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Online since: May 2012
Authors: Ping Zhang, Chun Zhu, Zhao Hong Zhou, Yu Ling Huang
Materials and Methods
Algae Species Available
The algae species in the experiments included Scenedesmus sp. and Microcystis sp, which were provided by the Institute of Hydrobiology (IHB), Chinese Academy of Science (CAS), and cultured by the nutrient medium of BG-11 (which was provided by the IHB as well).
Here, photosynthesis is reduced, osmotic pressure of newly synthesized sugars is small, and ballast materials such as carbohydrates are not produced at a high rate, therefore they will not increase cell density, which in turn would increase sinking.
Science 1967, 157 (3791), pp. 937–941.
DOI:10.1126/science.157.3791.937
Indian Journal of marine Sciences, 2001, 30, p. 65-69
Here, photosynthesis is reduced, osmotic pressure of newly synthesized sugars is small, and ballast materials such as carbohydrates are not produced at a high rate, therefore they will not increase cell density, which in turn would increase sinking.
Science 1967, 157 (3791), pp. 937–941.
DOI:10.1126/science.157.3791.937
Indian Journal of marine Sciences, 2001, 30, p. 65-69
Online since: December 2018
Authors: Zhan Li Guo, Nigel Saunders, Jean Philippe Schillé
az.guo@sentesoftware.co.uk
Keywords: Microalloyed steels, Rolling schedule design, Materials modelling, Theromechanical controlled rolling process (TMCP), JMatPro®
Abstract.
Paul: Materials Science Forum 500-501 (2005), 677-684
Miodownik, Materials Science Forum, 706-709 (2012), 2728-2733
Schillé, International Journal of Microstructure and Materials Properties, 4 (2009), 187-195
Miodownik: CALPHAD – Calculation of Phase Diagrams, Pergamon Materials Series Vol.1, ed.
Paul: Materials Science Forum 500-501 (2005), 677-684
Miodownik, Materials Science Forum, 706-709 (2012), 2728-2733
Schillé, International Journal of Microstructure and Materials Properties, 4 (2009), 187-195
Miodownik: CALPHAD – Calculation of Phase Diagrams, Pergamon Materials Series Vol.1, ed.
Online since: July 2016
Authors: Azmi Mohamad Yusof, Marina Mokhtar, Siti Hajar Khalid, Ahmad Nazib Alias, Intan Syaffinazzilla Zaine, Solehah Fahdil
Vandeperre, "ELECTROPHORETIC DEPOSITION OF MATERIALS," Annual Review of Materials Science, vol. 29, pp. 327-352, 1999
Zhitomirsky, "Application of electrophoretic and electrolytic deposition techniques in ceramics processing," Current Opinion in Solid State and Materials Science, vol. 6, pp. 251-260, 6// 2002
Cao, "Electrophoretic deposition of titanium oxide nanoparticle films for dye-sensitized solar cell applications," Materials Sciences and Applications, vol. 2, p. 1427, 2011
Tour, "Materials science: nanotube composites," Nature, vol. 447, pp. 1066-1068, 2007
Azuma, "Analysis of functional group sited on multi-wall carbon nanotube surface," Open Materials Science Journal, vol. 5, pp. 242-247, 2011
Zhitomirsky, "Application of electrophoretic and electrolytic deposition techniques in ceramics processing," Current Opinion in Solid State and Materials Science, vol. 6, pp. 251-260, 6// 2002
Cao, "Electrophoretic deposition of titanium oxide nanoparticle films for dye-sensitized solar cell applications," Materials Sciences and Applications, vol. 2, p. 1427, 2011
Tour, "Materials science: nanotube composites," Nature, vol. 447, pp. 1066-1068, 2007
Azuma, "Analysis of functional group sited on multi-wall carbon nanotube surface," Open Materials Science Journal, vol. 5, pp. 242-247, 2011
Online since: December 2010
Authors: Hai Feng Liu, Yong Guang Xi, Tong Jiang Peng, Ji Ming Chen
Preparation and Properties of Expanded Vermiculite/Gypsum Thermal Insulation Boards
Yongguang Xi1, 2, a, Tongjiang Peng2, b*, Haifeng Liu2, c and Jiming Chen2, d
1School of Materials Science and Engineering, Southwest University of Science and Technology, Mianyang 621010, P.
China 2Institution of Mineral Material and Application, Southwest University of Science and Technology, Mianyang 621010, P.
Energy can be saved to some extent in buildings with high heat resistant materials.
Besides aggregates, the sorts and amount of cementitious materials, molding methods and curing technology are also influence factors of heat resistance of the insulating materials.
G Xi,et al.: Advanced Materials Research, Vol. 96 (2010), p. 155 [6] Abdullah Obut, İsmail Girgin and Abdülkerim Yörükoğlu: Clays and Clay Materials, Vol. 51 (2003), p. 452 [7] Erol Üçgül, İsmail Girgin: Turkish Journal of Chemistry, Vol. 26 (2002), p. 431 [8] Abdullah Obut, İsmail Girgin: Minerals Engineering, Vol. 15 (2002), p. 683
China 2Institution of Mineral Material and Application, Southwest University of Science and Technology, Mianyang 621010, P.
Energy can be saved to some extent in buildings with high heat resistant materials.
