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Online since: July 2011
Authors: Qing Zhang, Zhi Jie Liang, Ling Dong Meng
:Marine Sciences, 2005(10):23~26
[4] X.Y.Zhang, Y.L.Du, L.Q.Zheng: Materials Protection, 1998(1):3~6
[5] B.Liu, K.X.Guo: Journal of Changsha University of Electric Power (Natural Science), 1998(3):296~301
[6] B.Liu: Materials for Mechanical Engineering, 2001(9):18~21
[8] K.W.Gao, W.Y.Chu: Chinese Journal of Material Research, 1999(4):337~342.
[4] X.Y.Zhang, Y.L.Du, L.Q.Zheng: Materials Protection, 1998(1):3~6
[5] B.Liu, K.X.Guo: Journal of Changsha University of Electric Power (Natural Science), 1998(3):296~301
[6] B.Liu: Materials for Mechanical Engineering, 2001(9):18~21
[8] K.W.Gao, W.Y.Chu: Chinese Journal of Material Research, 1999(4):337~342.
Online since: May 2015
Authors: Hua Ti Li, Dong Liu, Jie Lin Wang, Xia Wang, Ying Li
Encapsulation of Lanthanide b-diketone Hybrids in Organic Oligomer Poly(ethylene glycol) 400
HuaTi Li1, 2, a; Dong Liu1; Ying Li1, b * ; JieLin Wang1 ,1,2 Xia Wang1
1School of Material Science and Engineering, University of Shanghai for Science and Technology, Shanghai 200093, P.
The ternary hybrid materials were obtained by adding the solution of Eu(NO3)3 and Tb(NO3)3 and Poly (ethylene glycol) (PEG400).
Thermogravimetry trace (TG) of Eu(TTA-Si)3PEG 3.3 Photoluminescence Properties Fluorescence properties of hybrid materials containing Eu3+ Figure 3 shows excitation and emission spectra of binary and ternary hybrid material.
The excitation spectra of these materials were all obtained by monitoring the strongest emission wavelength of the Eu3+ at 613 nm.
[2] K.Binnemans,Lanthanide-Based Luminescent Hybrid Materials.Chem.Rev, 109,4283 (2009) [3]O.
The ternary hybrid materials were obtained by adding the solution of Eu(NO3)3 and Tb(NO3)3 and Poly (ethylene glycol) (PEG400).
Thermogravimetry trace (TG) of Eu(TTA-Si)3PEG 3.3 Photoluminescence Properties Fluorescence properties of hybrid materials containing Eu3+ Figure 3 shows excitation and emission spectra of binary and ternary hybrid material.
The excitation spectra of these materials were all obtained by monitoring the strongest emission wavelength of the Eu3+ at 613 nm.
[2] K.Binnemans,Lanthanide-Based Luminescent Hybrid Materials.Chem.Rev, 109,4283 (2009) [3]O.
Online since: September 2013
Authors: R. Nagarajan, Swaminathan Ponmani, Jitendra Sangwai
Nanotechnology is the study of science of materials at nanoscale which help in enhancing the performance of processes.
Nanoparticles are the nano-sized materials in the range of 1-100 nm.
According to the particles size, they are used for applications in many research areas, such as, pharmaceuticals, materials, energy, and environments.
This may be in terms of development of better materials, drilling fluids, chemical agents for EOR or for exploration and development of an oilfield.
McGhee, Nanowire solar cells, Annual Review of Materials Research, 41, ( 2011 ), 269-295
Nanoparticles are the nano-sized materials in the range of 1-100 nm.
According to the particles size, they are used for applications in many research areas, such as, pharmaceuticals, materials, energy, and environments.
This may be in terms of development of better materials, drilling fluids, chemical agents for EOR or for exploration and development of an oilfield.
McGhee, Nanowire solar cells, Annual Review of Materials Research, 41, ( 2011 ), 269-295
Online since: June 2025
Authors: Blessie A. Basilia, Paul Eric C. Maglalang, Araceli M. Monsada, Persia Ada N. de Yro
Materials and Methods.
IOP Conference Series: Materials Science and Engineering, 290(1). https://doi.org/10.1088/1757-899X/290/1/012081
Journal of Applied Polymer Science, 121(2), 855–861. https://doi.org/10.1002/app.33675
Journal of Materials Research and Technology, 21, 3970–3981. https://doi.org/10.1016/j.jmrt.2022.11.024
In Journal of Materials Research and Technology (Vol. 15, pp. 4860–4879).
