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Online since: April 2011
Authors: Qing Wang, L.G. Qiu, Zhi Tong Sui, J. Zhang, Zhao Yang Ding
Journal of Materials Science and Engineering, 2003,21: 430-435
[2] V.M.Malhotra, P.K.Mehta.
Journal of Hazardous Materials, 2007,139:506-513 [4] Van Jaarsveld J G S, van Deventer J G J,Lukey G C.
The characterization of source materials in fly ash-based geopolymers.
Materials Letters, 2003, 57: 1272-1280 [5] Djwantoro Hardjito, Dody M.
ACI Materials Journal, 2004,101(6), November-December [6] Letizia Verdolotti, Salvatore Lannace,Marino Lavorgna, Taffacle Lamanna.
Journal of Hazardous Materials, 2007,139:506-513 [4] Van Jaarsveld J G S, van Deventer J G J,Lukey G C.
The characterization of source materials in fly ash-based geopolymers.
Materials Letters, 2003, 57: 1272-1280 [5] Djwantoro Hardjito, Dody M.
ACI Materials Journal, 2004,101(6), November-December [6] Letizia Verdolotti, Salvatore Lannace,Marino Lavorgna, Taffacle Lamanna.
Online since: May 2012
Authors: Wen Kun Zhu, Tao Duan
Material and Methods
Materials: All chemicals were of analytical grade and used without further purification.
There was also new absorption peaks at 1656 cm-1, which was stretching vibration absorption peaks of amide I band and C-N-C or CO, the samples were mostly polypeptide organic materials.
Journal of Southwest University of Science and Technology Vol.24 (2009), p. 65-69
Journal of Southwest University of Science and Technology Vol.24 (2009), p. 87-93
Materials and Structures Vol.36 (2003), p. 342-352
There was also new absorption peaks at 1656 cm-1, which was stretching vibration absorption peaks of amide I band and C-N-C or CO, the samples were mostly polypeptide organic materials.
Journal of Southwest University of Science and Technology Vol.24 (2009), p. 65-69
Journal of Southwest University of Science and Technology Vol.24 (2009), p. 87-93
Materials and Structures Vol.36 (2003), p. 342-352
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: May 2016
Authors: Song Ling Tian, Lei Zhang, Peng Lin Li, Ying Tian, Wang Tai Yong
And this work was supported in part by National Natural Science Foundation of China (Grant No. 51105269), National Natural Science Foundation of China (Grant No. 51475324), and National Science and Technology Support Program (Grant No. 2013BAF06B00), and Natural Science Foundation of Tianjin (Grant No.13JCZDJC34000).
Journal of Mechanical Design. 20 (2000) 113-123
International Journal of Sustainable Engineering. 7(2014) 111-129
Journal of Cleaner Production. 15 (2007) 1-11
Journal of Manufacturing Systems. 33 (2014) 196-208.
Journal of Mechanical Design. 20 (2000) 113-123
International Journal of Sustainable Engineering. 7(2014) 111-129
Journal of Cleaner Production. 15 (2007) 1-11
Journal of Manufacturing Systems. 33 (2014) 196-208.
Online since: March 2018
Authors: Vincent Aizebeoje Balogun, Edem Friday Isuamfon, B. Otanocha Omonigho
Journal of Materials Science 15, 2925-2927 (1980)
Materials Science and Technology 32, 1471-1483 (2016)
Journal of Materials Processing Technology 133, 63-70 (2003)
Materials & Design 25, 303-305 (2004)
Journal of Materials Processing Technology 110, 19-27 (2001)
Materials Science and Technology 32, 1471-1483 (2016)
Journal of Materials Processing Technology 133, 63-70 (2003)
Materials & Design 25, 303-305 (2004)
Journal of Materials Processing Technology 110, 19-27 (2001)
Online since: September 2011
Authors: Jin Xin He, Chun Mei Wang
In textiles industry, β-CD is a relatively new class of auxiliaries capable of influencing both the processing of the textile materials and their serviceability properties [3,4]. β-CD can be bound onto the fibre surface by physical or covalent bonding[5-7].