Besides aggregates, the sorts and amount of cementitious materials, molding methods and curing technology are also influence factors of heat resistance of the insulating materials.
G Xi,et al.: Advanced Materials Research, Vol. 96 (2010), p. 155 [6] Abdullah Obut, İsmail Girgin and Abdülkerim Yörükoğlu: Clays and Clay Materials, Vol. 51 (2003), p. 452 [7] Erol Üçgül, İsmail Girgin: Turkish Journal of Chemistry, Vol. 26 (2002), p. 431 [8] Abdullah Obut, İsmail Girgin: Minerals Engineering, Vol. 15 (2002), p. 683
Online since: July 2012
Authors: Song He Meng, Jin Ping Li, Yu Min Zhang, Zhi Bo Wang, Qing Liu
Introduction
Ultrahigh temperature ceramics (UHTCs) can be defined as materials that have uses in oxidizing environment at above 1800 oC.
Experimental Selection of Raw Materials.
Monteverde: Corrosion Science Vol. 47 (2005), p. 2020 [2] K.
Das: Journal of Materials Processing Technology Vol. 178 (2006), p.335 [8] E.
Scott: Journal of Materials Science Vol.23 (1988), p. 2865 [9] D.
Experimental Selection of Raw Materials.
Monteverde: Corrosion Science Vol. 47 (2005), p. 2020 [2] K.
Das: Journal of Materials Processing Technology Vol. 178 (2006), p.335 [8] E.
Scott: Journal of Materials Science Vol.23 (1988), p. 2865 [9] D.
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: November 2013
Authors: Ping Jiang, Du Xin Li, Yun Jun Liu
Self-supporting pH-responsive Micro porous Membrane from Copolymer PVA-co-PDEAEMA
Ping Jiang1,2,a,*, Duxin Li 2,b, and Yuejun Liu 1, *
1Department of Packaging and Materials Engineering, Key Laboratory of advanced materials and
packaging technology Hunan University of Technology, Zhuzhou Hunan 412007, P.
Polymers are one of the most important membrane materials, because of the relative ease and flexibility of manufacturing a large diversity of effective barrier structures for different membrane processes.
Material and methods.
Materials.
Li: Packaging Journal Vol.3 (2011), p.6-10
Polymers are one of the most important membrane materials, because of the relative ease and flexibility of manufacturing a large diversity of effective barrier structures for different membrane processes.
Material and methods.
Materials.
Li: Packaging Journal Vol.3 (2011), p.6-10
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: February 2016
Authors: Peter Ižol, Dagmar Draganovská, Jozef Beňo, Ildikó Maňková
Materials and methods
Because of its application in mould making, aluminium AlSiMgMn EN AW – 6082 (DIN 3.2315), yield stress Rp0.2=260 MPa, tensile strength Rm=310 MPa) as block 60x60 mm was used to produce sampling surfaces and its chemical composition was 1.3% Si, 0.6% Mg, 0.4% Mn, 0.25% Fe, 0.25% Cr, 0.2% Zn, 0.05% Ti, 0.03% Cu, Al - the rest.
Journal of Materials Processing Technology 155–156 (2004) 1505–1512 [7] Schützer, K. et al.: Using Advanced CAM-Systems for Optimized HSC-Machining of Complex Free Form Surfaces.
Journal of the Brazil Society of Mechanical Science. & Engineering. 2007, Vol. 29, No. 3, 313-318 [8] Toh C.K.: A study of the effects of cutter path strategies and orientations in milling.
Journal of Materials Processing Technology 152 (2004) 346–356 [9] Lopez de Lacalle L.N, Lamikiz A, Sanchez J.A, Salgado M.A.
International Journal of Machine Tools and Manufacture 2007;47(2):388 400
Journal of Materials Processing Technology 155–156 (2004) 1505–1512 [7] Schützer, K. et al.: Using Advanced CAM-Systems for Optimized HSC-Machining of Complex Free Form Surfaces.
Journal of the Brazil Society of Mechanical Science. & Engineering. 2007, Vol. 29, No. 3, 313-318 [8] Toh C.K.: A study of the effects of cutter path strategies and orientations in milling.
Journal of Materials Processing Technology 152 (2004) 346–356 [9] Lopez de Lacalle L.N, Lamikiz A, Sanchez J.A, Salgado M.A.
International Journal of Machine Tools and Manufacture 2007;47(2):388 400
Online since: December 2012
Authors: Fathallah Qods, Mojtaba Dehghan, Mahdi Gerdooei, Javad Doai
With regard to the materials flow inFig.4, the truth of this point can be seen.
Armstrong: Journal of Materials Processing Technology Vols. 153-154 (2004), pp. 54-55
Sivaram: Journal of Materials Processing Technology Vol. 37 (1993), pp. 295
Saha: Journal of Materials Processing Technology Vol. 42 (1994), pp. 349
BakhshiJooybari: Journal of Materials Processing Technology Vols. 125-126(2002), pp. 369
Armstrong: Journal of Materials Processing Technology Vols. 153-154 (2004), pp. 54-55
Sivaram: Journal of Materials Processing Technology Vol. 37 (1993), pp. 295
Saha: Journal of Materials Processing Technology Vol. 42 (1994), pp. 349
BakhshiJooybari: Journal of Materials Processing Technology Vols. 125-126(2002), pp. 369