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Online since: March 2025
Authors: Azlan Ahmad, Md Al-Amin, Elhuseini Garba, Iqtidar Ahmed Gul, Abdul'azeez Abdu Aliyu, Ahmad Majdi Abdul-Rani
Materials (Basel) 2022;15. https://doi.org/10.3390/ma15010066
Materials (Basel) 2023;16. https://doi.org/10.3390/ma16103633
Materials (Basel) 2017;10. https://doi.org/10.3390/ma10080884
Materials (Basel) 2019;12:407. https://doi.org/10.3390/ma12030407
Materials (Basel) 2016;9. https://doi.org/10.3390/ma9110862
Materials (Basel) 2023;16. https://doi.org/10.3390/ma16103633
Materials (Basel) 2017;10. https://doi.org/10.3390/ma10080884
Materials (Basel) 2019;12:407. https://doi.org/10.3390/ma12030407
Materials (Basel) 2016;9. https://doi.org/10.3390/ma9110862
Online since: December 2012
Authors: Lei Zhang, Hui Min Lei
(2)
Where n represents the number of types of building materials; represents the total weight or number of the -th building materials, represents the -th building materials’ EEEF intensity; represents the -th building materials’ attrition rate in the construction process
(3) Where n and have the same meaning with them in equation (2); represents the -th building materials’ transport distance from production area to construction site; represents the transportation EEEF intensity of the -th building materials; represents the total weight or number of the -th building materials in demolition process; represents the -th building materials’ transport distance from demolition site to disposal area; represents the transportation EEEF intensity of the -th building materials from demolition site to disposal area .
Therefore, the original building's material retention rate η (the ratio of amount of retained material in the process of adaptive reuse to the amount of original building materials) is introduced.
Construction the model of As lack of statistical data, it is assumes that the average recovery rate for building materials after the main structure of the building was demolitioned are 90%, 50%,20%,10% and 0%for metal, brick, wood and cement and other building materials, respectively.
Chinese Journal of Environmental Engineering , Vo1.6,No.2:21-29
(3) Where n and have the same meaning with them in equation (2); represents the -th building materials’ transport distance from production area to construction site; represents the transportation EEEF intensity of the -th building materials; represents the total weight or number of the -th building materials in demolition process; represents the -th building materials’ transport distance from demolition site to disposal area; represents the transportation EEEF intensity of the -th building materials from demolition site to disposal area .
Therefore, the original building's material retention rate η (the ratio of amount of retained material in the process of adaptive reuse to the amount of original building materials) is introduced.
Construction the model of As lack of statistical data, it is assumes that the average recovery rate for building materials after the main structure of the building was demolitioned are 90%, 50%,20%,10% and 0%for metal, brick, wood and cement and other building materials, respectively.
Chinese Journal of Environmental Engineering , Vo1.6,No.2:21-29
Online since: February 2013
Authors: Jun Zhu, Jian Ping Sun
Various physical factors including particle size, pH, temperature and so on may influence the release of organic materials from dry dairy manure.
Materials and Methods Manure collection.
Characterization of microcrystalline cellulose prepared from lignocellulosic materials.
Water Science and Technology 2000;41:189
Journal of General Microbiology 1951:698
Materials and Methods Manure collection.
Characterization of microcrystalline cellulose prepared from lignocellulosic materials.
Water Science and Technology 2000;41:189
Journal of General Microbiology 1951:698
Online since: October 2010
Authors: Xiu Rong Zuo, Hai Chao Cui
Ghosh : Materials Science and Engineering A Vol. 383 (2004),p.374
[3] C.B.Fuller, A.R.Krause, D.C.Dunand, and D.N.Seidman:Materials Science and Engineering A Vol. 338 (2002), p.8
[4] B.Forbord, H.Hallem, N.Ryum, and K.Marthinsen: Materials Science and Engineering A Vol. 387-389 (2004),p.936
[5] G.M.Novotny and A.
Prangnell:Acta mater Vol. 49 (2001),p.1327 [9] T.Aiura, N.Sugawara, and Y.Miura:Materials Science and Engineering A Vol. 280 (2000)p.139 [10] Y.Harada and D.C.
Dunand: Materials Science and Engineering A Vol. 329-331 (2002),p.686 [11] M.E.V.
Solberg, and Oddvin Reiso:Materials Science and Engineering A, Vol. 483-484 (2008), p.175 [24] S.
E.Urreta, F.Louchet, and A.Ghilarducci:Materials Science and Engineering A Vol. 302(2001), p. 300
Prangnell:Acta mater Vol. 49 (2001),p.1327 [9] T.Aiura, N.Sugawara, and Y.Miura:Materials Science and Engineering A Vol. 280 (2000)p.139 [10] Y.Harada and D.C.
Dunand: Materials Science and Engineering A Vol. 329-331 (2002),p.686 [11] M.E.V.
