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Online since: July 2014
Authors: Hai Bao Li, Hui Liu, En Ming Zhao
The common feature of these materials is expensive, and not easy to obtain it.
In other words, we use MMA instead of the expensive polymeric materials.
From MMA to PMMA by the way of bulk polymerization • MMA is one of the cheaper polymeric materials In comparison, MMA is one of the cheaper polymeric materials.
Journal of Materials Science: Materials in Medicine, 2005, 16(12): 1121-1124
Journal of display technology, 2009, 5(5): 147-151
In other words, we use MMA instead of the expensive polymeric materials.
From MMA to PMMA by the way of bulk polymerization • MMA is one of the cheaper polymeric materials In comparison, MMA is one of the cheaper polymeric materials.
Journal of Materials Science: Materials in Medicine, 2005, 16(12): 1121-1124
Journal of display technology, 2009, 5(5): 147-151
Online since: January 2016
Authors: Xing Ai, Zhan Qiang Liu, Yi Wan, Qing Hua Song, Jia Hao Shi, Gang Gang Ju
Cazenave-Larroche, Machining Science and Technology, 10 (2006): 275-287
Liu, The International Journal of Advanced Manufacturing Technology, 43 (2009): 33-39
Celaya, International Journal of Machine Tools and Manufacture, 51 (2011): 43-53
Shi, International Journal of Mechanical Sciences, 96 (2015): 79-90
Wan, The International Journal of Advanced Manufacturing Technology, (2015): 1-14
Liu, The International Journal of Advanced Manufacturing Technology, 43 (2009): 33-39
Celaya, International Journal of Machine Tools and Manufacture, 51 (2011): 43-53
Shi, International Journal of Mechanical Sciences, 96 (2015): 79-90
Wan, The International Journal of Advanced Manufacturing Technology, (2015): 1-14
Online since: December 2014
Authors: Suo Cheng Wang, Yong Ping Hao, Shuang Jie Liu
MEMS processing materials and processing technology
MEMS processing materials.
Functional materials.
Functional materials refer to materials with special functions in some way.
Such as piezoelectric materials, photosensitive materials, insulation materials, conductive materials, shape memory alloy materials which have special functions, using these particular features materials in MEMS products can improve and perfect the performance of the device.
Structure materials.
Functional materials.
Functional materials refer to materials with special functions in some way.
Such as piezoelectric materials, photosensitive materials, insulation materials, conductive materials, shape memory alloy materials which have special functions, using these particular features materials in MEMS products can improve and perfect the performance of the device.
Structure materials.
Online since: July 2019
Authors: Peng Zhi Pan, Radim Blaheta, Alexej Kolcun, Kamil Souček, Jiří Ščučka, Stanislav Sysala
The paper is focused on computation of a compressive strength of composite materials by
limit analysis.
We can see that the composite materials are much less brittle than the pure coal, see also Figure 1.
These data seem to be relevant to the materials used in [6, 7].
Conclusion We use limit analysis to compute the compressive strengths of composite materials and to visualize failure zones.
Vavro, Digital image based numerical micromechanics of geocomposites with application to chemical grouting, International Journal of Rock Mechanics and Mining Sciences, 77 (2015) 77-88
We can see that the composite materials are much less brittle than the pure coal, see also Figure 1.
These data seem to be relevant to the materials used in [6, 7].
Conclusion We use limit analysis to compute the compressive strengths of composite materials and to visualize failure zones.
Vavro, Digital image based numerical micromechanics of geocomposites with application to chemical grouting, International Journal of Rock Mechanics and Mining Sciences, 77 (2015) 77-88
Online since: October 2012
Authors: Xin Hua Ni, Ying Chen Ma, Zhao Gang Cheng, Qing Hua Gu
The beam is composed of brittle material element and ductile material element (for example: concrete and steel).
References [1] J.G.N, Z.B.Y: Journal of China Civil Engineering.
[2] M.X, Y.M.X: Journal of Anhui Technical College of Water Resources and Hydraulic Electric.
[3] C.K.F, C.C.K: Journal of Yantai University (Natural Science and Engineering Edition).
Yan: Key Engineering Materials Vol. 274-276(2004), p.1113 [5] S.P.M, X.G.J, J.S.J: Journal of China Agricultural University.
References [1] J.G.N, Z.B.Y: Journal of China Civil Engineering.
[2] M.X, Y.M.X: Journal of Anhui Technical College of Water Resources and Hydraulic Electric.
