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Online since: November 2015
Authors: Dao Yan Feng, Zhen Lin, Zhi Qin Peng, Li Fen Cao, Miao Miao Liu, Jun Xie, Zhi Wen Hu
Experimental
Materials.
Journal of Applied Polymer Science. 2010:n/a-n/a
Journal of Archaeological Science. 2012. 39: p. 1349-1359
[15] Niu, M., et al., Molecular structure and properties of wool fiber surface-grafted with nano-antibacterial materials.
AUTEX Research Journal. 2007. 7: p. 9-18.
Journal of Applied Polymer Science. 2010:n/a-n/a
Journal of Archaeological Science. 2012. 39: p. 1349-1359
[15] Niu, M., et al., Molecular structure and properties of wool fiber surface-grafted with nano-antibacterial materials.
AUTEX Research Journal. 2007. 7: p. 9-18.
Online since: August 2021
Authors: Nuta Supakata, Weerawan Chalermsakulkit
Mortar is one of the building materials that uses cement as the main ingredient, including the use of natural sand as a fine aggregate.
This research used both materials as ingredients in the production of cement mortar and helped to reduce waste in the environment.
Therefore, finding sand substitutes can help reduce the use of natural materials such as water treatment sludge (WTS).
Conclusions We can conclude that FGD gypsum and WTS can be applied to innovate construction materials and reduce environmental problems.
[12] Information on http://www.thaitca.or.th/images/journal/journal28/journal%2028-1.pdf [13] Information on http://sutir.sut.ac.th:8080/sutir/handle/123456789/5027 [14] M.G.
This research used both materials as ingredients in the production of cement mortar and helped to reduce waste in the environment.
Therefore, finding sand substitutes can help reduce the use of natural materials such as water treatment sludge (WTS).
Conclusions We can conclude that FGD gypsum and WTS can be applied to innovate construction materials and reduce environmental problems.
[12] Information on http://www.thaitca.or.th/images/journal/journal28/journal%2028-1.pdf [13] Information on http://sutir.sut.ac.th:8080/sutir/handle/123456789/5027 [14] M.G.
Online since: June 2012
Authors: Qiao Neng Guo, Shi E Yang, Yu Jia, Yu Ping Huo, Qiang Sun
Ho: Journal of Electronic Materials Vol. 26 (1997), p. 805
[2] M.
Guo: Journal of Materials Processing Technology Vol. 184 (2007), p. 1 [7] Y.
Chu:Materials Science and Engineering A Vol. 363 (2003), p. 234 [13] M.P.
Yang, et al: Computational Materials Science.
Xu : Journal of Materials Science Vol. 39 (2004), p. 3089 [17] P.
Guo: Journal of Materials Processing Technology Vol. 184 (2007), p. 1 [7] Y.
Chu:Materials Science and Engineering A Vol. 363 (2003), p. 234 [13] M.P.
Yang, et al: Computational Materials Science.
Xu : Journal of Materials Science Vol. 39 (2004), p. 3089 [17] P.
Online since: August 2014
Authors: Zi Peng Zhao, Xian Quan Jiang, Rong Yu, Jin Yang, Ai Min Jiang
Experimental
2.1 Materials
The main characteristics of WC, Cr3C2, VC and Co starting powders were listed table1.
(2) With the inhibitors content of 0.4 wt.% VC-0.4 wt.% NbC, the best overall performance that hardness was 2000HV30 and transverse rupture strength was 2164Mpa was abtained,which provided with an obvious improvement and was worthy of further study. 5 Acknowledgements The authors are grateful to Chongqing Academy of Science &Technology for supplying of materials and testing of samples .the research work in this paper was Supported by Natural Science Foundation Project of CQ CSTC(NO.CSTC2012jjA50030), Chongqing science and technology key Projects Fund (No.
Journal of Refractory Metals and Hard Materials, 2011; 29:147-152 [5] Borgh Ida , Hedström Peter, Borgenstam Annika, Agren John, Odqvist Joakim.
International Journal of Refractory Metals and Hard Materials, 2014; 42: 30-35 [6] Morton C.W, Wills D.J, and Stjernberg K.
International Journal of Refractory Metals & Hard Materials 1999; 17: 91-97 [10] S.G.Huang,R.L.
