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Online since: August 2014
Authors: Surendra Kumar Saini, Sharad Kumar Pradhan
Usually, the selection of appropriate machining parameters for a particular material to get a multi-objective response is a very difficult task and it generally relies either on the operators’ experience or on the information provided in the catalogue of machine manufacturer for certain common materials.
Work piece material and Process response parameters.
Sureshkumar et al “Surface roughness optimization of metal matrix composite using Taguchi technique”, International Journal of Engineering Research & Technology, (2013) 2:1-6
Shanmughasundaram et al “Influence of graphite and machining parameters on the surface roughness of Al-fly ash/graphite hybrid composite: A Taguchi approach”, Journal of Mechanical Science and Technology, (2013) 27:2445-2455
Wang “Competitive parameter optimization of multi-quality CNC Turning”, International Journal of Advance Manufacturing Technology, (2009) 41:820-826
Work piece material and Process response parameters.
Sureshkumar et al “Surface roughness optimization of metal matrix composite using Taguchi technique”, International Journal of Engineering Research & Technology, (2013) 2:1-6
Shanmughasundaram et al “Influence of graphite and machining parameters on the surface roughness of Al-fly ash/graphite hybrid composite: A Taguchi approach”, Journal of Mechanical Science and Technology, (2013) 27:2445-2455
Wang “Competitive parameter optimization of multi-quality CNC Turning”, International Journal of Advance Manufacturing Technology, (2009) 41:820-826
Online since: July 2014
Authors: Andrés Sáez, Michael Wünsche, Felipe García-Sánchez, Chuan Zeng Zhang, Jose Domínguez
Such capability has
widespread the use of multifield materials in high-tech industrial applications.
Therefore, in piezoelectric materials only indices 1, 2 and 4 apply, whilst for magnetoelectroelastic materials all the indices (1, 2, 4 and 5) come into play.
Mai: International Journal of Engineering Science Vol. 41 (2003), p. 633-652 [43] C.M.
Denda: Key Engineering Materials Vol. 383 (2008), p. 67-84 [48] R.
Liu: Journal of Intelligent Material Systems and Structures Vol. 16 (2005), p. 597-602 [53] R.
Therefore, in piezoelectric materials only indices 1, 2 and 4 apply, whilst for magnetoelectroelastic materials all the indices (1, 2, 4 and 5) come into play.
Mai: International Journal of Engineering Science Vol. 41 (2003), p. 633-652 [43] C.M.
Denda: Key Engineering Materials Vol. 383 (2008), p. 67-84 [48] R.
Liu: Journal of Intelligent Material Systems and Structures Vol. 16 (2005), p. 597-602 [53] R.
Online since: August 2011
Authors: Himayat Ullah, Andy R. Harland, Robert Blenkinsopp, Tim Lucas, Dan Price, Vadim V. Silberschmidt
Both CFRP and GFRP materials had the same TPU matrix.
