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Online since: August 2014
Authors: Yi Du, Jia Man Ding, An Liu
Using probability box as the space-time registration framework can solve the second problem.
3 Probability box theory
3.1 the development of probability box theory
Risk analysts recognize two fundamentally distinct forms of uncertainty.The first is variability that arises from environmental stochasticity, inhomogeneity of materials,fluctuations in time, variation in space.The second kind of uncertainty is the incertitude that comes from scientific ignorance, measurement uncertainty, inobservability, censoring, or other lack of knowledge.
Acknowledgements The corresponding author of this paper is Du Yi.This project is supported by National Natural Science Foundation of China (Grant No.51365020, 51369012), Yunnan Natural Science Foundation (Grant No.2013FZ020) References [1]Han Zhennan.
International Journal of Intelligent Systems, 1986, 1: 155–179 [14]Williamson and Downs.
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Acknowledgements The corresponding author of this paper is Du Yi.This project is supported by National Natural Science Foundation of China (Grant No.51365020, 51369012), Yunnan Natural Science Foundation (Grant No.2013FZ020) References [1]Han Zhennan.
International Journal of Intelligent Systems, 1986, 1: 155–179 [14]Williamson and Downs.
International Journal of Approximate Reasoning, 1990, 4:89-158 [15]Ferson.
International Journal of Approximate Reasoning, 2005, 39:185-209
Online since: September 2008
Authors: Teruo Asaoka, N. Koide, K. Suzuki, M. Tsuda
A method for producing a stronger joint between artificial materials and bone has been to roughen
the surface of the material.
Preparation of Materials.
Preparation of Materials.
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Matsushita et al.: Proceedings of 49th Japan Congress on Materials Research, (2005), p. 92
Online since: July 2013
Authors: Yi Na Wang, Luo Ke Li, Ming Wu Hu, Hai Tao Su
Besides, the usage of high-grade concrete can improve the crack resistance of concrete bearing material.
Transportation Engineering Journal, 1980,106(5), pp. 493-506
Journal of Transportation Engineering, 2009, 135(11), pp. 813-821
International Journal of Geomechanics, 2001,1(3), pp.291-307
Journal of Transportation Engineering,ASCE,1995,121(3), pp. 289~298
Transportation Engineering Journal, 1980,106(5), pp. 493-506
Journal of Transportation Engineering, 2009, 135(11), pp. 813-821
International Journal of Geomechanics, 2001,1(3), pp.291-307
Journal of Transportation Engineering,ASCE,1995,121(3), pp. 289~298
Online since: October 2022
Authors: Atul Garg, Nidhi Bansal Garg, Mohit Bansal
Sczygiol, Analysis of Selected Properties of Welded Joints of the HSLA Steels, Materials 2020, 13, pp1301
Kazeminezhad, Effect of electropulsing on microstructure and hardness of cold-rolled low carbon steel, Journal of Materials Research and Technology, 8(3), 2019, 3114–3125. doi:10.1016/j.jmrt.2019.02.023 [16] F.B.
[31] F.B Pickering, Constitution and Properties of Steel, Materials Science and TechnologyVol., 7, VCH, pp335
Series: Materials Science and Engineering, 1104, 2021, pp 1-11 [37] T.
Rao, Influence of thermo-mechanical processing and different post-cooling techniques on structure and properties of an ultra-low carbon Cu bearing HSLA forging, Materials Science and Engineering: A, Vol. 348, Issues 1–2, 2003, pp 299-308
Kazeminezhad, Effect of electropulsing on microstructure and hardness of cold-rolled low carbon steel, Journal of Materials Research and Technology, 8(3), 2019, 3114–3125. doi:10.1016/j.jmrt.2019.02.023 [16] F.B.
[31] F.B Pickering, Constitution and Properties of Steel, Materials Science and TechnologyVol., 7, VCH, pp335
Series: Materials Science and Engineering, 1104, 2021, pp 1-11 [37] T.