Solberg, and Oddvin Reiso:Materials Science and Engineering A, Vol. 483-484 (2008), p.175 [24] S.
E.Urreta, F.Louchet, and A.Ghilarducci:Materials Science and Engineering A Vol. 302(2001), p. 300
The Research about Problems of Subject Librarian's Service Innovation Practice in University Library
Online since: September 2013
Authors: Xiao Li Yang
Literature resources are needed both in science study and teaching process with highly professional, wide-range and rapid change.
References [1] Qingmei Zhou, Yuequan Xu, Zhengrong Zhang: Researches On Library Science.
(in chinese) Vol.(2)(2011),p.90 [2] Ping Ke, Xiucheng Tang: Journal of Academic Libraries. ( in chinese) Vol.(6)(2003),p.42 [3] Hongwei Yuan: Library and Information Service.
(in chinese) Vol.52(2)(2008),p.20 [5] Chunwang Li: Journal of Academic Libraries.
(in chinese) Vol.(4)(2005),p.9 [6] Liang Zhang, Yi Yang: Information Science.
References [1] Qingmei Zhou, Yuequan Xu, Zhengrong Zhang: Researches On Library Science.
(in chinese) Vol.(2)(2011),p.90 [2] Ping Ke, Xiucheng Tang: Journal of Academic Libraries. ( in chinese) Vol.(6)(2003),p.42 [3] Hongwei Yuan: Library and Information Service.
(in chinese) Vol.52(2)(2008),p.20 [5] Chunwang Li: Journal of Academic Libraries.
(in chinese) Vol.(4)(2005),p.9 [6] Liang Zhang, Yi Yang: Information Science.
Online since: May 2013
Authors: Yi Peng Jiang, Li Nan Du, Wei Xin Luan
Emerging industries of strategic marine science and technology content, high level of technology, environmentally friendly characteristics, its development was in line with the requirements of the marine economic development and environmental protection Sarkozy head both.
As the marine strategic emerging industry, MEEM has the features of knowledge and technology-intensive, low consumption of material resources, growth potential, comprehensive benefits, and will become the new economic growth point.
Tab.2 Every dominical indexes evaluation value Items B1 B2 B3 B4 B5 B6 Tianjin 4.26 3.84 1.32 2.33 2.33 1.37 Liaoning 2.94 1.78 1.94 2.19 2.38 2.16 Hebei 3.04 2 1.3 2.1 0.99 1.55 Shandong 4.73 2.07 2.1 2.09 2.93 1.77 Jiangsu 4.56 1.7 3.92 2.28 2.38 2.94 Shanghai 5.86 1.79 2.17 2.85 3.54 2.95 Zhejiang 3.44 2.35 2.56 1.35 1.62 2.12 Fujian 3.32 1.76 1.32 1.71 1.33 1.03 Guangdong 4.77 3.43 3.16 1.95 2.72 2.98 Guangxi 1.82 1.71 1.15 1.77 0.94 1.03 Hainan 1.75 1.77 1.05 1.39 0.85 1.03 Acknowledgements This work was financially supported by the National Natural Science Foundation “Study on the The impact of the marine environment via socio-economic activities in the Bohai Sea region” (NO. 41071079).
Journal of Jiangsu University of Science and Technology, Forum Vol.03 (2010).
Journal of Ocean University of China(Social Sciences), Forum Vol.05 (2010), p. 01-07.
As the marine strategic emerging industry, MEEM has the features of knowledge and technology-intensive, low consumption of material resources, growth potential, comprehensive benefits, and will become the new economic growth point.
Tab.2 Every dominical indexes evaluation value Items B1 B2 B3 B4 B5 B6 Tianjin 4.26 3.84 1.32 2.33 2.33 1.37 Liaoning 2.94 1.78 1.94 2.19 2.38 2.16 Hebei 3.04 2 1.3 2.1 0.99 1.55 Shandong 4.73 2.07 2.1 2.09 2.93 1.77 Jiangsu 4.56 1.7 3.92 2.28 2.38 2.94 Shanghai 5.86 1.79 2.17 2.85 3.54 2.95 Zhejiang 3.44 2.35 2.56 1.35 1.62 2.12 Fujian 3.32 1.76 1.32 1.71 1.33 1.03 Guangdong 4.77 3.43 3.16 1.95 2.72 2.98 Guangxi 1.82 1.71 1.15 1.77 0.94 1.03 Hainan 1.75 1.77 1.05 1.39 0.85 1.03 Acknowledgements This work was financially supported by the National Natural Science Foundation “Study on the The impact of the marine environment via socio-economic activities in the Bohai Sea region” (NO. 41071079).
Journal of Jiangsu University of Science and Technology, Forum Vol.03 (2010).
Journal of Ocean University of China(Social Sciences), Forum Vol.05 (2010), p. 01-07.