Bordreuil, International Journal of Fatigue, 28 (2006) 1270-1276
Rolfes, Composites Science and Technology, 70 (2010) 61-72
Reifsnider, Applied Composite Materials, 9 (2002) 249-263
Sluys, Journal of Composite Materials, 43 (2009) 2131
Bordreuil, International Journal of Fatigue, 28 (2006) 1270-1276
Rolfes, Composites Science and Technology, 70 (2010) 61-72
Reifsnider, Applied Composite Materials, 9 (2002) 249-263
Sluys, Journal of Composite Materials, 43 (2009) 2131
Online since: October 2015
Authors: Jayantha Ananda Epaarachchi, Md. Mainul Islam, Zulzamri Salleh
Shunmugasamy: Materials Science and Engineering A Vol. 528 (2011), p.7596 - 7605
Kumar: Materials and Design Vol. 32 (2011), p.4152 - 4263
Ninan: Journal Material Science Vol. 42(14) (2007), p. 5398–5405
Dodiuk: Journal Applied Polymer Science Vol. 69(11) (1998), p.2229–2234
Froud Reed: Journal Material Science Engineering A Vol. 515 (2009), p. 19–25
Kumar: Materials and Design Vol. 32 (2011), p.4152 - 4263
Ninan: Journal Material Science Vol. 42(14) (2007), p. 5398–5405
Dodiuk: Journal Applied Polymer Science Vol. 69(11) (1998), p.2229–2234
Froud Reed: Journal Material Science Engineering A Vol. 515 (2009), p. 19–25
Online since: December 2024
Authors: Faieza S. Bodowara, Anad M. Alshaybani, Boris B. Akhremitchev
Ali, Mechanical, tribological properties and surface characteristics of developed polymeric materials reinforced by CNTs, SAE International Journal of Fuels and Lubricants 8 (2015) 35-40
Healthcare Materials 4 (2015) 2456-2474
Yu, An investigation of hardness and adhesion of sputter deposited AI on Si by a continuous indentation test, Journal of Materials Research 3 (1988) 141-147
Flores, Nanoindentation in polymer nanocomposites, Progress in Materials Science 67 (2015) 1–94
Journal of Cell Science 123 (2010) 297-308
Healthcare Materials 4 (2015) 2456-2474
Yu, An investigation of hardness and adhesion of sputter deposited AI on Si by a continuous indentation test, Journal of Materials Research 3 (1988) 141-147
Flores, Nanoindentation in polymer nanocomposites, Progress in Materials Science 67 (2015) 1–94
Journal of Cell Science 123 (2010) 297-308
Online since: December 2014
Authors: Yan Feng, Guang Biao Jiang, Ying She Luo, Dang Quan Zhang, Qing Qing Shen, Shu Ling Luo, Li Li Chen
Grass materials.
Test Materials and Methods Test Materials.
After harvested, in order to keep the smaller differences among different samples, grass materials were dried in the same conditions.
Hort science Vol. 24 (1989), p. 694 [4] J.D.Pettinati.
Journal of the AOAC Vol. 58 (1975), p.1188 [5] E.CH.
Test Materials and Methods Test Materials.
After harvested, in order to keep the smaller differences among different samples, grass materials were dried in the same conditions.
Hort science Vol. 24 (1989), p. 694 [4] J.D.Pettinati.
Journal of the AOAC Vol. 58 (1975), p.1188 [5] E.CH.
Online since: April 2013
Authors: N.A. Kamel
Badawi, Walailak Journal of Materials Science and Engineering, 5 (2011) 400
Badawi, Journal of Materials Science and Engineering A, 1 (2011) 415
Lotfy, Journal of Materials Science and Engineering A, 1 (2011) 711
Peterson: Journal of Nuclear Materials, 69-70 (1978) 3
Hassan, Materials Science Forum, 445-446 (2004) 45
Badawi, Journal of Materials Science and Engineering A, 1 (2011) 415
Lotfy, Journal of Materials Science and Engineering A, 1 (2011) 711
Peterson: Journal of Nuclear Materials, 69-70 (1978) 3
Hassan, Materials Science Forum, 445-446 (2004) 45
Online since: February 2012
Authors: Chang Guo
Simulation based Optimization of Overhang Dimensions with Architectural Materials
Chang Guo
Faculty of Architectural, Civil Engineering and Environment, Ningbo University, Ningbo, China
email: nagtive@163.com
Keywords: Overhang; Simulation; Energy consumption.
Introduction With the development of science and technology in recent years, the application of building shade is widely used in our country and other regions[1-4].
Yuan, “Study on Residential Buildings with Energy Saving by 65% in Ningbo,” Journal of Ningbo University (Natural science & engineering edition), vol. 23, pp. 84-87, 2010
Wang, “Master Plan for Small Towns in Perspective of Urban and Rural Planning Act,” Journal of Ningbo University (Natural science & engineering edition), vol. 22, pp. 288-292, 2009
[4] Zhou Yan, Ding Yong and Yao Jian, “Preferable rebuilding energy efficiency measures of existing residential building in Ningbo,” Journal of Ningbo University (Natural science & engineering edition), vol.22, pp.285-287,2009.
Introduction With the development of science and technology in recent years, the application of building shade is widely used in our country and other regions[1-4].