(2) With the inhibitors content of 0.4 wt.% VC-0.4 wt.% NbC, the best overall performance that hardness was 2000HV30 and transverse rupture strength was 2164Mpa was abtained,which provided with an obvious improvement and was worthy of further study. 5 Acknowledgements The authors are grateful to Chongqing Academy of Science &Technology for supplying of materials and testing of samples .the research work in this paper was Supported by Natural Science Foundation Project of CQ CSTC(NO.CSTC2012jjA50030), Chongqing science and technology key Projects Fund (No.
Journal of Refractory Metals and Hard Materials, 2011; 29:147-152 [5] Borgh Ida , Hedström Peter, Borgenstam Annika, Agren John, Odqvist Joakim.
International Journal of Refractory Metals and Hard Materials, 2014; 42: 30-35 [6] Morton C.W, Wills D.J, and Stjernberg K.
International Journal of Refractory Metals & Hard Materials 1999; 17: 91-97 [10] S.G.Huang,R.L.
Online since: August 2011
Authors: Fei Yu Wang, Yuan Xin Luo, Yong Qin Wang
Master thesis, Wuhan University of Science and Technology (2005)
[3] K.Y.
Kang: Journal of Materials Processing Technology Forum Vol. 130–131 (2002), p. 195 [5] Y.
Mehmet: International Journal of Engineering Science Forum Vol. 43 (2005), p. 472 [6] J.
Cheon: Journal of Mechanical Science and Technology Forum Vol. 23 (2009), p. 2125 [8] L.
Randall and D.W Kelly: Journal of Mechanical Engineering Science Forum Vol. 212(1998), p. 287 [11] S.
Kang: Journal of Materials Processing Technology Forum Vol. 130–131 (2002), p. 195 [5] Y.
Mehmet: International Journal of Engineering Science Forum Vol. 43 (2005), p. 472 [6] J.
Cheon: Journal of Mechanical Science and Technology Forum Vol. 23 (2009), p. 2125 [8] L.
Randall and D.W Kelly: Journal of Mechanical Engineering Science Forum Vol. 212(1998), p. 287 [11] S.
Online since: September 2015
Authors: Paweł Niewiadomski
The development of materials engineering, especially
nanotechnology [1,3], which seems to offer great possibilities of improving both the physical and mechanical properties of this material [2], contributes to this research.
Therefore the aim of the paper is to make brief overview of the state-of-the-art in the field of concrete materials containing nanoparticles.
Khademno, Influence of Al2O3 nanoparticles on the compressive strength and workability of blended concrete, Journal of American Science 6(5) (2010) 6-9
Riahi, The effects of Cr2O3 nanoparticles on strength assessments and water permeability of concrete in different curing media, Materials Science and Engineering: A 528/3 (2011) 1173-1182
Abdollahi Nejand, To study the effect of adding Fe2O3 nanoparticles on the morphology properties and microstructure of cement mortar, Life Science Journal 8/4 (2011) 550-554
Therefore the aim of the paper is to make brief overview of the state-of-the-art in the field of concrete materials containing nanoparticles.
Khademno, Influence of Al2O3 nanoparticles on the compressive strength and workability of blended concrete, Journal of American Science 6(5) (2010) 6-9
Riahi, The effects of Cr2O3 nanoparticles on strength assessments and water permeability of concrete in different curing media, Materials Science and Engineering: A 528/3 (2011) 1173-1182
Abdollahi Nejand, To study the effect of adding Fe2O3 nanoparticles on the morphology properties and microstructure of cement mortar, Life Science Journal 8/4 (2011) 550-554
Online since: November 2012
Authors: Vladimir Slugeň, V. Kršjak, W. Egger, L. Ravelli, M. Petriska, S. Stanček, M. Skarba, K. Vitázek, M. Stacho, J. Veterníková, V. Sabelová, Stanislav Sojak, Pavol Priputen
The interpretation of data obtained by the PLEPS technique was significantly supported by the scanning electron microscopy (SEM) data obtained at the Institute of Materials Science (Faculty of Materials Science and Technology, STU).
Therefore, additional destructive or non-destructive techniques should be used to give us a complementary view on the examined materials.
Almazouzi: Journal of Nuclear Materials Vol. 377 (2008), p. 147–154 [5] P.
Yoshiie: Journal of Nuclear Materials Vol. 359 (2006), p. 93–101 [11] V.
