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Online since: November 2006
Authors: In Young Yang, Kwang Hee Im, Kil Sung Lee
Researches on collapse characteristics of structural member is conducted with numerous materials
and various sectional shapes [1-5].
J. of Mechanical Science (1999), Vol. 41, pp. 179-208
J. of Mechanical Science (1997), Vol. 39, pp. 575-583
Jones: Journal of composite Materials (1992), Vol. 26, pp. 37-50
Cha: Key Engineering Materials (2006), Vols. 297-300, pp. 183-188
J. of Mechanical Science (1999), Vol. 41, pp. 179-208
J. of Mechanical Science (1997), Vol. 39, pp. 575-583
Jones: Journal of composite Materials (1992), Vol. 26, pp. 37-50
Cha: Key Engineering Materials (2006), Vols. 297-300, pp. 183-188
Online since: July 2013
Authors: Mi Zhou, Xiao Long Jiang, Xin Qian, Xiao Feng Ye
The result showed that the novel hyperbranched polymer might have potential applications as delivery materials in chemotherapy.
Thus, h-PAMAM-CDs may have potential applications as delivery materials in chemotherapy.
Acknowledgements Thanks for the funding for the research work from the National Youth Science Fund project (No. 21004053).
Sorption of Agrochemical Model Compounds by Sorbent Materials Containing β-cyclodextrin, Journal of Agromedicine, 86 (2008) 237-243
Hypebranched polymers: a promising new class of material, Prog.
Thus, h-PAMAM-CDs may have potential applications as delivery materials in chemotherapy.
Acknowledgements Thanks for the funding for the research work from the National Youth Science Fund project (No. 21004053).
Sorption of Agrochemical Model Compounds by Sorbent Materials Containing β-cyclodextrin, Journal of Agromedicine, 86 (2008) 237-243
Hypebranched polymers: a promising new class of material, Prog.
Online since: November 2017
Authors: Martin Kraus, Vratislav Mareš, Adéla Podepřelová
A piston material must fulfil high requirements.
Fig. 5 Crack in material.
Reed, Micromechanisms of fatigue crack growth in cast aluminium piston alloys, International Journal of Fatigue, Volume 42, September 2012, pages 227-237
Reed, Analysis of fatigue crack initiation and S–N response of model cast aluminium piston alloys, Materials Science and Engineering: A, Volume 528, Issue 24, 15 September 2011, Pages 7331-7340
Reed, Micromechanisms of short fatigue crack growth in an Al–Si piston alloy, Materials Science and Engineering: A, Volume 612, 26 August 2014, Pages 302-309, ISSN 0921-5093
Fig. 5 Crack in material.
Reed, Micromechanisms of fatigue crack growth in cast aluminium piston alloys, International Journal of Fatigue, Volume 42, September 2012, pages 227-237
Reed, Analysis of fatigue crack initiation and S–N response of model cast aluminium piston alloys, Materials Science and Engineering: A, Volume 528, Issue 24, 15 September 2011, Pages 7331-7340
Reed, Micromechanisms of short fatigue crack growth in an Al–Si piston alloy, Materials Science and Engineering: A, Volume 612, 26 August 2014, Pages 302-309, ISSN 0921-5093
Online since: October 2013
Authors: Xue Hong Liao, Wan Qing Xiong, Quan Xin Zhu, Jian Lei, Wen Xiang Ye
In this paper, Ce4+ and Fe3+co-doped titanium dioxide nanocomposite was prepared by iron nitrate, cerium sulfate and titanium sulfate as raw materials and sodium dodecyl sulfate as surfactant under microwave irradiation.
Therefore, finding effective photocatalyst and catalytic materials has attracted researchers’ intensive interest.
Acknowledgments This work is supported by Functional Materials Research Team of Huanggang Normal University.
Chinese Journal of Applied Chemistry. 24(1)(2007)53-57 [5] C Liu,N Bao,Z Yang.Photocatalytic performance of TiO2 modified by doped transition metal ions.Chinese Journal of Catalysis 22(2)(2001)215-218 [6] J Shi,J Li,Y F Cai.Fabrication of C, N doped TiO2 nanotube photocatalysts with visible light response.Acta Phys.
