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Online since: April 2015
Authors: Jian Xin Dong, Mai Cang Zhang, Zhi Hao Yao, Qing Quan Zhang, Hao Yu Wang, Lei Zheng
Journal of nuclear materials, 2001, 288: 222-232
Journal of materials science and technology, 2013, 29(5): 480-488
Materials Science & Engineering A, 2013, 576: 118-125
Progress in materials science, 2014, 60: 130-207
Materials science and engineering A, 2009,527: 52-60.
Journal of materials science and technology, 2013, 29(5): 480-488
Materials Science & Engineering A, 2013, 576: 118-125
Progress in materials science, 2014, 60: 130-207
Materials science and engineering A, 2009,527: 52-60.
Online since: October 2007
Authors: Kinichi Masuda-Jindo, M. Menon, Vu Van Hung
We
investigate the mechanical properties of nanoscale materials like carbon nanotubes (CNT), graphens
and nanowires in comparison with those of corresponding bulk materials.
We will show that the thermodynamic and strength properties of the nanoscale materials are quite different from those of the corresponding bulk materials. 1.
We have found that the thermodynamic and electronic properties of nanoscale materials depend sensitively on their geometrical structures and different from those of the bulk materials.
[2] "Nanoscale Materials", ed.
Menon, International Journal of Fracture 125, (2006) 1
We will show that the thermodynamic and strength properties of the nanoscale materials are quite different from those of the corresponding bulk materials. 1.
We have found that the thermodynamic and electronic properties of nanoscale materials depend sensitively on their geometrical structures and different from those of the bulk materials.
[2] "Nanoscale Materials", ed.
Menon, International Journal of Fracture 125, (2006) 1
Online since: December 2012
Authors: Chun Jie Xu, Zhong Ming Zhang, Ying Ma, Zheng Hua Huang
Pekguleryuz: Journal of Materials Science Vol. 29 (1994), p. 5259
[6] E.
Bronfin: Materials Science Forum Vol. 350-351 (2000), p.19 [7] G.
Wang, et al: Materials Letters Vol. 56(2002) , p.53 [8] G.
Ding, et al: Materials Science Forum Vol. 419-422 (2003), p. 425 [9] Z.
Zhang, et al: Journal of Materials Engineering (6) (2004), p.28(In Chinese) [12] Z.
Bronfin: Materials Science Forum Vol. 350-351 (2000), p.19 [7] G.
Wang, et al: Materials Letters Vol. 56(2002) , p.53 [8] G.
Ding, et al: Materials Science Forum Vol. 419-422 (2003), p. 425 [9] Z.
Zhang, et al: Journal of Materials Engineering (6) (2004), p.28(In Chinese) [12] Z.
Online since: August 2015
Authors: Sergey Veselov, Nina Cherkasova, Natalya Belousova, Ruslan Kuzmin, Aleksey Lazarev, Maksim Perepyolkin
Materials. 7 (2014) 5012-5037
Journal of Metals, Materials and Minerals. 20/2 (2010) 71-78
Applied Mechanics and Materials. 698 (2015) 457-460
Applied Mechanics and Materials. 698 (2015) 472-477
Applied Mechanics and Materials. 698 (2015) 513-518.
Journal of Metals, Materials and Minerals. 20/2 (2010) 71-78
Applied Mechanics and Materials. 698 (2015) 457-460
Applied Mechanics and Materials. 698 (2015) 472-477
Applied Mechanics and Materials. 698 (2015) 513-518.
Online since: June 2014
Authors: Yun Bai, Shuai Peng, Ke Qiang Lai, Yi Qun Huang
Materials and Methods
2.1 Gelatin extraction
The tilapia skins purchased from Guangzhou Hengfa seafood CO., LTD (Guangzhou, China) were mechanically separated directly.
Regenstein: Properties of Alaska Pollock skin gelatin: a comparison with Tilapia and pork skin gelatins, Journal of Food Science Vol. 71 (2006), p. 313-321 [5] M.
Wang: Effect of different acid treatment on yield and physicochemical properties of gelatin derived from tilapia skin, Journal of Beijing technology and Business University (natural science edition) Vol. 30 (2012), p. 22-26 [9] P.
Regenstein: Optimization of extraction conditions for Pollock skin gelatin, Journal of food science Vol. 69 (2004), p. 393-398 [10] A.G.
Gudmundsson: Rheological properties offish gelatins, Journal of Food Science Vol. 76 (2002), p. 2172–2176 [13] F.
Regenstein: Properties of Alaska Pollock skin gelatin: a comparison with Tilapia and pork skin gelatins, Journal of Food Science Vol. 71 (2006), p. 313-321 [5] M.
Wang: Effect of different acid treatment on yield and physicochemical properties of gelatin derived from tilapia skin, Journal of Beijing technology and Business University (natural science edition) Vol. 30 (2012), p. 22-26 [9] P.
