Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: January 2013
Authors: Xiao Zhen Li, Yuan Zhu Zhang, Xin Jiang Wei
[6] Savage, B.M. and Janssen, D.J.: ACI Materials Journal, Vol. 94(1997), P.94
[7] C.Leech,D.Lockington,R. and HOOTON: ACI Materials Journal ,Vol. 105(2008),P.44–51
[9] ZP Bažant, LJ Najjar: Material and Structure.Vol.25(1972),P.3-10
[10] Xi Y., Bažant Z.P. and Molina, L.: Journal of Advanced Cement-Based Materials.
V. and Vitaliani, R.V.: ACI Materials Journal, Vol.90(1993), P.441-451
[7] C.Leech,D.Lockington,R. and HOOTON: ACI Materials Journal ,Vol. 105(2008),P.44–51
[9] ZP Bažant, LJ Najjar: Material and Structure.Vol.25(1972),P.3-10
[10] Xi Y., Bažant Z.P. and Molina, L.: Journal of Advanced Cement-Based Materials.
V. and Vitaliani, R.V.: ACI Materials Journal, Vol.90(1993), P.441-451
Online since: February 2019
Authors: Komgrit Lawanwong, Fusahito Yoshida, Tetsuya Yoshida, Michihiro Takiguchi, Takashi Katahira, Takeshi Uemori, Tetsuo Naka
Chu: Journal of Materials Processing Technology, 50(1995), 361-374
Yoshida: Key Engineering Materials, 535-536 (2013), 292-295
Uemori: International Journal of Mechanical Sciences 45 (2003), 1687-1702 [6] J.F.Wang, R.H.Wagoner, D.K.Matlock and F.Barlat: International Journal of Solids and Structures, 42-5-6(2005), 1287-1307
Kim: Journal of Materials Science, 42-15(2007), 6171–6176
Yoshida: International Journal of Mechanical Sciences (2018), to be published
Yoshida: Key Engineering Materials, 535-536 (2013), 292-295
Uemori: International Journal of Mechanical Sciences 45 (2003), 1687-1702 [6] J.F.Wang, R.H.Wagoner, D.K.Matlock and F.Barlat: International Journal of Solids and Structures, 42-5-6(2005), 1287-1307
Kim: Journal of Materials Science, 42-15(2007), 6171–6176
Yoshida: International Journal of Mechanical Sciences (2018), to be published
Online since: February 2012
Authors: Gang Xu, Lei Miao, Li Hua Chen, Chum Ming Huang, Jian Hua Zhou, Xiu Di Xiao
Xie, Journal of Materials Chemistry, 21: 4509-4517 (2011)
[6] G.
Lee, Solar Energy Materials and Solar Cells, 71: 537-540 (2002) [8] C.
Case, Journal of Vacuum Science & Technology A, 2: 1509-1512 (1984) [22] Z.
Luo, Applied Materials & Interfaces, 1 (10): 2211-2218 (2009) [25] X.
Chao, Journal of Fuzhou University (Natural Science), 25 (4): 95-98 (1997) [26] L.
Lee, Solar Energy Materials and Solar Cells, 71: 537-540 (2002) [8] C.
Case, Journal of Vacuum Science & Technology A, 2: 1509-1512 (1984) [22] Z.
Luo, Applied Materials & Interfaces, 1 (10): 2211-2218 (2009) [25] X.
Chao, Journal of Fuzhou University (Natural Science), 25 (4): 95-98 (1997) [26] L.
Online since: August 2014
Authors: Farid Nasir Ani
The future trend in thermo-conversion processing of the biomass is the utilization of microwave energy into renewable bio-fuels, materials and chemicals.
The potential of uses of bio-oils and bio-chars from oil palm solid wastes for biofuels, materials and chemicals are given.
The applications of these renewable sources to produce biofuels, materials and chemicals have been applied in some countries around the world.
The oil palm shell char could be used to make activated carbon for water treatment and gas adsorbent materials, nano-materials for gas separation and storage (ANG), microwave absorbent materials.
Plasma Sources Science and Technology, 15 :S26-S34
The potential of uses of bio-oils and bio-chars from oil palm solid wastes for biofuels, materials and chemicals are given.
The applications of these renewable sources to produce biofuels, materials and chemicals have been applied in some countries around the world.
The oil palm shell char could be used to make activated carbon for water treatment and gas adsorbent materials, nano-materials for gas separation and storage (ANG), microwave absorbent materials.
Plasma Sources Science and Technology, 15 :S26-S34
Online since: December 2012
Authors: Emmanuel Oluwafunbi Simolowo, Ali Mousavi
The CARPP starts by gathering the material breakdown of given product and passes this information to the recycling process planner module.
It also identifies any hazardous material requiring selective treatment to assign feasible and appropriate recycling processes.
Researchers in the recent years have increasingly stressed the need for the integration of imaging and materials identification techniques in automation of industrial recycling processes.
CIRP Journal of Manufacturing Science and Technology. 2 (2009) 13-20
Erikson, Computer vision-based sorting Of Atlantic Salmon (Salmo Salar) fillets According to their color level, Journal of Food Science. 72 (2007) 1 30-35
It also identifies any hazardous material requiring selective treatment to assign feasible and appropriate recycling processes.
Researchers in the recent years have increasingly stressed the need for the integration of imaging and materials identification techniques in automation of industrial recycling processes.