Experimental Materials.
Jozsef: Trends in Food Science and Technology Vol. 15 (2004), p 137 [2] E.
Elhendawy: Journal of the Textile Institute Vol. 98 (2007), p 453 [9] N.A.
[16] Yuefei Wang, Zhiling Ye and Chunmei Wang: Journal of Nantong University (Natural Science Edition) Vol. 8 (2009), p. 36-40, In Chinese.
Experimental Materials.
Jozsef: Trends in Food Science and Technology Vol. 15 (2004), p 137 [2] E.
Elhendawy: Journal of the Textile Institute Vol. 98 (2007), p 453 [9] N.A.
[16] Yuefei Wang, Zhiling Ye and Chunmei Wang: Journal of Nantong University (Natural Science Edition) Vol. 8 (2009), p. 36-40, In Chinese.
Online since: November 2011
Authors: Jaleh Babak, Ashrafi Ghazaleh, Gholami Nasim, Azizian Saeid, Golbedaghi Reza, Habibi Safdar, Parsian Hosein
Optical Materials Express, 1,4 (2011) 658-669
Journal of Science, I.
Materials Letters, 63 (2009) 301-303 [8] George Cramer, NNIN REU, Research Accomplishments, (2006), 34-35 [9] Dojalisa Sahu, B.
Vertruyen, Materials Letters 64 (2010) 1147-1149 [13] Jinato Tian, LIjuan Chen, Jinhui Dai, Xin Wang, Yansheng Yin, Pingwei Wu, Ceramics International 35 (2009) 2261-2270 [14] Seema Rani, Poonam Suri, P.K.
El-Hofy, Journal of material science Letters, (1988) 453-456 [20] S.
Journal of Science, I.
Materials Letters, 63 (2009) 301-303 [8] George Cramer, NNIN REU, Research Accomplishments, (2006), 34-35 [9] Dojalisa Sahu, B.
Vertruyen, Materials Letters 64 (2010) 1147-1149 [13] Jinato Tian, LIjuan Chen, Jinhui Dai, Xin Wang, Yansheng Yin, Pingwei Wu, Ceramics International 35 (2009) 2261-2270 [14] Seema Rani, Poonam Suri, P.K.
El-Hofy, Journal of material science Letters, (1988) 453-456 [20] S.
Online since: December 2023
Authors: Ki Woo Nam, Gum Hwa Lee, Jong Kyu Park
Wei, Fatigue and fracture behavior of induction-hardened and superimposed mechanically post-treated steel surface layers, Journal of Materials Engineering and Performance, 29 (2018) 4881–4892
Choi, Fatigue characteristics and fatigue limit prediction of an induction case hardened Cr–Mo steel alloy, Materials Science and Engineering A, 361 (2003) 15–22
Topper, Fatigue crack propagation of shot cracks, Journal of Engineering Materials and Technology, 101 (1979) 42–46
Kitsunai, Effect of microstructure on fatigue crack growth behavior of carbon steels, The Society of Materials Science of Japan, 29 (1980) 1018–1023
Kitsunai, Effect of microstructure on fatigue crack growth mechanisms in high strength steel (Relationship between crack growth rate and prior austenite grain size), The Society of Materials Science of Japan, 29 (1980) 795–800
Choi, Fatigue characteristics and fatigue limit prediction of an induction case hardened Cr–Mo steel alloy, Materials Science and Engineering A, 361 (2003) 15–22
Topper, Fatigue crack propagation of shot cracks, Journal of Engineering Materials and Technology, 101 (1979) 42–46
Kitsunai, Effect of microstructure on fatigue crack growth behavior of carbon steels, The Society of Materials Science of Japan, 29 (1980) 1018–1023
Kitsunai, Effect of microstructure on fatigue crack growth mechanisms in high strength steel (Relationship between crack growth rate and prior austenite grain size), The Society of Materials Science of Japan, 29 (1980) 795–800