IOP Conference Series: Materials Science and Engineering, 290(1). https://doi.org/10.1088/1757-899X/290/1/012081
Journal of Applied Polymer Science, 121(2), 855–861. https://doi.org/10.1002/app.33675
Journal of Materials Research and Technology, 21, 3970–3981. https://doi.org/10.1016/j.jmrt.2022.11.024
In Journal of Materials Research and Technology (Vol. 15, pp. 4860–4879).
Online since: March 2010
Authors: Li Jian, Zhi Qiang Zhang, Zhong Chao Ye, Yi Sheng Zhang
Modeling and Simulation in Materials Science and
Engineering, Vol. 13 (2005), p. 1291
[3] Akerstrom P, Oldenburg M.
Journal of Materials Processing Technology, Vol. 174 (2006), p. 399 [4] Akerstrom P, Oldenburg M.
Journal of Materials Processing Technology, Vol. 177 (2006), p. 452 [6] Turetta A, Bruschi S, Ghiotti A.
Journal of Materials Processing Technology, Vol. 177 (2006), p. 396 [7] Naderi M, Saeed-Akbari A, Bleck W.
Materials Science and Engineering, 2007, p.1 [8] Naderi M, Saeed-Akbari A, Bleck W.
Journal of Materials Processing Technology, Vol. 174 (2006), p. 399 [4] Akerstrom P, Oldenburg M.
Journal of Materials Processing Technology, Vol. 177 (2006), p. 452 [6] Turetta A, Bruschi S, Ghiotti A.
Journal of Materials Processing Technology, Vol. 177 (2006), p. 396 [7] Naderi M, Saeed-Akbari A, Bleck W.
Materials Science and Engineering, 2007, p.1 [8] Naderi M, Saeed-Akbari A, Bleck W.
Online since: January 2016
Authors: Marta Harničárová, Dušan Mitaľ, Jozef Zajac, Jan Valíček, Zuzana Hutyrová
From the point of view of machinability, WPCs are classified as easy to work materials (compared to metals, or plastics) as shown in the studies [1-4], etc.
The beams meet on the detector surface and are recorded in varying degree of intensity depending on the thickness of materials and absorption properties of the materials.
Process of machining the WPC materials can cause occurrence of cracks or holes (with increasing number of bubbles are monitored cracks) on the machined surface.
Lemaster, Tool Wear Cutting Wood Fiber-Plastic Composite Materials, Forest Product Journal. 61 (2011) 149-154
Mihok, Experimental Study of Surface Roughness of Wood Plastic Compostes after Turning, Material Science and Engineering Technology II. (2013) 1022-6680
The beams meet on the detector surface and are recorded in varying degree of intensity depending on the thickness of materials and absorption properties of the materials.
Process of machining the WPC materials can cause occurrence of cracks or holes (with increasing number of bubbles are monitored cracks) on the machined surface.
Lemaster, Tool Wear Cutting Wood Fiber-Plastic Composite Materials, Forest Product Journal. 61 (2011) 149-154
Mihok, Experimental Study of Surface Roughness of Wood Plastic Compostes after Turning, Material Science and Engineering Technology II. (2013) 1022-6680
Online since: June 2014
Authors: Qin Qin Hou
Meanwhile, it enjoys advantages like high tenacity, high strength, high insulation and high dielectric constant; therefore, it has been widely used in insulation materials, fiber protection and reinforcing materials, etc.