[3] C.K.F, C.C.K: Journal of Yantai University (Natural Science and Engineering Edition).
Yan: Key Engineering Materials Vol. 274-276(2004), p.1113 [5] S.P.M, X.G.J, J.S.J: Journal of China Agricultural University.
Online since: July 2020
Authors: Rusul Jaber Ghayyib, Awham Jumah Salman, Zahraa Fakhri Jawad
Liguo Wang et al. investigated the modification of cement-based materials by nano-SiO2 particles to find the influence of the nano-SiO2 particle upon the hydration, mechanical properties, and the cement-based materials pore structure.
Ahmed, Effect of Nanomaterials in Cement Mortar Characteristics, Journal of Engineering Science and Technology, 11, (2016) 1321 – 1332
[2] S Sanju, S Sharadha and J Revathy, Performance on The Study of Nano Materials for The Development of Sustainable Concrete, International Journal of Earth Science and Engineering, 09 (2016) 294-300
Acosta, Influence of ZrO2 Nanoparticles on the Microstructural Development of Cement Mortars with Limestone Aggregates, Applied Science Journal, 2019, https//doi:10.3390/app9030598
Li, Development of Novel Ultra High Performance Concrete: From Material to Structure, Construction and Building Materials, 135 (2017) 517-528
Ahmed, Effect of Nanomaterials in Cement Mortar Characteristics, Journal of Engineering Science and Technology, 11, (2016) 1321 – 1332
[2] S Sanju, S Sharadha and J Revathy, Performance on The Study of Nano Materials for The Development of Sustainable Concrete, International Journal of Earth Science and Engineering, 09 (2016) 294-300
Acosta, Influence of ZrO2 Nanoparticles on the Microstructural Development of Cement Mortars with Limestone Aggregates, Applied Science Journal, 2019, https//doi:10.3390/app9030598
Li, Development of Novel Ultra High Performance Concrete: From Material to Structure, Construction and Building Materials, 135 (2017) 517-528
Online since: October 2015
Authors: L. Vijayaraghavan, N. Ramesh Babu, P. Radhakrishnan
[2] N.Tosun, C.Cogunb and G.Tosun: Journal of Materials Processing Technology, Vol. 152 (2004), pp.316–322
Yang: Journal of Materials Processing Technology, Vol.213 (2013), pp.1616–1622
Hamdi and K.Mitsui: Journal of Mechanical Science and Technology,vol. 25 (5) (2011), pp 1231-1234
Vaxevanidis: Journal of Materials Processing Technology, Vol. 69 (1997), pp. 233-237
Allen International Journal of Machine Tools & Manufacture Vol. 44 (2004), pp.1247–1259 [9] A.Hascalyk and U.Caydas: Journal of Materials Processing Technology, Vol. 148 (2004), pp.362–367.
Yang: Journal of Materials Processing Technology, Vol.213 (2013), pp.1616–1622
Hamdi and K.Mitsui: Journal of Mechanical Science and Technology,vol. 25 (5) (2011), pp 1231-1234
Vaxevanidis: Journal of Materials Processing Technology, Vol. 69 (1997), pp. 233-237
Allen International Journal of Machine Tools & Manufacture Vol. 44 (2004), pp.1247–1259 [9] A.Hascalyk and U.Caydas: Journal of Materials Processing Technology, Vol. 148 (2004), pp.362–367.
Online since: March 2010
Authors: Hu Huang, Ji Qiang Deng, Zhi Chao Ma, Lei Lei Hu, Jie Yang, Xiao Yue Wang, Jia Bin Ji, Zheng Peng Zhang, Hong Wei Zhao
Introduction
With the development of materials science and micro-electronics, the mechanics performance testing of
sample materials from micro- to nano-scale has been one of important researches among mechanics,
nanotechnology, and materials science, etc [1].
Motoki's work for micro soft materials [9], etc.
�ature materials, Vol.7(2008), p.97 [4].
Journal of Materials Research, Vol.1(1986), p.601 [8].
Journal of Materials Research, Vol.7(1992), p.1564 [9].
Motoki's work for micro soft materials [9], etc.
�ature materials, Vol.7(2008), p.97 [4].
Journal of Materials Research, Vol.1(1986), p.601 [8].
Journal of Materials Research, Vol.7(1992), p.1564 [9].
Online since: February 2011
Authors: Yi Zhang, Jian Min Sun
By comprehensive contrast of the wear resistance of hardening materials, relative wear resistance of composite iron plating is better than common engine cylinder material, and can fit for the cylinder hardening of high load engine.