Rao, Influence of thermo-mechanical processing and different post-cooling techniques on structure and properties of an ultra-low carbon Cu bearing HSLA forging, Materials Science and Engineering: A, Vol. 348, Issues 1–2, 2003, pp 299-308
Online since: March 2011
Authors: Cheng Yong Wang, Yue Xian Song, Ping Ma, L.P. Yang, L.J. Zheng, Y.P. Qu, L.Y. Fu
Tool materials and geometrics
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Journal of Materials Processing Technology (2007), 186,1-7
Journal of Materials Processing Technology, 2000, 180 (1-3): 328-335 [8] Kosmowski W.
Journal of Materials Processing Technology, 2004, 148(2): 239-244 [19] Z.M.
Journal of Materials Processing Technology, 2003,141(3) :16-28 [43] Yang Z., Tan Q., Shi J.E..
Online since: August 2018
Authors: Fei Yang, Leandro Bolzoni, Carlos Romero Villarreal
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Tang, Characterization of fatigue properties of powder metallurgy titanium alloy, Materials Science and Engineering: A 654 (2016) 418-425
Zhang, Microstructures and tensile mechanical properties of Ti–6Al–4V bar/disk fabricated by powder compact extrusion/forging, Materials Science and Engineering: A 619 (2014) 290-299
Wirth, Effects of thermomechanical treatment on microstructure and mechanical properties of blended elemental Ti-6Al-4V compacts, Materials Science and Engineering: A 102(1) (1988) 105-114
Lütjering, Influence of processing on microstructure and mechanical properties of (α+β) titanium alloys, Materials Science and Engineering: A 243(1–2) (1998) 32-45
Online since: May 2012
Authors: Guan Yi Chen, Bei Bei Yan, Li Ping Li, Yi Wang, Xiao Xiong Zhang
A conceptual process of heterogeneous SnO-catalyzed transesterification is designed based on the condition of 333K and atmospheric pressure, using methanol and waste oil with a molar ratio of 10:1 as raw materials.
The cost of the raw materials accounts for 70% of all [6].
Fig. 1 shows the heterogeneous acid-catalyzed transesterification using waste oil and methanol as raw materials and SnO as catalyst.
Garvin: European Journal of Operational Research.
Wan: European Journal of Operational Research.
The cost of the raw materials accounts for 70% of all [6].
Fig. 1 shows the heterogeneous acid-catalyzed transesterification using waste oil and methanol as raw materials and SnO as catalyst.
Garvin: European Journal of Operational Research.
Wan: European Journal of Operational Research.
Online since: November 2011
Authors: Diego Mantovani, P. Chevallier, Sébastien Meghezi
Chang: Journal of Materials Science: Materials in Medicine Vol. 16 (2005), p. 525-531
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Pins: Journal of Biomedical Materials Research Part A Vol. 80A (2007), p. 362-371
So: Journal of Biomedical Materials Research Part A Vol. 75A (2005), p. 689-701
Amadio: Journal Of Biomedical Materials Research.
Yost: Journal of Biomedical Materials Research Part A Vol. 74A (2005), p. 263-268
Online since: August 2013
Authors: Ping Chen, Lian Bao Kan, Chao Jia
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[7] Xujie Lu, Lin Liu, Bo Yang, Jihua Chen: Journal of Cleaner Production Vol.17(2009) , p. 111–114
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Yue: Water Science and Technology Vol.35 (1997) , p. 311 –319 [16] Joonghwan Mo, Jeong-Eun Hwang, Jonggeon Jegal, Jaephil Kim: Dyes and Pigments Vol.72 (2007) , p. 240–245 [17] Chih-Ta Wang, Wei-Lung Chou, Yi-Ming Kuo, Fu-Lin Chang: Journal of Hazardous Materials Vol.169 (2009) , p.16–22 [18] Ting Chen, Baoyu Gao, Qinyan Yue: Colloids and Surfaces A: Physicochemical and Engineering Aspects Vol.355(2010) , p. 121–129 [19] Xijun Hu, Lecheng Lei, Guohua Chen, Po Lock Yue: Water Research Vol.35 (2001) , p.2078–2080 [20] Chih-Ta Wang, Jen-Lu Hu, Wei-Lung Chou, Yi-Ming Kuo: Journal of Hazardous Materials Vol.152 (2008) , p.601–606 [21] Chih-Ta Wang, Wei-Lung Chou, Mei-Hui Chung, Yi-Ming Kuo: Desalination Vol.253(2010) , p.129–134 [22] Huifang Wu, Shihe Wang, Huoliang Kong, Tiantian Liu: Bioresource Technology Vol.98(2007) , p.1501 –1504 [23] Xiang Zheng, Junxin Liu: Desalination Vol.190 (2006) , p. 277 –286 [24] M.