Preparation of the Polycrystalline Alumina Fubers by Sol-gel Progress [J].Journal of Xiamen University (Natural Science).2006, 45(3):375-378
Fabrication and Characterization of Mono-Dispersed Al2O3 Powders [J].Journal of Aeronautical Materials.2006, 26(4):96-99
New Chemical Materials.2004, 32(7):13-15
Preparation of Alumina as a Raw Material of Phosphor and Controlling of Its Particle Size and Shape [J].Journal of the Chinese Ceramic Society.2004, 32(4):393-397
Preparation of the Polycrystalline Alumina Fubers by Sol-gel Progress [J].Journal of Xiamen University (Natural Science).2006, 45(3):375-378
Fabrication and Characterization of Mono-Dispersed Al2O3 Powders [J].Journal of Aeronautical Materials.2006, 26(4):96-99
New Chemical Materials.2004, 32(7):13-15
Preparation of Alumina as a Raw Material of Phosphor and Controlling of Its Particle Size and Shape [J].Journal of the Chinese Ceramic Society.2004, 32(4):393-397
Online since: May 2021
Authors: Ismaila Abdullahi, Ismail Zainol
Liu, Hydroxyapatite nanospindles by biomimetic synthesis with chitosan as template, Materials Science and Technology 23(10) (2007) 1228-1232
Rajendran, Nanohydroxyapatite-chitosan-gelatin polyelectrolyte complex with enhanced mechanical and bioactivity, Materials Science Engineering C Materials Biology Applied 33(6) (2013) 3237-3244
Ivankovic, Preparation and characterization of nano-hydroxyapatite within chitosan matrix, Materials Science Engineering C Materials Biology Applied 33(8) (2013) 4539-4544
Rajendran, Nanohydroxyapatite-chitosan-gelatin polyelectrolyte complex with enhanced mechanical and bioactivity, Materials Science Engineering C Materials Biology Applied 33(6) (2013) 3237-3244
Aubry, Trapping heavy metals by using calcium hydroxyapatite and dielectrophoresis, Journal of Hazard Materials 139(3) (2007a) 461-466
Rajendran, Nanohydroxyapatite-chitosan-gelatin polyelectrolyte complex with enhanced mechanical and bioactivity, Materials Science Engineering C Materials Biology Applied 33(6) (2013) 3237-3244
Ivankovic, Preparation and characterization of nano-hydroxyapatite within chitosan matrix, Materials Science Engineering C Materials Biology Applied 33(8) (2013) 4539-4544
Rajendran, Nanohydroxyapatite-chitosan-gelatin polyelectrolyte complex with enhanced mechanical and bioactivity, Materials Science Engineering C Materials Biology Applied 33(6) (2013) 3237-3244
Aubry, Trapping heavy metals by using calcium hydroxyapatite and dielectrophoresis, Journal of Hazard Materials 139(3) (2007a) 461-466
Online since: August 2012
Authors: Zheng Qi Li
Porous ecological concrete for plant-growing is a new kind of concrete materials.
“Experimental study on properties of green-growing porous concrete,” Journal of Jiangsu University (Natural Science Edition),vol.26,pp.345-349,July 2005 (in chinese)
[5] Wei CL, Fan JC, and Luo RA.”Biaxial mechanical test of ecological concrete,” Journal of Shanghai University (Natural Science),vol.12, pp.647-650,655, December 2006 (in chinese)
“Planting experiment and preparation of porous concrete adapt to plants-growing,” New Building Materials, pp.16-20,February 2009 (in chinese)
“Research on carbonation resistance of ecological concrete and its mechanism,” Journal of China Three Gorges University (Natural Science),vol.25, pp.18-21, February 2003 (in chinese)
“Experimental study on properties of green-growing porous concrete,” Journal of Jiangsu University (Natural Science Edition),vol.26,pp.345-349,July 2005 (in chinese)
[5] Wei CL, Fan JC, and Luo RA.”Biaxial mechanical test of ecological concrete,” Journal of Shanghai University (Natural Science),vol.12, pp.647-650,655, December 2006 (in chinese)
“Planting experiment and preparation of porous concrete adapt to plants-growing,” New Building Materials, pp.16-20,February 2009 (in chinese)
“Research on carbonation resistance of ecological concrete and its mechanism,” Journal of China Three Gorges University (Natural Science),vol.25, pp.18-21, February 2003 (in chinese)
Online since: March 2016
Authors: Xiao Guo Cao, Chun Lei Liang, Shi Ming Xia
Materials Letters 132 (2014) 302-306
Journal of Materials Science 35 (2000) 1303-1313
Journal of Materials Engineering and Performance 21 (2012) 324-330
Journal of Materials Chemistry A 3 (2015) 2876-2882
Journal of Materials Processing Technology 209 (2009) 2104-2110
Journal of Materials Science 35 (2000) 1303-1313
Journal of Materials Engineering and Performance 21 (2012) 324-330
Journal of Materials Chemistry A 3 (2015) 2876-2882
Journal of Materials Processing Technology 209 (2009) 2104-2110