Sin.. 24(7)(2008)1283-1286 [7] C Y Wang, P Zhong, Y Y Jiang.Influence of doped cerium on degredation efficiency of oleic acid photocatalyzed by TiO2 film coated on glass surface.Chinese Journal of Catalysis. 21(5)(2001)443-448 [8] Z Yuan,J Jia,L Zhang.Influence of Co-doping of Zn(I)+Fe(III) on the photocatalytic activity of Ti02 for phenol degradation.Materials Chemistry and Physics. 2(3)(2002)323-326 [9] Q X Zhu, W Q Xiong, J Lei, W X Ye, X H Liao.
Therefore, finding effective photocatalyst and catalytic materials has attracted researchers’ intensive interest.
Acknowledgments This work is supported by Functional Materials Research Team of Huanggang Normal University.
Chinese Journal of Applied Chemistry. 24(1)(2007)53-57 [5] C Liu,N Bao,Z Yang.Photocatalytic performance of TiO2 modified by doped transition metal ions.Chinese Journal of Catalysis 22(2)(2001)215-218 [6] J Shi,J Li,Y F Cai.Fabrication of C, N doped TiO2 nanotube photocatalysts with visible light response.Acta Phys.
Sin.. 24(7)(2008)1283-1286 [7] C Y Wang, P Zhong, Y Y Jiang.Influence of doped cerium on degredation efficiency of oleic acid photocatalyzed by TiO2 film coated on glass surface.Chinese Journal of Catalysis. 21(5)(2001)443-448 [8] Z Yuan,J Jia,L Zhang.Influence of Co-doping of Zn(I)+Fe(III) on the photocatalytic activity of Ti02 for phenol degradation.Materials Chemistry and Physics. 2(3)(2002)323-326 [9] Q X Zhu, W Q Xiong, J Lei, W X Ye, X H Liao.
Online since: December 2010
Authors: Yan Ling Zhang, Yun Sheng Li, De Ying Zhang
Journal of Bridge Engineering 157 (2004), p. 93-102 .
,[] Michèle S.Pfeil, Ronaldo C.Battista, Aluísio J.R.
International Journal of Fatigue 30(8) (2008), p. 1387-1397 ].
China Academy of Railway Sciences, (2008) ].
Foundation of the fatigue fracture. edtied by Press of Huazhong University of Science and Technology, Wuchang, (1991) ].
According to the manual of the stress intensity factor [[] Manual of the stress intensity factor. edtied by Science Press, Beijing, (1993), p. 68 ], the form coefficient has the value of 1.12
International Journal of Fatigue 30(8) (2008), p. 1387-1397 ].
China Academy of Railway Sciences, (2008) ].
Foundation of the fatigue fracture. edtied by Press of Huazhong University of Science and Technology, Wuchang, (1991) ].
According to the manual of the stress intensity factor [[] Manual of the stress intensity factor. edtied by Science Press, Beijing, (1993), p. 68 ], the form coefficient has the value of 1.12
Online since: August 2014
Authors: Janka Beresecka, Jaroslav Kapusniak
Tab. 5 Comparison of fires development
SR/Area/Region
Year
Fires
Difference
2012/2008
Direct material losses (thousand EUR)
Killed persons
Injured persons
SR in total
2008
11 045
43 480.8
68
232
2009
11 991
38 761.4
56
245
2010
9 851
69 148.4
41
244
2011
13 677
33 561.1
56
267
2012
14 413
41 394.5
44
232
1.30
Nitra Region
2008
1 294
4 859.6
6
33
2009
1 247
3 495.4
14
32
2010
900
15 336.4
4
32
2011
1 272
2 586.0
6
35
2012
1 473
2 252.2
6
25
1.13
Source: Database of the Statistical Office of the Slovak Republic
From the data it is clear that the number of fires in the Slovak Republic had become 1.3 fold for the period 2008-2012, while in conditions of Nitra Region is the increase in the number of fires smaller.
Majlingová et al.: Modification of procedure to initiate the solids according to EN 60695-2-10 for materials used in historic buildings.
In European journal of environmental and safety sciences: scientific journal of the European Science and Research Institute and the Association of Fire Engineering. - ISSN 1339-472X. - Vol. 1, Issue 1, 2013, p. 8-12
Ivanovičová: Assessment of fire risk of selected agglomerated wooden materials.
In Research journal of recent sciences.
Majlingová et al.: Modification of procedure to initiate the solids according to EN 60695-2-10 for materials used in historic buildings.
In European journal of environmental and safety sciences: scientific journal of the European Science and Research Institute and the Association of Fire Engineering. - ISSN 1339-472X. - Vol. 1, Issue 1, 2013, p. 8-12
Ivanovičová: Assessment of fire risk of selected agglomerated wooden materials.
