Materials, 143 (2017) 633-648
White, Durability quantification of TiO2 surface coating on concrete and asphalt pavements, Journal of Materials in Civil Engineering, 26 (2013) 331-337