Regenstein: Optimization of extraction conditions for Pollock skin gelatin, Journal of food science Vol. 69 (2004), p. 393-398 [10] A.G.
Gudmundsson: Rheological properties offish gelatins, Journal of Food Science Vol. 76 (2002), p. 2172–2176 [13] F.
Online since: October 2014
Authors: Tomasz Węgrzyn, Jan Piwnik, Izabela Horzela, Wojciech Majewski
Silva, Process Stability Evaluation of Manual Metal Arc Welding Using Digital Signals, Materials Science Forum 730-732 (2013) 847-852
Dobrzanski, Structure and mechanical properties of gradient coatings deposited by PVD techniques onto the X40CrMoV5-1 steel substrate, Journal of Materials Science 43 (2008) 4300-4307
Borek, Hot-rolling of advanced high-manganese C-Mn-Si-Al steels, Materials Science Forum 706/709 (2012) 2053-2058
Borek, Microstructure evolution of C-Mn-Si-Al-Nb high-manganese steel during the thermomechanical processing, Materials Science Forum 638 (2010) 3224-3229
Bojar, Intermetallic alloys with ceramic particles and technological concept for high loaded materials, Journal of Materials Processing Technology 164-165 (2005) 850-855
Dobrzanski, Structure and mechanical properties of gradient coatings deposited by PVD techniques onto the X40CrMoV5-1 steel substrate, Journal of Materials Science 43 (2008) 4300-4307
Borek, Hot-rolling of advanced high-manganese C-Mn-Si-Al steels, Materials Science Forum 706/709 (2012) 2053-2058
Borek, Microstructure evolution of C-Mn-Si-Al-Nb high-manganese steel during the thermomechanical processing, Materials Science Forum 638 (2010) 3224-3229
Bojar, Intermetallic alloys with ceramic particles and technological concept for high loaded materials, Journal of Materials Processing Technology 164-165 (2005) 850-855
Online since: May 2016
Authors: Nurul Salhana Abdul Salim, M.N. Noor, Ahmad Shayuti Abdul Rahim, Aeslina Abdul Kadir
Also, the cost of construction materials is increasing incrementally.
Journal of Construction Materials, Proceedings of the Institution of Civil Engineers, 164(5), pp. 219 to 229 (2011)
Journal Construction and Building Materials, 37 , 7–14 (2012)
Elsevier Science Ltd (2010)
Missouri University of Science and Technology (2011)
Journal of Construction Materials, Proceedings of the Institution of Civil Engineers, 164(5), pp. 219 to 229 (2011)
Journal Construction and Building Materials, 37 , 7–14 (2012)
Elsevier Science Ltd (2010)
Missouri University of Science and Technology (2011)
Online since: February 2013
Authors: Jozef Novak-Marcincin, Ludmila Novakova-Marcincinova
Basic range materials include paper, nylon, wax, resins, metals and ceramics.
Basic FDM materials [7,8]: 1.
[8] FDM: Materials & datasheets: http://www.materialise.com/fdm-materials, 2012
Materials & Design, Vol. 25, No. 7, 2004, p. 587-594
Materials Science Forum, Vol. 713, 2012, p. 61-66, ISSN 1662-9752
Basic FDM materials [7,8]: 1.
[8] FDM: Materials & datasheets: http://www.materialise.com/fdm-materials, 2012
Materials & Design, Vol. 25, No. 7, 2004, p. 587-594
Materials Science Forum, Vol. 713, 2012, p. 61-66, ISSN 1662-9752
Online since: January 2014
Authors: Xiao Jie Zhou, Jin Tao Cui, Pei Qi Chen
International Journal of Rock Mechanics & Mining Sciences, Vol. 39, 2002, pp.491–505
Sliding micro indentation fracture of brittle materials: Role of elastic stress fields.
Mechanics of Materials, Vol. 29, 1998, pp.143-152
Lateral Crack in Abrasive Wear of Brittle Materials.
Journal of Materials Science, Vol. 10, 1975, pp.113-122
Sliding micro indentation fracture of brittle materials: Role of elastic stress fields.
Mechanics of Materials, Vol. 29, 1998, pp.143-152
Lateral Crack in Abrasive Wear of Brittle Materials.
Journal of Materials Science, Vol. 10, 1975, pp.113-122
Online since: October 2006
Authors: Alain Giraudeau, B. Guo, Fabrice Pierron
Journal of Sound and Vibration,
284(3-5):757-781, 2005
Journal of Sound and Vibration, 210(5):643-659, 1998
Journal of Sound and Vibration, 193(3):401-415, 1996
Elsevier Science, pages 71-83, January 2000
International Journal for Mechanical Sciences, 48(3):256-264, 2006.
Journal of Sound and Vibration, 210(5):643-659, 1998
Journal of Sound and Vibration, 193(3):401-415, 1996
Elsevier Science, pages 71-83, January 2000
International Journal for Mechanical Sciences, 48(3):256-264, 2006.