Nagarajan: Chemical Engineering Journal Vol.166 (2011) , p. 10 – 14 [25] Adriana Maria Lotito, Umberto Fratino, Annalisa Mancini, Giovanni Bergna, Claudio Di Iaconi: International Biodeterioration & Biodegradation Vol.69 (2012) , p.62–68 [26] Huoliang Kong, Huifang Wu: Bioresource Technology Vol.99 (2008) , p.7886–7891
Zhang: Water Science and Technology Vol.34 (1996) , p.49–55 [13] X.Z.
Zhao: Water Science and Technology Vol.36 (1997) , p. 165–172 [14] Shu Liu, Qunhui Wang, Hongzhi Ma, Peikun Huang, Jun Li, Takashige Kikuchi: Separation and Purification Technology Vol.71 (2010) , p.337–346 [15] L.
Yue: Water Science and Technology Vol.35 (1997) , p. 311 –319 [16] Joonghwan Mo, Jeong-Eun Hwang, Jonggeon Jegal, Jaephil Kim: Dyes and Pigments Vol.72 (2007) , p. 240–245 [17] Chih-Ta Wang, Wei-Lung Chou, Yi-Ming Kuo, Fu-Lin Chang: Journal of Hazardous Materials Vol.169 (2009) , p.16–22 [18] Ting Chen, Baoyu Gao, Qinyan Yue: Colloids and Surfaces A: Physicochemical and Engineering Aspects Vol.355(2010) , p. 121–129 [19] Xijun Hu, Lecheng Lei, Guohua Chen, Po Lock Yue: Water Research Vol.35 (2001) , p.2078–2080 [20] Chih-Ta Wang, Jen-Lu Hu, Wei-Lung Chou, Yi-Ming Kuo: Journal of Hazardous Materials Vol.152 (2008) , p.601–606 [21] Chih-Ta Wang, Wei-Lung Chou, Mei-Hui Chung, Yi-Ming Kuo: Desalination Vol.253(2010) , p.129–134 [22] Huifang Wu, Shihe Wang, Huoliang Kong, Tiantian Liu: Bioresource Technology Vol.98(2007) , p.1501 –1504 [23] Xiang Zheng, Junxin Liu: Desalination Vol.190 (2006) , p. 277 –286 [24] M.
Nagarajan: Chemical Engineering Journal Vol.166 (2011) , p. 10 – 14 [25] Adriana Maria Lotito, Umberto Fratino, Annalisa Mancini, Giovanni Bergna, Claudio Di Iaconi: International Biodeterioration & Biodegradation Vol.69 (2012) , p.62–68 [26] Huoliang Kong, Huifang Wu: Bioresource Technology Vol.99 (2008) , p.7886–7891
Online since: May 2012
Authors: Hai Yan Fu, Ming Hou, Guo He Huang, Tian Chai, Peng Cheng Xu, Ya Li Guo
Materials and methods
Materials.
Plant materials: Typha latifolia L, Canna indica L and Iris tectorum Maxim were collected from the Garden of Xiamen University of Technology, the dead leaves were removed and they were washed with the tap water, which were then washed with the distilled water twice before usage.
Prasad: Journal of Environmental Management Vol.44 (1995), p. 13-20
Chen: Journal of Agro-Environment Science Vol 29 (2010), p. 1571-1575 (In Chinese) [5] G.J.
Previtera: Journal of Chemical Ecology Vol. 16 (1990), p. 2637-46
Plant materials: Typha latifolia L, Canna indica L and Iris tectorum Maxim were collected from the Garden of Xiamen University of Technology, the dead leaves were removed and they were washed with the tap water, which were then washed with the distilled water twice before usage.
Prasad: Journal of Environmental Management Vol.44 (1995), p. 13-20
Chen: Journal of Agro-Environment Science Vol 29 (2010), p. 1571-1575 (In Chinese) [5] G.J.
Previtera: Journal of Chemical Ecology Vol. 16 (1990), p. 2637-46