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Online since: August 2013
Authors: Ying Yang
This paper assumes that the low carbon building materials of ecological city construction in a certain city are n kinds of materials, and they are considered as one of selection items in the selection of low carbon building material for the ecological city construction [11,12].
shows the consumption of other building materials.
Journal of Tianjin Normal University (social science edition), 2012(3): 112-114
Journal of Shandong Social Science, 2011(12): 201-203
The economic journal, 2011 (10): 1101-1106
shows the consumption of other building materials.
Journal of Tianjin Normal University (social science edition), 2012(3): 112-114
Journal of Shandong Social Science, 2011(12): 201-203
The economic journal, 2011 (10): 1101-1106
Online since: August 2014
Authors: Alena Očkajová, Ján Stebila, L'uboš Krišták, Rastislav Igaz, Dušan Brozman, Roman Réh, Petra Šiagiová
LCA should take into account not only consumption of raw materials, building materials and energy during construction and in the phase of usage, but also reflect on building materials transport, recycle ability and waste treatment in the next steps of life cycle.
Huminidity of all the used materials at the moment of moulding was 10±1%.
The data was provided by producers of similar materials.
Manriquez: Wood and fiber science Vol. 37(2005), p. 140-148 [11] B.
Lyons: Materials for Architects and Builders (Elsevier Ltd, 2007)
Huminidity of all the used materials at the moment of moulding was 10±1%.
The data was provided by producers of similar materials.
Manriquez: Wood and fiber science Vol. 37(2005), p. 140-148 [11] B.
Lyons: Materials for Architects and Builders (Elsevier Ltd, 2007)
Online since: December 2006
Authors: Zhong Bin Tang, Fei Xu, Wu Jun Xu, Yu Long Li
It
is also can be used to investigation the size effects of the materials.
Stepanek: Journal of Materials Processing Technology, Vol. 133 (2003), p.189-194 [2] J.
Nix: Journal of Material Research, Vol. 7(12) (1992), p. 3242-3249 [3] C.
Taga: Material Science and Engineering C 15 (2001), p. 231-235 [5] C.
Edwards: Microelectromechanical Structures for Materials Research, Materials Research Society, 518 (1998), p. 191-196 [7] D.
Stepanek: Journal of Materials Processing Technology, Vol. 133 (2003), p.189-194 [2] J.
Nix: Journal of Material Research, Vol. 7(12) (1992), p. 3242-3249 [3] C.
Taga: Material Science and Engineering C 15 (2001), p. 231-235 [5] C.
Edwards: Microelectromechanical Structures for Materials Research, Materials Research Society, 518 (1998), p. 191-196 [7] D.
Online since: September 2012
Authors: Uday Dabade, Suhas Joshi
C., “Challenges to Developing and Producing MMCs for Space Applications”, Journal of Materials, Vol. 53(4), 2001, pp22–25
Joshi “Characteristics of Machined Surfaces on Al/SiCp Metal Matrix Composites”, International Journal of Mechanical Engineering and Material Science (IJMEMS), 1 (2) December 2008
Joshi, “Cutting Forces and Surface Roughness in Machining Al/SiCp Composites of Varying Composition”, International Journal of Machining Science and Technology,Vol.14:2 (2010), pp 258-279
[11] Kitagawa, T. and Maekawa, K., “Plasma Hot Machining for New Engineering Materials”, Wear, Vol.139, 1990, pp251–267
[14] Madhavulu, G. and Ahmed, B., “Hot Machining Process for Improved Metal Removal Rates in Turning Operations”, Journal of Materials Processing Technology, Vol.44, 1994, pp199–206.
Joshi “Characteristics of Machined Surfaces on Al/SiCp Metal Matrix Composites”, International Journal of Mechanical Engineering and Material Science (IJMEMS), 1 (2) December 2008
Joshi, “Cutting Forces and Surface Roughness in Machining Al/SiCp Composites of Varying Composition”, International Journal of Machining Science and Technology,Vol.14:2 (2010), pp 258-279
[11] Kitagawa, T. and Maekawa, K., “Plasma Hot Machining for New Engineering Materials”, Wear, Vol.139, 1990, pp251–267
[14] Madhavulu, G. and Ahmed, B., “Hot Machining Process for Improved Metal Removal Rates in Turning Operations”, Journal of Materials Processing Technology, Vol.44, 1994, pp199–206.
Online since: October 2009
Authors: Tao Li, Yan Ju Liu, Jin Song Leng, Bo Zhou
China
3
Center for Composite Materials and Structures, Science Park of Harbin Institute of Technology, P.O.
Introduction Shape memory materials are defined by their shape memory effect to store a deformed shape and recover an original shape.
Yoon: Smart Materials and Structures Vol.15 (2006), p.1967
Diani: International Journal of Plasticity Vol.22 (2006), p.279
Ito: Mechanics of Materials Vol.33 (2001), p.545.
Introduction Shape memory materials are defined by their shape memory effect to store a deformed shape and recover an original shape.
Yoon: Smart Materials and Structures Vol.15 (2006), p.1967
Diani: International Journal of Plasticity Vol.22 (2006), p.279
Ito: Mechanics of Materials Vol.33 (2001), p.545.
Study on Effect of Particle Size of Matrix and Reinforcement on Properties of Iron Matrix Composites
Online since: June 2012
Authors: Yu Fang Yang, Kang Ju Li
Experimental
Raw Materials.
References [1]Suryanarayana C, Yoo S H, Groza J R: Journal of Materials Science Letters.
