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Online since: November 2005
Authors: Gui Ping Zhao, Chong Du Cho, Oh Yang Kwon
Composite Materials Vol. 25 (1991), p. 992
[4] H.Y.
Composite Materials Vol. 26 (14) (1992), p. 2134 [5] C.
Composite Materials Vol. 36 (12) (2002), p. 1403 [6] C.
Composite Materials Vol. 38 (14) (2004), p. 1231 [8] C.T.
Composite Materials Vol. 19 (1985), p. 490
Composite Materials Vol. 26 (14) (1992), p. 2134 [5] C.
Composite Materials Vol. 36 (12) (2002), p. 1403 [6] C.
Composite Materials Vol. 38 (14) (2004), p. 1231 [8] C.T.
Composite Materials Vol. 19 (1985), p. 490
Online since: January 2011
Authors: Jun Zhe Liu, Zhi Min He
Experimental procedure
Materials.
The total amount of cementitious material is 450 kg/m3.
It may be due to the use of supplementary cementing materials.
Xie: submitted to Journal of Cement and concrete research (2001) [3] T.
Huang: submitted to Journal of Construction and Building Materials (2008)
The total amount of cementitious material is 450 kg/m3.
It may be due to the use of supplementary cementing materials.
Xie: submitted to Journal of Cement and concrete research (2001) [3] T.
Huang: submitted to Journal of Construction and Building Materials (2008)
Online since: June 2010
Authors: Sławomir Zolkiewski
This work has been conducted as a part of the research project No N501
222035 supported by the Ministry of Science and Higher Education of Poland in 2008-2011.
Bocian: Identification of composite materials at high speed deformation with the use of degenerated model.
Journal of Achievements in Materials and Manufacturing Engineering, Vol 28, Issue 2, International OCOSCO World Press, June (2008), p. 171-174 [4] G.
Journal of Theoretical and Applied Mechanics, 2, 39 (2001) [5] J.
Bocian: Identification of composite materials at high speed deformation with the use of degenerated model.
Journal of Achievements in Materials and Manufacturing Engineering, Vol 28, Issue 2, International OCOSCO World Press, June (2008), p. 171-174 [4] G.
Journal of Theoretical and Applied Mechanics, 2, 39 (2001) [5] J.
Online since: December 2012
Authors: Qiang Gao, Jian Zhang Li, Ji Zhi Zhang, Xiao Mei Wang
Technics and Properties of Plywood Manufacture with Modified Urea-formaldehyde Resin
Xiaomei Wang1, a Jianzhang Li1,b,* Jizhi Zhang1, c and Qiang Gao1, d
1College of Wood Sciences and Technology, Key Laboratory of the Ministry of Education of Wood Science and Engineering, Beijing Forestry University, Beijing 100083, P.
Introduction Urea-formaldehyde (UF) resin is widely used in the manufacturing of plywood, particleboard, fiber board, and some other interior decoration materials because of its advantages, such as available raw materials, low cost, and high bonding strength.
Experimental Materials.
[4] K.Martin, Z.Gerhard: Journal of Applied Polymer Science, Vol. 124 (2012), p.4416
[5] F.Langmaier, J.Sivarova, M.Mladek: Journal of Thermal Analysis and Calorimetry, Vol. 75 (2004), p.205
Introduction Urea-formaldehyde (UF) resin is widely used in the manufacturing of plywood, particleboard, fiber board, and some other interior decoration materials because of its advantages, such as available raw materials, low cost, and high bonding strength.
Experimental Materials.
[4] K.Martin, Z.Gerhard: Journal of Applied Polymer Science, Vol. 124 (2012), p.4416
[5] F.Langmaier, J.Sivarova, M.Mladek: Journal of Thermal Analysis and Calorimetry, Vol. 75 (2004), p.205
Online since: February 2013
Authors: Hai Xia Zhang, Takayuki Shimaoka
Materials and methods
Sampling and preparation.
Environment Science and Technology, 38(14): 3927 -3932.(2004) [2] H.
Journal of Hazardous Materials, 123(1-3): 70-75. (2005) [6] Y.S.
Journal of Korean Society of Environmental Engineers, 23: 1379-1388.(2001) [7] J.A.
Environment Science and Technology, 33(9): 1424-1429.(1999)
Environment Science and Technology, 38(14): 3927 -3932.(2004) [2] H.
Journal of Hazardous Materials, 123(1-3): 70-75. (2005) [6] Y.S.
Journal of Korean Society of Environmental Engineers, 23: 1379-1388.(2001) [7] J.A.
Environment Science and Technology, 33(9): 1424-1429.(1999)
Online since: October 2014
Authors: Ya Wei, Lai Hao Li, Gang You, Yan Yan Wu, Xian Qing Yang
Materials and methods
Raw materials.
Acknowledgments This research project is financially supported by The National Natural Science Foundation of China (31371800), the Basic Scientific Research Business Expenses Aid of Chinese Academy of Fishery Sciences (2014C05XK01) and Special Promotion of Guangdong Marine Fishery Science and Technology (A201301C01).
Journal of Aquatic Food Product Technology, 21, p.147, 2012
Advanced Materials Research 393, p. 828, 2012
International Journal of Food Microbiology, 64, p. 261, 2001
Acknowledgments This research project is financially supported by The National Natural Science Foundation of China (31371800), the Basic Scientific Research Business Expenses Aid of Chinese Academy of Fishery Sciences (2014C05XK01) and Special Promotion of Guangdong Marine Fishery Science and Technology (A201301C01).
