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Online since: July 2014
Authors: Jing Li, Dong Jie Bao, Zhan Meng Liu, Tao Xu, Zhilin Xu
Polysilicate aluminum and magnesium (PSAM) was prepared by using aluminum sulfate, magnesium sulfate, sodium silicate, sodium hydroxide as raw materials.
Materials and Methods Flocculants Used in Experiment.
Acknowledgements This work was financially supported by the Higher School Science and Technology Foundation of Hebei Province (QN20131178), Science and Technology Support Program of Hebei Province (13273605), Xingtai Science and Technology Support Program (2013ZC234).
References [1] Zumin Qiu, Wentian Jian, Zongjian He., in: Journal of Hazardous Materials, Issue2~3, Vol.166 (2009), p. 740-745
[3] Gao B Y, Yue QY, Wang Y, Zhou W Z., in: Journal of Environmental Management, Issue2, Vol.82 (2007), p. 167-172
Materials and Methods Flocculants Used in Experiment.
Acknowledgements This work was financially supported by the Higher School Science and Technology Foundation of Hebei Province (QN20131178), Science and Technology Support Program of Hebei Province (13273605), Xingtai Science and Technology Support Program (2013ZC234).
References [1] Zumin Qiu, Wentian Jian, Zongjian He., in: Journal of Hazardous Materials, Issue2~3, Vol.166 (2009), p. 740-745
[3] Gao B Y, Yue QY, Wang Y, Zhou W Z., in: Journal of Environmental Management, Issue2, Vol.82 (2007), p. 167-172
Online since: July 2012
Authors: Jie Guo, Wei Guo Ren, Yang Jiang, Zhi Gang Lu
Porous materials’ explosion suppression.
Polymer foam materials and technology.
Materials science and engineering journals, 2003.21 (2) : 298 ~ 301 [4] L.Y.
Aluminum- magnesium alloy blasting materials and suppression performance study. o Shenyang Project College Journal (natural science edition), 2006, 2 (2) : 176 ~ 178 [6] T.
Journal of Applied Polymer Science, 1997,65 (1) : 179 ~ 186 [7] Jarre1 U S 4237237, 1980; [8] J.
Polymer foam materials and technology.
Materials science and engineering journals, 2003.21 (2) : 298 ~ 301 [4] L.Y.
Aluminum- magnesium alloy blasting materials and suppression performance study. o Shenyang Project College Journal (natural science edition), 2006, 2 (2) : 176 ~ 178 [6] T.
Journal of Applied Polymer Science, 1997,65 (1) : 179 ~ 186 [7] Jarre1 U S 4237237, 1980; [8] J.
Online since: May 2012
Authors: Jian Li Yuan, Can Wang
Focusing on the long-term preservation of pagoda, investigates the strengthening technology and protective measures relative to durability of reinforcement materials and masonry structure.
The durability and improvement method of reinforcement materials.
The aseismatic reinforcement of masonry pagodas should improve the bearing capacity of masonry and the durability of materials.
Analysis and Application of Stone Masonry Structure: journal of HuaqQiao University (natural science), Vol. 20, No. 4, Oct, 1999 (In Chinese) [5] Paramsivam P, Ong K C C&Lim C TE: Cement&Concrete Composites, 1994, 16:143-152
Science And Technology Of Wuhan University, 2008.11 (In Chinese) [8] Jinqian Wang: Housing Science, 2009.11 (In Chinese) [9] Maili Ou, Weijun Cao: Chinese and Overseas Architecture, 2006, 04 (In Chinese) [10] Jinsheng Zhao, Fengwei Ren, Bingcheng Qu: Value Engineering, 2010, 30 (In Chinese) [11] Yumei Lin, Wuwen Luo: Chemical Material for Construction, 2007, 01 (In Chinese) [12] Dazhi Liu, Huarong Shen, Hongqiang Chu, Linhua Jiang: Journal of NanJing University of Aeronautics & Astronautics, 2010.12 (In Chinese) [13] Zhuangli Chen, Zhen Wang.
The durability and improvement method of reinforcement materials.
The aseismatic reinforcement of masonry pagodas should improve the bearing capacity of masonry and the durability of materials.