Yuan, “Study on Residential Buildings with Energy Saving by 65% in Ningbo,” Journal of Ningbo University (Natural science & engineering edition), vol. 23, pp. 84-87, 2010
Wang, “Master Plan for Small Towns in Perspective of Urban and Rural Planning Act,” Journal of Ningbo University (Natural science & engineering edition), vol. 22, pp. 288-292, 2009
[4] Zhou Yan, Ding Yong and Yao Jian, “Preferable rebuilding energy efficiency measures of existing residential building in Ningbo,” Journal of Ningbo University (Natural science & engineering edition), vol.22, pp.285-287,2009.
Online since: August 2012
Authors: Adriana Scoton Antonio Chinelatto, Adilson Luiz Chinelatto, Aldo Przybysz, Eleomar Lena
Materials with submicron grain structure can be obtained from nanometric powders.
Graule, Advanced Engineering Materials 7 (2005) 292-302
Groza, Nanostructured Materials 12 (1999) 987-992
Hejazi, Materials Science and Engineering: A 492 (2008) 261-267
Frade, Materials Chemistry and Physics 126 (2011) 262-271.
Graule, Advanced Engineering Materials 7 (2005) 292-302
Groza, Nanostructured Materials 12 (1999) 987-992
Hejazi, Materials Science and Engineering: A 492 (2008) 261-267
Frade, Materials Chemistry and Physics 126 (2011) 262-271.
Online since: June 2020
Authors: Khaled Abou-El-Hossein, Lukman N. Abdulkadir, Muhammad Mukhtar Liman
The high strength and good optical performance offered by optical grade silicon could be considered as the reason for its wide usage as optical materials in many industries including electronic, metrology, infrared (IR) optics and solar cells.
Due to this, nanoscale manufacturing of these products requires superior quality and enhanced functional performance of the produced materials.
B.: The International Journal of Advanced Manufacturing Technology Vol. 98 (2018), p. 317-71 [3] Chen Y., Fang F., Zhang X., Hu X.: American Journal of Nanotechnology Vol. 1 (2010), p.62-7 [4] Goel S.: An atomistic investigation on the nanometric cutting mechanism of hard, brittle materials.
Engineering and Physical Sciences, Heriot-Watt University: Heriot-Watt University, 2013
C.: Precision Engineering Vol. 38 (2014), p. 481-91 [8] Goel S., Kovalchenko A., Stukowski A., Cross G.: Acta Materialia Vol. 105 (2016), p. 464-78 [9] Kumagai T., Izumi S., Hara S., Sakai S.: Computational materials science Vol. 39 (2007), p. 457-64 [10] Han X., Lin B. , Yu S., Wang S.: Journal of materials processing technology Vol. 129 (2002), p. 105-8 [11] Guo X. , Li Q. , Liu T. , Kang R. , Jin Z. , Guo D. : Frontiers of Mechanical Engineering Vol. 12 (2017), p. 89-98 [12] Cui D.
Due to this, nanoscale manufacturing of these products requires superior quality and enhanced functional performance of the produced materials.
B.: The International Journal of Advanced Manufacturing Technology Vol. 98 (2018), p. 317-71 [3] Chen Y., Fang F., Zhang X., Hu X.: American Journal of Nanotechnology Vol. 1 (2010), p.62-7 [4] Goel S.: An atomistic investigation on the nanometric cutting mechanism of hard, brittle materials.
Engineering and Physical Sciences, Heriot-Watt University: Heriot-Watt University, 2013
C.: Precision Engineering Vol. 38 (2014), p. 481-91 [8] Goel S., Kovalchenko A., Stukowski A., Cross G.: Acta Materialia Vol. 105 (2016), p. 464-78 [9] Kumagai T., Izumi S., Hara S., Sakai S.: Computational materials science Vol. 39 (2007), p. 457-64 [10] Han X., Lin B. , Yu S., Wang S.: Journal of materials processing technology Vol. 129 (2002), p. 105-8 [11] Guo X. , Li Q. , Liu T. , Kang R. , Jin Z. , Guo D. : Frontiers of Mechanical Engineering Vol. 12 (2017), p. 89-98 [12] Cui D.