Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: February 2016
Authors: Lan Chen, Jian Cai, Umezuruike Linus Opara
Introduction
Powder is a common form of materials [1].
Materials and Methods Materials.
International Journal of Pharmaceutics. 388 (2010) 40-51
Journal of Aerosol Science 42 (2011) 811–819
International Journal of Pharmaceutics. 457 (2013) 143-149
Materials and Methods Materials.
International Journal of Pharmaceutics. 388 (2010) 40-51
Journal of Aerosol Science 42 (2011) 811–819
International Journal of Pharmaceutics. 457 (2013) 143-149
Online since: March 2008
Authors: Dun Wen Zuo, Li Gang Zhao, Yu Li Sun
Pei: International Journal of Machine Tools & Manufacture, Vol.42 (2002), pp.385-393
Hu: Materials Science and Engineering, Vol.17 (1999) No.2, pp.55-57 (In Chinese) [7] R.K.
Liu: Materials Science Forum, Vols.471-472 (2004), pp.481-484 (In Chinese) [18] W.
Okamoto and et al.: International Journal of Electrical Machining, (2003) No.8, pp.21-26
Peng: Journal of Materials Processing Technology, Vol.140 (2003), pp.274-279.
Hu: Materials Science and Engineering, Vol.17 (1999) No.2, pp.55-57 (In Chinese) [7] R.K.
Liu: Materials Science Forum, Vols.471-472 (2004), pp.481-484 (In Chinese) [18] W.
Okamoto and et al.: International Journal of Electrical Machining, (2003) No.8, pp.21-26
Peng: Journal of Materials Processing Technology, Vol.140 (2003), pp.274-279.
Online since: January 2013
Authors: Bo Qiang Shi, Yun Tao Cai
At present, the fiber-reinforced composite materials, with its unique and excellent performance, are considered to be the better material by sports community, compared with traditional materials, it has the following advantages:
Light mass.
The mechanical properties of common materials are shown in Table 1.
Main application parts of bicycle and materials are shown in Table 3.
References Reference an article: [1] Peng Xue-han, Improvement Of Sports Development Based Upon New Materials, Fujian Sports Science and Technology, (05)2000 35-38 [2] Chen Wei-lin, Study of the Promotion of Nanometer Technology to the Sports Performance, Shandong Sports Science & Technology, (09)2003 66-68
[3] Li Chun-yan, Chen Wu, Yu Long-jiang, Prospect of the application of Nanometer technology in competitive sports, Journal of Wuhan Institute of Physical Education, (05)2004 8-14 [4] Shen Chun-ping, The New Fiber Materials and Application of its Products in Sports Goods, Synthetic Fiber in China, (40)2011 11-14 [5] Wu Zhi-yong, Application of New Fibers used in the Field of Sports Equipment, Bulletin of Sport Science & Technology, (04)2012 87-90.
The mechanical properties of common materials are shown in Table 1.
Main application parts of bicycle and materials are shown in Table 3.
References Reference an article: [1] Peng Xue-han, Improvement Of Sports Development Based Upon New Materials, Fujian Sports Science and Technology, (05)2000 35-38 [2] Chen Wei-lin, Study of the Promotion of Nanometer Technology to the Sports Performance, Shandong Sports Science & Technology, (09)2003 66-68
[3] Li Chun-yan, Chen Wu, Yu Long-jiang, Prospect of the application of Nanometer technology in competitive sports, Journal of Wuhan Institute of Physical Education, (05)2004 8-14 [4] Shen Chun-ping, The New Fiber Materials and Application of its Products in Sports Goods, Synthetic Fiber in China, (40)2011 11-14 [5] Wu Zhi-yong, Application of New Fibers used in the Field of Sports Equipment, Bulletin of Sport Science & Technology, (04)2012 87-90.
Online since: January 2021
Authors: Rathanasamy Rajasekar, Rittin Abraham Kurien, M. Sekar, D. Philip Selvaraj, Chacko Preno Koshy
Materials and Experimental Methods
2.1.