Analysis and Application of Stone Masonry Structure: journal of HuaqQiao University (natural science), Vol. 20, No. 4, Oct, 1999 (In Chinese) [5] Paramsivam P, Ong K C C&Lim C TE: Cement&Concrete Composites, 1994, 16:143-152
Science And Technology Of Wuhan University, 2008.11 (In Chinese) [8] Jinqian Wang: Housing Science, 2009.11 (In Chinese) [9] Maili Ou, Weijun Cao: Chinese and Overseas Architecture, 2006, 04 (In Chinese) [10] Jinsheng Zhao, Fengwei Ren, Bingcheng Qu: Value Engineering, 2010, 30 (In Chinese) [11] Yumei Lin, Wuwen Luo: Chemical Material for Construction, 2007, 01 (In Chinese) [12] Dazhi Liu, Huarong Shen, Hongqiang Chu, Linhua Jiang: Journal of NanJing University of Aeronautics & Astronautics, 2010.12 (In Chinese) [13] Zhuangli Chen, Zhen Wang.
Online since: January 2017
Authors: Ashish V. Gohil, Jay Pujara, Kartik D. Kothari
Pramanik (2015): Electrical Discharge Machining of MMCs Reinforced with Very Small Particles, Materials and Manufacturing Processes, DOI:10.1080/10426914.2015.1048360
[6] B.
Science Direct Computer-Aided Design 43:303–315 [14] R.V.
Journal of the Brazilian Society of Mechanical Sciences and Engineering.
International Journal of Advance Manufacturing Technology.28: 67-75 [21] Kozak, J., Rajurkar, K.P. and Chandarana, N. (2004) Machining of low electrical conductive materials by wire electrical discharge machining (WEDM) process.
Journal of Materials Processing Technology 149:266-276 [22] N.
Science Direct Computer-Aided Design 43:303–315 [14] R.V.
Journal of the Brazilian Society of Mechanical Sciences and Engineering.
International Journal of Advance Manufacturing Technology.28: 67-75 [21] Kozak, J., Rajurkar, K.P. and Chandarana, N. (2004) Machining of low electrical conductive materials by wire electrical discharge machining (WEDM) process.
Journal of Materials Processing Technology 149:266-276 [22] N.
The Prediction of Material Removal and Surface Roughness of Workpiece during Abrasive Flow Machining
Online since: September 2013
Authors: Jin Fu Ding, K.H. Zhang, Guang Zhen Zheng, Zeng Hao Fang, Li Bin He
In order to study the finishing mechanism of abrasive flow machining (AFM), the model of material removal and solving method of surface roughness during material deformation have developed based on axial force and radial force.
Surface Roughness and Material Removal.
Acknowledgements The authors gratefully acknowledge the funding for this work from Project supported by the National Natural Science Foundation of China (Grant No.51005216) and the Natural Science Foundation of Zhejiang Province (Grant No.
Zhejiang province science and technology projects (Grant No.2011C21037).
Dixit: International Journal of Machining Tool and Manufacture, Vol. 39 (1999) No.12, pp.1903-1923
Surface Roughness and Material Removal.
Acknowledgements The authors gratefully acknowledge the funding for this work from Project supported by the National Natural Science Foundation of China (Grant No.51005216) and the Natural Science Foundation of Zhejiang Province (Grant No.
Zhejiang province science and technology projects (Grant No.2011C21037).
Dixit: International Journal of Machining Tool and Manufacture, Vol. 39 (1999) No.12, pp.1903-1923
Online since: January 2012
Authors: Jin Shan Wang, Zhong Chang Wang
The mica is used to be layered materials.
Different proportion of similar materials sample is formed by fine sand, lime, mica and water.
The mechanical properties of coal and rock strata and mixture ratio of similar materials is shown in Tab. 2.
Chinese Journal of Rock Mechanics and Engineering, Vol. 21 (2002), January, p. 56-59.
Chinese Journal of Geotechnical Engineering,Vol. 26 (2004), May, p. 632-636.
Different proportion of similar materials sample is formed by fine sand, lime, mica and water.
The mechanical properties of coal and rock strata and mixture ratio of similar materials is shown in Tab. 2.
Chinese Journal of Rock Mechanics and Engineering, Vol. 21 (2002), January, p. 56-59.
Chinese Journal of Geotechnical Engineering,Vol. 26 (2004), May, p. 632-636.
Online since: April 2021
Authors: Basant Kumar Jha, Muhammad Kabir Musa, Abiodun O. Ajibade
In addition, where porous materials are taken into account, the preferential orientation of the beads or grains of the porous structure are often neglected.
