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Online since: March 2006
Authors: Kikuo Kishimoto, Masaki Omiya, Hirotsugu Inoue, M. Nizar Machmud
Although material models that are available in
finite element systems have been developed for metal and some other materials, most numerical
analyses of polymeric materials have been performed by using such models.
Jayachandran: Mechanics of Materials Vol. 19 (1995) p. 193 [4] F.
Hermida: Journal of Applied Polymer Science Vol. 58 (1995) p. 55 [5] M.
Pollock: Journal of Applied Polymer Science Vol. 59 (1996) p. 173 [7] C.
Byon: Journal of Materials Processing Technology Vol. 140 (2003) p. 84 [12]The Math Works, Inc: Using Matlab 6 (Natick, MA 2000) Acknowledgment The authors would like to thank Ms.
Jayachandran: Mechanics of Materials Vol. 19 (1995) p. 193 [4] F.
Hermida: Journal of Applied Polymer Science Vol. 58 (1995) p. 55 [5] M.
Pollock: Journal of Applied Polymer Science Vol. 59 (1996) p. 173 [7] C.
Byon: Journal of Materials Processing Technology Vol. 140 (2003) p. 84 [12]The Math Works, Inc: Using Matlab 6 (Natick, MA 2000) Acknowledgment The authors would like to thank Ms.
Online since: November 2024
Authors: Altamash Shabbir, Hafiz Azeem Hamza, Hafiz Muhammad Tahir Nisar
SAE International Journal of Materials and Manufacturing, 9 (2016)294-302
Journal of dispersion science and technology, 35 (2014) 677-684
Optical Materials, 146 (2023) 114525
Journal of Materials Science: Materials in Electronics, 35 (2024) 954
Key Engineering Materials, 928 (2022) 163-175
Journal of dispersion science and technology, 35 (2014) 677-684
Optical Materials, 146 (2023) 114525
Journal of Materials Science: Materials in Electronics, 35 (2024) 954
Key Engineering Materials, 928 (2022) 163-175
Online since: August 2010
Authors: Steven Danyluk, Sum Huan Ng, David Lee Butler, C.S. Leo
Electrokinetic material removal concept
The electrokinetic material removal technique removes material by means of particle impingements
onto the workpiece.
Fig. 4 Material removal on the gold workpiece due to electrokinetic material removal and electrochemical dissolution.
Danyluk, S., et al., Environmentally benign material removal processes for the fabrication of microdevices, in Materials Science Forum. 2009. p. 451-456. 3.
Surface roughness study on electrokinetic material removal technique. in proceeding of ICMAT - International Conference on Materials or Advance Technologies. 2009.
Journal of Micromechanics and Microengineering, 2009. 19(4): p. 045025. 6.
Fig. 4 Material removal on the gold workpiece due to electrokinetic material removal and electrochemical dissolution.
Danyluk, S., et al., Environmentally benign material removal processes for the fabrication of microdevices, in Materials Science Forum. 2009. p. 451-456. 3.
Surface roughness study on electrokinetic material removal technique. in proceeding of ICMAT - International Conference on Materials or Advance Technologies. 2009.
Journal of Micromechanics and Microengineering, 2009. 19(4): p. 045025. 6.
Online since: October 2018
Authors: Oleg V. Burlachenko, Oksana G. Chesnokova, Tatiana F. Cherednichenko
Keywords: thermophysical properties of materials; the thermal conductivity coefficient; the calculation of the temperature fields.
In the last decades developed a number of new building materials.
In this regard, failed to achieve a high quality construction, lower consumption of materials to increase energy efficiency and durability due to use of latest insulation materials and insulating materials [14,15].
One of the most common materials of this type is insulation is the series of "Korund".
The estimated parameters of the materials.
In the last decades developed a number of new building materials.
In this regard, failed to achieve a high quality construction, lower consumption of materials to increase energy efficiency and durability due to use of latest insulation materials and insulating materials [14,15].
One of the most common materials of this type is insulation is the series of "Korund".
The estimated parameters of the materials.
Online since: December 2011
Authors: Zeng Wu Zhao, Yan Li, Fu Shun Zhang, Nai Xiang Feng
Reduction Kinetics of Bayan Obo Coexisted Iron and Niobium Ore by Carbon-bearing Pellet
ZHANG Fushun1,2,a, ZHAO Zengwu3,b, LI Yan3,c, FENG Naixiang1,d
1School of Materials & Metallurgy,Northeastern University, Shenyang, PRC
2 Material and Metallurgy School Inner Mongolia University of Science and Technology, Baotou 014010, PRC
3Inner Mongolia Key Laboratory for Utilization of Bayan Obo Multi-Metallic Resources: Elected State Key Laboratory,Inner Mongolia University of Science and Technology, Baotou 014010, PRC
azhfushun@139.com, bfs.cn@hotmail.com, ccht158@163.com, dtempmails@yeah.net
Keywords: carbon-bearing pellet; coexisted iron and niobium ore; reduction mechanism; controlling step; kinetics
Abstract:The mass loss rate of carbon-bearing pellet of coexisted iron and niobium ore during reduction process was investigated between 900 and 1050℃ in inert atmosphere.
Among these processes, rotary hearth furnace direct reduction by carbon-bearing pellet has the character of faster reaction rate and raw materials adaption easily, which is becoming the research focus on efficient utilization of complex polymetallic ore.