Journal of Aquatic Food Product Technology, 21, p.147, 2012
Advanced Materials Research 393, p. 828, 2012
International Journal of Food Microbiology, 64, p. 261, 2001
Online since: February 2018
Authors: Yuan Hua Lin, Zheng Wei Peng, Xiao Hong Wang, Gao Xu Li, Hai Lun Wang
Tian, Fundamentals of Material Science, revised ed., Tsinghua University Press, Beijing, 2011
Saito, Mechanical properties of Mg–Al–Zn alloy with a tilted basal texture obtained by differential speed rolling, Materials Science & Engineering A. 488 (2008) 214-220
Rong, Fundamentals of Material Science, Shanghai Jiaotong University Press, Shanghai, 2000
He, The Study on Plane Anisotropy of 2524 Aluminum Alloy Sheet, Journal of Aeronautical Materials. 29 (2009) 1-6
Shi, Influences of texture of FCC metals on their mechanical properties, Journal of Kunming University of Science and Technology ( Natural Science Edition). 37 (2012) 24-27
Saito, Mechanical properties of Mg–Al–Zn alloy with a tilted basal texture obtained by differential speed rolling, Materials Science & Engineering A. 488 (2008) 214-220
Rong, Fundamentals of Material Science, Shanghai Jiaotong University Press, Shanghai, 2000
He, The Study on Plane Anisotropy of 2524 Aluminum Alloy Sheet, Journal of Aeronautical Materials. 29 (2009) 1-6
Shi, Influences of texture of FCC metals on their mechanical properties, Journal of Kunming University of Science and Technology ( Natural Science Edition). 37 (2012) 24-27
Online since: December 2011
Authors: Da Wei Hu, Yan Ming Wang
Preparation of Hexagonal Fe3O4 Nanometer Particles via Weakly
Magnetic Field Assisted Oxidation Co-precipitation
Dawei Hu1,a, Yanmin Wang2,b
1College of Materials Science and Engineering, South China University of Technology,
510640, Guangzhou, China
2Key Laboratory of Specially Functional Materials under Ministry of Education,
510640, Guangzhou, China
a123hudawei@163.com, bwangym@scut.edu.cn
Keywords: hexagonal Fe3O4 nanometer particle, weakly magnetic field, morphology, oxidative co-precipitation
Abstract:This paper utilized a novel oxidative co-precipitation method to synthesis hexagonal Fe3O4 nanometer particles, which assisted by a weakly magnetic field.
Introduction Magnetite (Fe3O4) nanometer particle is a magnetic functional material, which has been widely used in pigment, activator, magnetic fluids, and magnetic record materials, etc..
Datong Zhang in Testing Center of the South China University of Technology for the SEM measurement, and Professor Yang Su in Beijing General Research Institute of Magnetic Materials for magnetic measurement, respectively.
Han, et al, Magnetic field synthesis of Fe3O4 nanoparticles used as a precursor of ferrofluids, Journal of Magnetism and Magnetic Materials. 310(2007)37-47
Colloid and Interface Science. 171(1995)85-91
Introduction Magnetite (Fe3O4) nanometer particle is a magnetic functional material, which has been widely used in pigment, activator, magnetic fluids, and magnetic record materials, etc..
Datong Zhang in Testing Center of the South China University of Technology for the SEM measurement, and Professor Yang Su in Beijing General Research Institute of Magnetic Materials for magnetic measurement, respectively.
Han, et al, Magnetic field synthesis of Fe3O4 nanoparticles used as a precursor of ferrofluids, Journal of Magnetism and Magnetic Materials. 310(2007)37-47
Colloid and Interface Science. 171(1995)85-91
Online since: November 2011
Authors: Zhe Ming Zhu, Chao Wang, Tao Zheng
The advantage of PMMA materials is its transparency which can make crack fracture patterns easily observe.
PMMA materials are transparent and the cracks developed under blasting loads can be observed easily, whereas, using rock material, it is difficult to observe the cracks induced by blasting loads.
Zhu: Advanced Materials Research Vol. 230-232 (2011), p. 251-255
Zhu: Advanced Materials Research Vol. 230-232 (2011), p. 278-282
Zhu: Advanced Materials Research Vol. 225-226 (2011), p. 933-936
PMMA materials are transparent and the cracks developed under blasting loads can be observed easily, whereas, using rock material, it is difficult to observe the cracks induced by blasting loads.
Zhu: Advanced Materials Research Vol. 230-232 (2011), p. 251-255
Zhu: Advanced Materials Research Vol. 230-232 (2011), p. 278-282
Zhu: Advanced Materials Research Vol. 225-226 (2011), p. 933-936
Online since: October 2010
Authors: Valmir José da Silva, Romualdo Rodrigues Menezes, Meiry Glaúcia Freire Rodrigues, Alana Carolyne Crispim, Ana Paula Araújo
These materials were characterized by XRD and SEM.
FAU-type materials are large pore zeolites (ca. 0.73 nm).
These materials were characterized by XRD and SEM.
Li: Chinese Science Bulletin Vol. 49 (2004), p. 2547
Tsapatsis: Journal of Membrane Science.
FAU-type materials are large pore zeolites (ca. 0.73 nm).
These materials were characterized by XRD and SEM.
Li: Chinese Science Bulletin Vol. 49 (2004), p. 2547
Tsapatsis: Journal of Membrane Science.