Kršjak: Positron annihilation study of advanced nuclear reactor materials, Doctoral thesis, Slovak University of Technology, Slovakia, 2008.
Therefore, additional destructive or non-destructive techniques should be used to give us a complementary view on the examined materials.
Almazouzi: Journal of Nuclear Materials Vol. 377 (2008), p. 147–154 [5] P.
Yoshiie: Journal of Nuclear Materials Vol. 359 (2006), p. 93–101 [11] V.
Kršjak: Positron annihilation study of advanced nuclear reactor materials, Doctoral thesis, Slovak University of Technology, Slovakia, 2008.
Online since: October 2011
Authors: Hua Chen, Jian Liu, Tong Xue, Ren Qing Wang
Introduction
Ecosystems not only supply the materials for existence and reproduction of human beings and other organisms but also provide life-support systems of the earth.
We used “all database” including (1) Web of Science (1900-2011), and (2) Journal Citation Reports and analysed all records published until the end of 2011.
Tang: Journal of Central South University of Technology, 18 (2001), 420-428
Zhang: Science, 322 (2008), 528-528
Mitsch: Science, 325 (2009), 676-676
We used “all database” including (1) Web of Science (1900-2011), and (2) Journal Citation Reports and analysed all records published until the end of 2011.
Tang: Journal of Central South University of Technology, 18 (2001), 420-428
Zhang: Science, 322 (2008), 528-528
Mitsch: Science, 325 (2009), 676-676
Online since: September 2017
Authors: Hugo Bento Rebelo, Corneliu Cismaşiu, Válter J.G. Lúcio, Manuel T.M.S. Gonçalves, Gabriel J. Gomes, José P.F. Basto
Key Engineering Materials Vol. 755 45Geometry and element mesh.
Elsevier Science, 1983
Applied element method for structural analysis: Theory and application for linear materials.
Journal of Natural Disaster Science, 24(1):25-34, 2002
Key Engineering Materials Vol. 755 51[22] H.
Elsevier Science, 1983
Applied element method for structural analysis: Theory and application for linear materials.
Journal of Natural Disaster Science, 24(1):25-34, 2002
Key Engineering Materials Vol. 755 51[22] H.
Online since: June 2013
Authors: Qing Tan, Zhen Huan Zhu, Yi Min Xia, Lv Jian Xie, Xin Jian Sun, Bin Hua Li
Rock material model
Material Constitutive Model.
Acknowledgements The project was supported by the National Natural Science Foundation of China (51274252) and National Key Basic Research Program of China (973) (2013CB035401) and Hunan Municipal Science and Technology Project (2010FJ1002) and Changsha Municipal Science and Technology Project (K1003149-11).
[2] Tan Qing, Zhang Kui, Yimin Xia, Kai Wang, Weidong Nie, In Chinese: Journal of Shandong University(Engineering Science) , 6(2009), p.72-77
[3] Hui Li, Shulin Wang,Jiake Wang,In Chinese: Modern Tunnelling Technology,3(2012),p.193-197 [4] Zhaohuang Zhang, Changming Ji,In Chinese: Journal of Basic Science and Engineering,(2) 2009,p.265-273
[6] Xiao Yu Wang, Zong Xi Cai, Peng Cheng Su, Hai Feng Zhao, Yi Lan Kang:Advanced Materials Research,308-310(2011), p.2340-2344.
Acknowledgements The project was supported by the National Natural Science Foundation of China (51274252) and National Key Basic Research Program of China (973) (2013CB035401) and Hunan Municipal Science and Technology Project (2010FJ1002) and Changsha Municipal Science and Technology Project (K1003149-11).
[2] Tan Qing, Zhang Kui, Yimin Xia, Kai Wang, Weidong Nie, In Chinese: Journal of Shandong University(Engineering Science) , 6(2009), p.72-77
[3] Hui Li, Shulin Wang,Jiake Wang,In Chinese: Modern Tunnelling Technology,3(2012),p.193-197 [4] Zhaohuang Zhang, Changming Ji,In Chinese: Journal of Basic Science and Engineering,(2) 2009,p.265-273
[6] Xiao Yu Wang, Zong Xi Cai, Peng Cheng Su, Hai Feng Zhao, Yi Lan Kang:Advanced Materials Research,308-310(2011), p.2340-2344.