Materials Epoxy material is a combination of resin and hardener.
The compositions of the prepared fiber-epoxy composite materials are shown in Table 2.
Hashemi, Construction and Building Materials, 55 (2014) 103–113
Majumde, Construction and Building Materials, 37 (2012) 841–850
Materials Epoxy material is a combination of resin and hardener.
The compositions of the prepared fiber-epoxy composite materials are shown in Table 2.
Hashemi, Construction and Building Materials, 55 (2014) 103–113
Majumde, Construction and Building Materials, 37 (2012) 841–850
Online since: May 2016
Authors: Petr Štěpánek, František Girgle, Vojtěch Kostiha, Anna Kučerová
The paper is focused on strengthening of loadbearing reinforced concrete vertical members by composite materials.
These modern materials are used more and more in the last years.
Use of FRP materials for strengthening The strengthening of vertical compressed members with composite FRP materials significantly increases the possibilities of design and offers also many advantages.
It has to be stated, that the same disadvantage also applies to other mainly used materials like steel bandages.
M., Jara M.: Revision of constitutive models for repairing bridge columns with fiber polymers, International Journal of Engineering, Science and Technology, Volume 3, No 4 2011 [8] Mander J.
These modern materials are used more and more in the last years.
Use of FRP materials for strengthening The strengthening of vertical compressed members with composite FRP materials significantly increases the possibilities of design and offers also many advantages.
It has to be stated, that the same disadvantage also applies to other mainly used materials like steel bandages.
M., Jara M.: Revision of constitutive models for repairing bridge columns with fiber polymers, International Journal of Engineering, Science and Technology, Volume 3, No 4 2011 [8] Mander J.
Online since: June 2005
Authors: Akira Kohyama
For the case of PMR and PBR,
reactor materials and He system technology
are available from industrial metallic
materials and current technologies.
The key materials for these reactors are reactor core structural materials and internal heat exchanger materials, where neutron absorption, thermal conductivity and fusion (melting or decomposition) temperature are key requirements.
In these materials, basic properties have been measured.
Kohyama, Advances in Science and Technology, 33, 129-140(2003)
Kohyama, Journal of Nuclear Materials (in press) [12] T.
The key materials for these reactors are reactor core structural materials and internal heat exchanger materials, where neutron absorption, thermal conductivity and fusion (melting or decomposition) temperature are key requirements.
In these materials, basic properties have been measured.
Kohyama, Advances in Science and Technology, 33, 129-140(2003)
Kohyama, Journal of Nuclear Materials (in press) [12] T.
Online since: July 2012
Authors: Chun Ying He, Zhi Min Chen, Xi Ran Wei, Wei Na Song, Jun Zhang, Yi Xiao Yang, Yi Qun Wu, Bin Wang
Pcs have high thermal and chemical stability, and therefore many potential applications such as oxidation catalysts, solar cell functional materials, gas sensors, antimycotic materials, and corrosion inhibitors are expected for Pcs [1].
MPcs have also attracted much more attention as optical limiting materials because of their large optical nonlinearities, ultrafast response times, ease of processing into optical components and lower cost [2].
It is shown that ZnPc(OC5H11)4 hold promise as third order nonlinear materials and optical limiting materials.
Acknowledgements This work was financially supported by Foundation of Education Department of Heilongjiang Province of China References (12521399, 12511377, 12511384), National Natural Science Foundation of China (51002046), Overseas Science Foundation (LC08C06) of Heilongjiang Province, and Open Fund of Key Laboratory of Functional Inorganic Material Chemistry (Heilongjiang University).
Bayrak et al. / Journal of Organometallic Chemistry 696 (2011) 3807-3815 [6] D.
MPcs have also attracted much more attention as optical limiting materials because of their large optical nonlinearities, ultrafast response times, ease of processing into optical components and lower cost [2].
It is shown that ZnPc(OC5H11)4 hold promise as third order nonlinear materials and optical limiting materials.