The wear resistance of composite iron plating is higher than the other two materials not only at the low and middle but also at the high load.
Then the wear rules of hardening materials are studied.
References [1] Wang Yu, Ma Wenyan: Automobile Technology. no. 8 (2000), p. 24 [2] Zhong Minlin, Liu Wenjin, Zhang Hongjun: Wear. vol. 260, no. 11-12 (2006), p. 1349 [3] Xu Fangda, Zhang Yongkang: Journal of Jiangsu University of Technology Science and Technology (Science and Technology Edition). vol. 23, no. 2 (2001), p. 18 [4] Chen Fengbin, Bi Rui: Journal of Jiangsu University of Technology Science and Technology (Science and Technology Edition). vol. 23, no. 2 (2001), p. 22 [5] FAN Xiu-hong: Journal of Shandong University of Technology Science and Technology (Science and Technology Edition). vol.19, no.5 (2005), p.78 [6] Hutson Alisha, Lee Hyukjae, Mall Shankar: Tribology International. vol. 39, no. 10 (2006), p. 1187 [7] Candel Antonio, Gadow Rainer; Lopez Daniel: Ceramic Engineering and Science Proceedings. vol. 26, no. 3 (2005), p. 229 [8] Dearnley P.A., Kern E.; Dahm K.L.: Proceedings of the Institution of Mechanical Engineers, Part L: Journal of Materials: Design and Applications
. vol. 219, no. 2 (2005), p. 121 [9] Hwang Jong-Hyun, Han Myoung-Seoup, Kim Dae-Young: Journal of Materials Engineering and Performance. vol. 15, no. 3 (2006), p. 328 [10] Takaoka Katsuya, Hirota Ken, Kato Masaki: Journal of the Society of Materials Science. vol. 55, no. 3 (2006), p. 258
The wear resistance of composite iron plating is higher than the other two materials not only at the low and middle but also at the high load.
Then the wear rules of hardening materials are studied.
References [1] Wang Yu, Ma Wenyan: Automobile Technology. no. 8 (2000), p. 24 [2] Zhong Minlin, Liu Wenjin, Zhang Hongjun: Wear. vol. 260, no. 11-12 (2006), p. 1349 [3] Xu Fangda, Zhang Yongkang: Journal of Jiangsu University of Technology Science and Technology (Science and Technology Edition). vol. 23, no. 2 (2001), p. 18 [4] Chen Fengbin, Bi Rui: Journal of Jiangsu University of Technology Science and Technology (Science and Technology Edition). vol. 23, no. 2 (2001), p. 22 [5] FAN Xiu-hong: Journal of Shandong University of Technology Science and Technology (Science and Technology Edition). vol.19, no.5 (2005), p.78 [6] Hutson Alisha, Lee Hyukjae, Mall Shankar: Tribology International. vol. 39, no. 10 (2006), p. 1187 [7] Candel Antonio, Gadow Rainer; Lopez Daniel: Ceramic Engineering and Science Proceedings. vol. 26, no. 3 (2005), p. 229 [8] Dearnley P.A., Kern E.; Dahm K.L.: Proceedings of the Institution of Mechanical Engineers, Part L: Journal of Materials: Design and Applications
. vol. 219, no. 2 (2005), p. 121 [9] Hwang Jong-Hyun, Han Myoung-Seoup, Kim Dae-Young: Journal of Materials Engineering and Performance. vol. 15, no. 3 (2006), p. 328 [10] Takaoka Katsuya, Hirota Ken, Kato Masaki: Journal of the Society of Materials Science. vol. 55, no. 3 (2006), p. 258
Online since: July 2011
Authors: Li Na Hao, Jian Chao Gao, Hont Tao L.
Rediniotics: Smart Materials and Structures Vol. 9 (2000), pp. 673-83
Young: Journal of Bionic Engineering,Vol. 6 (2009), pp. 232-38
Jiang: Journal of Applied Physics, Vol. 87 (2000), pp. 3321-31
Kwang: Smart Materials and Structures, 2005, pp. 1363-68
Yucai: Journal of Functional Materials, 1979, pp. 18-23.
Young: Journal of Bionic Engineering,Vol. 6 (2009), pp. 232-38
Jiang: Journal of Applied Physics, Vol. 87 (2000), pp. 3321-31
Kwang: Smart Materials and Structures, 2005, pp. 1363-68
Yucai: Journal of Functional Materials, 1979, pp. 18-23.