CIRP Journal of Manufacturing Science and Technology. 2 (2009) 13-20
Erikson, Computer vision-based sorting Of Atlantic Salmon (Salmo Salar) fillets According to their color level, Journal of Food Science. 72 (2007) 1 30-35
Online since: August 2013
Authors: Tao Zeng, Li Li Jiang, Xi Bin Wei, Xun Liu
Chou, Elastic stiffness of three-dimensional braided textile structural composites, Composite Materials: Testing and Design, Seventh Conference. 404-421, 1984
Chou, Fiber inclination model of three-dimensional textile structural composites, Journal of Composite Materials 20, 472-483, 1986
Chou, Analysis and modeling of three dimensional textile structural composites, High-Tech Fibrous Materials 3, 22-33, 1991
Woo, Macro finite element for analysis of textile composites, Journal of Composite Materials 28, 607–618, 1994
Journal of Composite Materials 30, 885-905, 1996.
Chou, Fiber inclination model of three-dimensional textile structural composites, Journal of Composite Materials 20, 472-483, 1986
Chou, Analysis and modeling of three dimensional textile structural composites, High-Tech Fibrous Materials 3, 22-33, 1991
Woo, Macro finite element for analysis of textile composites, Journal of Composite Materials 28, 607–618, 1994
Journal of Composite Materials 30, 885-905, 1996.
Online since: September 2016
Authors: J.B. Saedon, Norkamal Jaafar, Mohd Azman Yahaya
This kind of machining extensively used in machining of materials with highly precision productivity.
Most previous research works in WEDM are more on materials such as Inconel and steel.
Science. 255: 1742- 1753
Applied Mechanics and Materials 510, 123-129 [3] Datta, S. and Mahapatra, S.
International Journal of Engineering, Science and Technology. 2: 162-183
Most previous research works in WEDM are more on materials such as Inconel and steel.
Science. 255: 1742- 1753
Applied Mechanics and Materials 510, 123-129 [3] Datta, S. and Mahapatra, S.
International Journal of Engineering, Science and Technology. 2: 162-183
Online since: May 2014
Authors: G. Rosas, Ares G. Hernández-Torres, F. Mares-Briones, J.R. Romero-Romero
Al based intermetallic materials are commonly susceptible to hydrogen embrittlement reaction.
Züttel, Hydrogen-Storage Materials for Mobile Applications, Nature 414 (2001) 353–358
Sakka, Hydrogen-Generation Materials for Portable Applications, J.
Sun, Studies on hydrogen generation characteristics of hydrolysis of the ball milling Al-based materials in pure water, International Journal of Hydrogen Energy 32 (2007) 2809-2815
Frost, Thermal decomposition of bauxite minerals: infrared emission spectroscopy of gibbsite, boehmite and diaspore, Journal of Materials Science 37 (2002) 1121-1129.
Züttel, Hydrogen-Storage Materials for Mobile Applications, Nature 414 (2001) 353–358
Sakka, Hydrogen-Generation Materials for Portable Applications, J.
Sun, Studies on hydrogen generation characteristics of hydrolysis of the ball milling Al-based materials in pure water, International Journal of Hydrogen Energy 32 (2007) 2809-2815
Frost, Thermal decomposition of bauxite minerals: infrared emission spectroscopy of gibbsite, boehmite and diaspore, Journal of Materials Science 37 (2002) 1121-1129.
Online since: May 2021
Authors: A.V. Senin, D.M. Galimov, A.G. Ryazanov
Experimental
Materials and apparatuses.
Dyubanov, Study of Sulphatizing Roasting Process Using Iron Sulphates for the Treatment of Zinc Leach Residue, Materials Science Forum 989 (2020) 448-455
Khmeleva, Zinc ferrite decomposition by sodium carbonate and calcium oxide at roasting of steelmaking dust, Materials Science Forum. 946 (2019) 474-479
He, Investigation on microwave carbothermal reduction behavior of low-grade pyrolusite, Journal of Materials Research and Technology. 9(4) (2020) 7862-7869
Solovev, Interaction of Tops of Domains in Metal Nano of the Film, Materials Science Forum, Vol. 945 (2019) 771-775.
Dyubanov, Study of Sulphatizing Roasting Process Using Iron Sulphates for the Treatment of Zinc Leach Residue, Materials Science Forum 989 (2020) 448-455
Khmeleva, Zinc ferrite decomposition by sodium carbonate and calcium oxide at roasting of steelmaking dust, Materials Science Forum. 946 (2019) 474-479
He, Investigation on microwave carbothermal reduction behavior of low-grade pyrolusite, Journal of Materials Research and Technology. 9(4) (2020) 7862-7869
Solovev, Interaction of Tops of Domains in Metal Nano of the Film, Materials Science Forum, Vol. 945 (2019) 771-775.
Online since: May 2015
Authors: Juan Wang, Ru Wang, Guo Dong Chen
In the same time the new low dielectric constant materials are used to the integrated circuit processing.
Introduction With the shrinking of IC feature size and the increasing of metal wiring layer, copper has replaced the aluminum into silicon multilayer materials.
Acknowledgement The work was supported by the Natural Science Foundation for the Youth of Hebei Province (No.
QN2014208), and Outstanding youth science and Technology Innovation Fund of Hebei University of Technology (Project name.
References [1]Hyunseop Lee, Boumyoung Park, Haedo Jeong, Mechanical effect of process condition and abrasive concentration on material removal rate profile in copper chemical mechanical planarization, journal of materials processing technology. 209(2009)1729-1735
Introduction With the shrinking of IC feature size and the increasing of metal wiring layer, copper has replaced the aluminum into silicon multilayer materials.
Acknowledgement The work was supported by the Natural Science Foundation for the Youth of Hebei Province (No.
QN2014208), and Outstanding youth science and Technology Innovation Fund of Hebei University of Technology (Project name.
References [1]Hyunseop Lee, Boumyoung Park, Haedo Jeong, Mechanical effect of process condition and abrasive concentration on material removal rate profile in copper chemical mechanical planarization, journal of materials processing technology. 209(2009)1729-1735