In Research journal of recent sciences.
Online since: January 2012
Authors: Meng Xi Zhang, Jun Li Gao
Acknowledgements
This work was financially supported by the National Natural Science Foundation of China (No. 40972192).
Seed: submitted to Journal of Geotechnical Engineering (1990)
Miura: submitted to Journal of Material Cyeles and Waste Management (2002)
Lu: submitted to Chinese Journal of Geotechnical Engineering (2008) (In Chinese)
Zhang: submitted to Chinese Journal of Geotechnical Engineering (2005) (In Chinese)
Seed: submitted to Journal of Geotechnical Engineering (1990)
Miura: submitted to Journal of Material Cyeles and Waste Management (2002)
Lu: submitted to Chinese Journal of Geotechnical Engineering (2008) (In Chinese)
Zhang: submitted to Chinese Journal of Geotechnical Engineering (2005) (In Chinese)
Online since: January 2009
Authors: Ying Jun Wang, Xiao Feng Chen, Na Ru Zhao, Li Ren
Surface Modification of Chitosan Membranes
by Oxygen Plasma Treatment
Naru ZHAO 1,2, Yingjun WANG 1,2, Li REN, Xiaofeng CHEN 1,2
1
Key Laboratory of Specially Functional Materials, South China University of Technology, Ministry of
Education, Guangzhou, China
2
Biomaterials Research Center, School of Materials Science and Engineering,
South China University of Technology, Guangzhou, 510640, China
e-mail: nrzhao@scut.edu.cn
Key words: Chitosan; Plasma Treatment; X-ray Photoelectron Spectroscopy; Hydropholicity
Abstract: Chitosan membranes were prepared by solvent cast method.
Materials and methods 2.1 Materials.
The plasma treatment was carried out in a low-temperature plasma reactor (Omega mechanical science and technology company, Suzhou, China).
The RF power should also evidently affect the plasma modification of the material surface.
Journal of Biomedical Materials Research: part A, 2006 Volume 76A, Issue 3 (p 589-595) [3] Raineri JP, Bellamkonda R, Jacob J, Vargo TG, Gardella JA, Aebischer P.
Materials and methods 2.1 Materials.
The plasma treatment was carried out in a low-temperature plasma reactor (Omega mechanical science and technology company, Suzhou, China).
The RF power should also evidently affect the plasma modification of the material surface.
Journal of Biomedical Materials Research: part A, 2006 Volume 76A, Issue 3 (p 589-595) [3] Raineri JP, Bellamkonda R, Jacob J, Vargo TG, Gardella JA, Aebischer P.
Online since: November 2011
Authors: Yun Xia Ye, Yin Qun Hua, Hai Xia Liu, Rui Fang Chen
Since laser shock processing (LSP) appeared, researchers paid much attention to the effect of hardened various metal materials by LSP, but there was a little attention to the interaction mode between material and shock wave.
Experiments Materials.
Materials Science and Engineering,Vol.
Journal of Materials Science, Vol.17(1992),p.2110 [4] Jean-Eric Masse, Gerard Barreau.
Materials Science Forum, Vol.471~472(2004),p. 812.
Experiments Materials.
Materials Science and Engineering,Vol.
Journal of Materials Science, Vol.17(1992),p.2110 [4] Jean-Eric Masse, Gerard Barreau.
Materials Science Forum, Vol.471~472(2004),p. 812.
Online since: December 2014
Authors: Zong Xia Jiao, Jin Jun Wu, You Sheng Yang, Jing Yuan Li, Ge Gang Yu
Fortunately, these technical difficulties have been solved effectively by utilizing special materials, incorporating particular coatings, establishing reasonable structures, selecting effective water treatment methods and etc.
Some of these materials, such as ceramics and polymers, which allow self-lubrication of moving component surfaces, are used to reduce the wear and tolerances, thus minimize the leakage [11-12].
New materials and component design-key factors for water hydraulic systems [C].
The use of ceramic materials for fluid power components [C]. 80th Anniversary of Lithuanian University of Agriculture.
Applied mechanics and materials, 2010, 34-35:1279-1283
Some of these materials, such as ceramics and polymers, which allow self-lubrication of moving component surfaces, are used to reduce the wear and tolerances, thus minimize the leakage [11-12].
New materials and component design-key factors for water hydraulic systems [C].
The use of ceramic materials for fluid power components [C]. 80th Anniversary of Lithuanian University of Agriculture.
Applied mechanics and materials, 2010, 34-35:1279-1283