Online since: August 2014
Authors: Yao Qiong Xue, Nian Qin Wang, Wei Jiang Wu, Lu Bin Ren
It can be concluded into 5 main points over the cause of the formation of the landslides in Lanzhou: ①Loess and mudstone are widely distributed in Lanzhou, which has provided a material basis for forming landslides.
References [1] Chinese Academy of Sciences Research Group of sustainable development: Chinese sustainable development strategy report of 1999, Beijing: Science Press,1-12(1999)
The Chinese Journal of Geological Hazard and Control, 89-95 (1993)
The Chinese Journal of Geological Hazard and Control, 36-40 (2002)
[6] China Academy of Railway Sciences Northwest Branch: Landslide prevention.
References [1] Chinese Academy of Sciences Research Group of sustainable development: Chinese sustainable development strategy report of 1999, Beijing: Science Press,1-12(1999)
The Chinese Journal of Geological Hazard and Control, 89-95 (1993)
The Chinese Journal of Geological Hazard and Control, 36-40 (2002)
[6] China Academy of Railway Sciences Northwest Branch: Landslide prevention.
Online since: September 2011
Authors: Yun Xu, Zhong Yang, Bing Zhao, Xu Jun Chen
The material model is a bilinear relationship.
In the both geometric and material nonlinearity, the material is regarded as idealized stress–strain relation, the plastic property is considered.
Especially in both geometric and material nonlinearity the stiffness will change with the strain and the deformation because the material yields and the reload routines.
Structural Seismic Design Beijing:Science Press 2003.342-348 [12] Y.Y.
Journal of structure engineering. 2003.206-214 [13] Fan Feng, Shen Shizhao Vibration reduction analysis of viscous damper on single-layer reticulated vaults.
In the both geometric and material nonlinearity, the material is regarded as idealized stress–strain relation, the plastic property is considered.
Especially in both geometric and material nonlinearity the stiffness will change with the strain and the deformation because the material yields and the reload routines.
Structural Seismic Design Beijing:Science Press 2003.342-348 [12] Y.Y.
Journal of structure engineering. 2003.206-214 [13] Fan Feng, Shen Shizhao Vibration reduction analysis of viscous damper on single-layer reticulated vaults.
Online since: April 2012
Authors: Liang Xian Huang, Qiu Feng An, Jing Men, Qian Jin Wang
Using cation amino polysiloxane emulsion(ASE) and anion carboxyl polysiloxane emulsion (CSE) as materials, mixing ASE and CSE together to self-assemble or aggregate by electrostatic interaction, supramolecular compound emulsion (ASE-CSE) was formed.
Introduction The use of molecular self-assembly can not only obtain the molecular aggregates of higher order structure, but also construct the bionic materials, optoelectronic information materials and supramolecular liquid crystals[1,2].
Experimental Materials and Reagents.
Silicon wafers, kindly provided by Songjiang Silicon Material Ltd., Shanghai, China, were cleaned and dried based on our previous works[5,7].
[6] Qiufeng An, Linsheng Li, Liangxian Huang: Journal of Functional Polymers Vol.14 (2001), p.163-168, in Chinese
Introduction The use of molecular self-assembly can not only obtain the molecular aggregates of higher order structure, but also construct the bionic materials, optoelectronic information materials and supramolecular liquid crystals[1,2].
Experimental Materials and Reagents.
Silicon wafers, kindly provided by Songjiang Silicon Material Ltd., Shanghai, China, were cleaned and dried based on our previous works[5,7].
[6] Qiufeng An, Linsheng Li, Liangxian Huang: Journal of Functional Polymers Vol.14 (2001), p.163-168, in Chinese
Online since: September 2011
Authors: Wei Feng Wang, Guo Qing Zheng, Bei Bei Huang
(3)The shrinkage and creep of concrete and the material nonlinearity are ignored
China Civil Engineering Journal, 2009,42(3):16~22(In Chinese) [3] J.G.
Nie: Steel - concrete composite beam structure - experiment, theory and application [M]. ( Science Press, china, 2005:1~6) (In Chinese) [4] ANSYS 9.0 Classic Example Explanation Advanced Analytical Techniques and Example Explanation [M].
China Civil Engineering Journal,1993,26(1):31~37(In Chinese) [7] D.H.Yan, Z.C.Tian: Finite Element Method and Application for the Shrinkage and Creep of Concrete Bridges [J].
China Journal of Highway and Transport,2004,17(2):55~58
China Civil Engineering Journal, 2009,42(3):16~22(In Chinese) [3] J.G.
Nie: Steel - concrete composite beam structure - experiment, theory and application [M]. ( Science Press, china, 2005:1~6) (In Chinese) [4] ANSYS 9.0 Classic Example Explanation Advanced Analytical Techniques and Example Explanation [M].
China Civil Engineering Journal,1993,26(1):31~37(In Chinese) [7] D.H.Yan, Z.C.Tian: Finite Element Method and Application for the Shrinkage and Creep of Concrete Bridges [J].
China Journal of Highway and Transport,2004,17(2):55~58