Acknowledgements This work was financially supported by Foundation of Education Department of Heilongjiang Province of China References (12521399, 12511377, 12511384), National Natural Science Foundation of China (51002046), Overseas Science Foundation (LC08C06) of Heilongjiang Province, and Open Fund of Key Laboratory of Functional Inorganic Material Chemistry (Heilongjiang University).
Bayrak et al. / Journal of Organometallic Chemistry 696 (2011) 3807-3815 [6] D.
Online since: July 2017
Authors: Gilberto Carvalho Coelho, Lucas Ferreira, Alfeu Saraiva Ramos, Stephania Capellari Rezende, Gael Yves Poirier, Antonio Augusto Araújo Pinto da Silva
In this sense, the Ni3Nb compound can enhance the creep and oxidation resistances of these materials 4,5.
Lee: Materials Chemistry and Physics Vol. 104 (2–3) (2007), p. 293
Semiatin: Materials Science and Engineering A 586 (2013), p. 350
Turan: Materials & Design Vol. 42 (2012), p. 495
Ramos: Materials Science Forum Vol. 717 (2012), p. 222
Lee: Materials Chemistry and Physics Vol. 104 (2–3) (2007), p. 293
Semiatin: Materials Science and Engineering A 586 (2013), p. 350
Turan: Materials & Design Vol. 42 (2012), p. 495
Ramos: Materials Science Forum Vol. 717 (2012), p. 222
Analysis of Stress Deformation Characteristics of Composite Geomembrane Rock-Fill Dam with Core Wall
Online since: December 2013
Authors: Jian Min Ren, Dong Yan Ding
Table 1 Physics parameters of Materials
Dam partition
Modulus of elasticity
Poisson's ratio
Friction angle
Cohesion
Dam gravel material
21
0.3
38
24
Composite geomembrane
12
0.26
22
/
Transition material
24
0.22
32
15
Cushion material
30
0.22
31
17
Bedrock
23
0.3
36
23
Analysis calculations dam,and foundation mainly uses hexahedral elements , there are also a number of five-sided unit and tetrahedral elements.Composite geomembrane uses quadrilateral membrane element.Figure 1 is the Chengzigou hydropower station dam structure calculation mesh. the number of dam finite difference dividing unit is 680,foundation is 230 and composite geomembrane is divided into 32 geogrid unit.
[2] Su Yi ming, Gu Ganchen.Geotechnical film central impervious earth-rockfill dam finite element calculation [J].Journal of Hohai university (natural science edition), 1988.16: 79-92
Building science, 2009,25 (1): 100 - 105
Journal of water conservancy, 2005
Journal of geotechnical engineering, 1983.
[2] Su Yi ming, Gu Ganchen.Geotechnical film central impervious earth-rockfill dam finite element calculation [J].Journal of Hohai university (natural science edition), 1988.16: 79-92
Building science, 2009,25 (1): 100 - 105
Journal of water conservancy, 2005
Journal of geotechnical engineering, 1983.
Online since: September 2014
Authors: Lei Qin, Zheng Xiao Hua, Yue Hua Shi, Hong Wei Ren, En Rong Wang, Qi Qin, Kai Ge Tian
The emergence of the concept, Smart Materials and Structures, provides a new idea for the health monitoring of civil engineering structures [4].
At present, a variety of different monitoring methods with distinctive features have been formed via combined intelligent materials.
The electrical impedance signal of piezoelectric materials contains the information of structural damages.
[4] Jinping Ou: Functional Materials Information Vol. 2(5) (2005), p. 12-22
Rogers: Journal of Intelligent Material Systems and Structures Vol. 5(1) (1994), p. 12-20.
At present, a variety of different monitoring methods with distinctive features have been formed via combined intelligent materials.
The electrical impedance signal of piezoelectric materials contains the information of structural damages.
[4] Jinping Ou: Functional Materials Information Vol. 2(5) (2005), p. 12-22
Rogers: Journal of Intelligent Material Systems and Structures Vol. 5(1) (1994), p. 12-20.