[3]Groza J R, Zavaliangos A: Materials Science and Engineering.Vol. 27 (2000), p.171
[4]Yang Y F, Zong Y P, Wang G, Xu N: Chinese journal of materials research(in Chinese).Vol. 27 (2007), p.69
[5]Yang Y F, Zong Y P, Xu N, Mu Q: Journal of Materials and Metallurgy(in Chinese).
References [1]Suryanarayana C, Yoo S H, Groza J R: Journal of Materials Science Letters.
[3]Groza J R, Zavaliangos A: Materials Science and Engineering.Vol. 27 (2000), p.171
[4]Yang Y F, Zong Y P, Wang G, Xu N: Chinese journal of materials research(in Chinese).Vol. 27 (2007), p.69
[5]Yang Y F, Zong Y P, Xu N, Mu Q: Journal of Materials and Metallurgy(in Chinese).
Phase Transition Behavior and Magnetocaloric Effect in a Heusler Ni50Mn37Sn13 Unidirectional Crystal
Online since: February 2018
Authors: Hong Xing Zheng, Yue Fang, Zhi Shuai Xu, Yu Ting Dai
Lyubina, Novel Functional Magnetic Materials, Springer International Publishing, 231 (2016) 115-186
Albe, Caloric effects in ferroic materials: New concepts for cooling, Advanced Engineering Materials, 14 (2012) 10-19
Maier, Influence of martensitic transformation on the magnetic transition in Ni-Mn-Ga, Journal of Magnetism and Magnetic Materials, 432 (2017) 266-270
Kaur, Martensitic phase transformations and magnetocaloric effect in Al co-sputtered Ni-Mn-Sb alloy thin films, Materials Science and Engineering: B, 198 (2015) 113-119
Pecharsky Jr, Magnetocaloric effect and magnetic refrigeration, Journal of Magnetism and Magnetic Materials, 200 (1999) 44-56
Albe, Caloric effects in ferroic materials: New concepts for cooling, Advanced Engineering Materials, 14 (2012) 10-19
Maier, Influence of martensitic transformation on the magnetic transition in Ni-Mn-Ga, Journal of Magnetism and Magnetic Materials, 432 (2017) 266-270
Kaur, Martensitic phase transformations and magnetocaloric effect in Al co-sputtered Ni-Mn-Sb alloy thin films, Materials Science and Engineering: B, 198 (2015) 113-119
Pecharsky Jr, Magnetocaloric effect and magnetic refrigeration, Journal of Magnetism and Magnetic Materials, 200 (1999) 44-56
Online since: October 2008
Authors: Chan Yuan Gong, Xi Feng Fang, Sheng Wen Zhang, C.S. Zhu, W. Jia
Cheng: Journal of ZHEJIANG University (Engineering Science),
Vol. 40 (2006) No.5, pp. 75 9-762 (In Chinese)
Zeren: Journal of Manufacturing Science and Engineering, Vol. 128 (2006), pp. 119-129
Ozel: International Journal of Machine Tools & Manufacture, Vol. 46 (2006), pp. 518-530
Carrll: International Journal of Mechanical Science, Vol. 30 (1986), pp. 899-920
Maekawa: International Journal of Mechanical Sciences, Vol. 43 (2001), pp. 2699-2713
Zeren: Journal of Manufacturing Science and Engineering, Vol. 128 (2006), pp. 119-129
Ozel: International Journal of Machine Tools & Manufacture, Vol. 46 (2006), pp. 518-530
Carrll: International Journal of Mechanical Science, Vol. 30 (1986), pp. 899-920
Maekawa: International Journal of Mechanical Sciences, Vol. 43 (2001), pp. 2699-2713
Online since: July 2012
Authors: Zhi Wu Han, Yan Liu, Si Rong Yu, Liang Li, Rui Feng Li
Atrens: Advanced Engineering Materials Vol. 1(1999), p. 1999
Li,: Materials Science and Engineering: A Vol. 491(2008), p. 131
Zhang: Advanced Materials Vol. 17(2005), p. 1005
Corat: Journal of Vacuum Science & Technology B Vol. 28(2010), P. 1153
Lin: Rare Metal Materials and Engineering Vol. 40(2011), p. 215.
Li,: Materials Science and Engineering: A Vol. 491(2008), p. 131
Zhang: Advanced Materials Vol. 17(2005), p. 1005
Corat: Journal of Vacuum Science & Technology B Vol. 28(2010), P. 1153
Lin: Rare Metal Materials and Engineering Vol. 40(2011), p. 215.
Online since: September 2011
Authors: Rong Jian Li, Wen Zheng, Yu Zhen Yu
Similitude design of a model test concerns the size and materials of the model.
Then, in order to investigate the failure mechanism of stabilizing pile, the physical properties of model materials and the difficulty of making of model pile are taken into consideration.
Based on the similitude relations of the two kinds of model materials, the strength model of the reinforced concrete pile can be established.
Acknowledgement This work was financially supported by the National Natural Science Foundation of China (11072193 and 50879039), and China Postdoctoral Science Foundation funded project (20100481354).
Journal of Hydraulic Engineering, Vol.41, issue.4( 2010), p.446–451.
Then, in order to investigate the failure mechanism of stabilizing pile, the physical properties of model materials and the difficulty of making of model pile are taken into consideration.
Based on the similitude relations of the two kinds of model materials, the strength model of the reinforced concrete pile can be established.
Acknowledgement This work was financially supported by the National Natural Science Foundation of China (11072193 and 50879039), and China Postdoctoral Science Foundation funded project (20100481354).
Journal of Hydraulic Engineering, Vol.41, issue.4( 2010), p.446–451.