Earth and Planetary Science Latters 183 (2000) 403-416
Effect of viscous dissipation, International Journal of Thermal Science, 49 (2010) 1984 - 1993
Bhattacharya, Magneto-hydrodynamic (MHD) flow past an infinite vertical plate immersed in a stably stratified fluid, International Journal of the Physical Sciences,6(24) (2011) 5831-5836
Liakopoulos, Darcy's coefficient of permeability as symmetric tensor of second rank, Hydrological Sciences Journal, 10(3) (1965) 41-48
Earth and Planetary Science Latters 183 (2000) 403-416
Effect of viscous dissipation, International Journal of Thermal Science, 49 (2010) 1984 - 1993
Bhattacharya, Magneto-hydrodynamic (MHD) flow past an infinite vertical plate immersed in a stably stratified fluid, International Journal of the Physical Sciences,6(24) (2011) 5831-5836
Liakopoulos, Darcy's coefficient of permeability as symmetric tensor of second rank, Hydrological Sciences Journal, 10(3) (1965) 41-48
Online since: November 2018
Authors: Lounis Abdallah, Gueraiche Larbi, El Bahri Ould Chikh, Hadj Miloud Meddah, Hachellaf Kaddour
Mucken, Proceedings from Materials Solutions Conference.
Santella, Structure-properties relations in spot friction Welded (also known as friction Stir Spot Welded), Journal of Materials Science and Engineering , A441(2006) 79-96 [11] K.
Materials and Design, 33(2012) 545-550 [14] M.K.
Sanjeev, Effect of Process Parameters & Tool Geometries on Properties of Friction Stir Spot Welds, Universal Journal of Engineering Science, 3(2015) 6-11 [18] M.K.
Okamoto, Material flow during friction stir spot welding, Materials Science and Engineering A, 527(2010) 4389-4398 [20] A.M.Takhakh, S.J.
Santella, Structure-properties relations in spot friction Welded (also known as friction Stir Spot Welded), Journal of Materials Science and Engineering , A441(2006) 79-96 [11] K.
Materials and Design, 33(2012) 545-550 [14] M.K.
Sanjeev, Effect of Process Parameters & Tool Geometries on Properties of Friction Stir Spot Welds, Universal Journal of Engineering Science, 3(2015) 6-11 [18] M.K.
Okamoto, Material flow during friction stir spot welding, Materials Science and Engineering A, 527(2010) 4389-4398 [20] A.M.Takhakh, S.J.
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 2009
Authors: Jun Lin Li, Shao Qin Zhang
Fracture Analysis of Semi-Infinite Interface Crack between Two
Dissimilar Orthotropic Composite Materials
Li Junlin a,1 Zhang Shaoqin b,1
1School of Applied Science, Taiyuan University of Science and Technology, Taiyuan 030024,
P.R.China
a lijunlin9726@yahoo.com.cn, bzhangshaoqing@sina.com
Keywords: Orthotropic, Interface Crack, Stress Fields, Displacement Fields
Abstract: The problem of orthotropic bi-materials semi-infinite interfacial crack was studied, by
constructing new stress functions and using composite complex functions methods of material
fracture on jz plane.
In References [4-5], in the case of the singularity exponent ελ +−= 2 1 , the stress field near the mode I 、II interface crack tip of double dissimilar orthotropic composite materials was studied.
In the present paper, the theoretical formulas of semi-infinite interface crack between two dissimilar orthotropic composite materials near the crack tip are derived.
Stress Field near Interface Crack Tip of Double Dissimilar Orthotropic Composite Materials [J].Applied Mathematics And Mechanics 2008,8:1045-1052 [5] ZHANG SHAO QIN, YAO HE SHENG and LI JUN LIN .Stress Fields near Mode II Interface Crack Tip of Two Dissimilar Orthotropic Composite Materials[J].Key Engineering Materials Vols.385-387(2008): 585-588 [6] Yang Wei Yang, Li Jun Lin, Zhang Xue Xia.
Composite Material Complex Function Method [M].Beijing: Science Press, 2005
In References [4-5], in the case of the singularity exponent ελ +−= 2 1 , the stress field near the mode I 、II interface crack tip of double dissimilar orthotropic composite materials was studied.
In the present paper, the theoretical formulas of semi-infinite interface crack between two dissimilar orthotropic composite materials near the crack tip are derived.
Stress Field near Interface Crack Tip of Double Dissimilar Orthotropic Composite Materials [J].Applied Mathematics And Mechanics 2008,8:1045-1052 [5] ZHANG SHAO QIN, YAO HE SHENG and LI JUN LIN .Stress Fields near Mode II Interface Crack Tip of Two Dissimilar Orthotropic Composite Materials[J].Key Engineering Materials Vols.385-387(2008): 585-588 [6] Yang Wei Yang, Li Jun Lin, Zhang Xue Xia.
Composite Material Complex Function Method [M].Beijing: Science Press, 2005