Experimental Methods and Equipment Experimental Materials In the experiment, coexisted iron and niobium ore by mineral processing was chosen as the niobium-bearing material, and its chemical compositions listed in Table 1.
China Powder Science and Technology.
Journal of Iron and Steel Research, Vol.12 No1 (2000)p.5-9 (In Chinese).
Among these processes, rotary hearth furnace direct reduction by carbon-bearing pellet has the character of faster reaction rate and raw materials adaption easily, which is becoming the research focus on efficient utilization of complex polymetallic ore.
Experimental Methods and Equipment Experimental Materials In the experiment, coexisted iron and niobium ore by mineral processing was chosen as the niobium-bearing material, and its chemical compositions listed in Table 1.
China Powder Science and Technology.
Journal of Iron and Steel Research, Vol.12 No1 (2000)p.5-9 (In Chinese).
Online since: December 2011
Authors: Xun Chen, Akinjide Oluwajobi
Since then, the use of the simulation method has extended from Physics to Materials Science and now to Mechanical Engineering.
Wainwright: Journal of Chemical Physics, Vol. 31, (1959), p. 459-466 [3] Rentsch R. and I.
Phys A (Materials Science and Processing), Vol. 94, (2009) p.593-600 [6] J.
Lu: Science China Technological Sciences, Vol. 53, No.3, (2010), p. 870-874 [9] W.C.D.
Tanaka: Key Engineering Materials, Vol. 196, (2001), p. 31-42 [10] Z.
Wainwright: Journal of Chemical Physics, Vol. 31, (1959), p. 459-466 [3] Rentsch R. and I.
Phys A (Materials Science and Processing), Vol. 94, (2009) p.593-600 [6] J.
Lu: Science China Technological Sciences, Vol. 53, No.3, (2010), p. 870-874 [9] W.C.D.
Tanaka: Key Engineering Materials, Vol. 196, (2001), p. 31-42 [10] Z.
Online since: November 2013
Authors: Da Heng Mao, Shao Jun Liu, Yan Mao, Chen Shi, Chen Bing Chen
Introduction
With increasing broaden of research and application of nano materials, nano magnetism, nano ceramic, nano solid lubrication and nano catalyze materials are hopefully applied in large scale, among which, nano solid material is to be one of the most important material.
Preparation of nano materials and their specialities research grows up as one of the most active front in tribology field and gets high attention from material science, physics and chemicals[2].
Meanwhile, material of ball is also correlative with granule size and rigidity of raw material and so on, mohs rigidity of ball should be three times larger than raw material, and the general materials for milling ball are glass, alumina, zirconia, steel etc.
While, mixing speed can’t go up unlimitedly, since it has been limited by factors such as motor power, materials intensity of ball, muddler and mixing barrel.
Journal of Inorganic Chemistry, (2006), Vol.22(9), p.1591~1595.
Preparation of nano materials and their specialities research grows up as one of the most active front in tribology field and gets high attention from material science, physics and chemicals[2].
Meanwhile, material of ball is also correlative with granule size and rigidity of raw material and so on, mohs rigidity of ball should be three times larger than raw material, and the general materials for milling ball are glass, alumina, zirconia, steel etc.
While, mixing speed can’t go up unlimitedly, since it has been limited by factors such as motor power, materials intensity of ball, muddler and mixing barrel.
Journal of Inorganic Chemistry, (2006), Vol.22(9), p.1591~1595.
Online since: April 2014
Authors: Ewa Olejnik, Tomasz Tokarski, Gabriela Sikora, Sebastian Sobula, Beata Grabowska
Barbier, High manganese austenitic twinning induced plasticity steels: A review of the microstructure properties relationships, Current Opinion in Solid State and Materials Science, 15 (4) (2011) 141-168
Mortensen, Al2O3 particle rounding in molten copper and Cu8wt%Al, Journal of Materials Science, 47 (2012) 6346-6353
Merzhanov, A new processing for the self-propagating high- temperature, Journal of Materials Processing Technology, 56 (1996) 222-241
Kusiński, Structure of laser cladded tungsten carbide composite coatings, Journal of Materials Processing Technology, 109 (1-2) (2001) 154-160
Xu, Preparation of in situ-formed WC/Fe composite on gray cast iron substrate by acentrifugal casting process, Journal of Materials Processing Technology, 210 (2010) 1986-1990.
Mortensen, Al2O3 particle rounding in molten copper and Cu8wt%Al, Journal of Materials Science, 47 (2012) 6346-6353
Merzhanov, A new processing for the self-propagating high- temperature, Journal of Materials Processing Technology, 56 (1996) 222-241
Kusiński, Structure of laser cladded tungsten carbide composite coatings, Journal of Materials Processing Technology, 109 (1-2) (2001) 154-160
Xu, Preparation of in situ-formed WC/Fe composite on gray cast iron substrate by acentrifugal casting process, Journal of Materials Processing Technology, 210 (2010) 1986-1990.
Online since: October 2015
Authors: Farah Nora Aznieta Abd Aziz, Arafa Suleiman Juma, M.N. Noor Azline
Australian Journal of Basic and Applied Sciences. 5(5). 990-997
Journal of Materials in Civil Engineering. 23. 499-503
Journal of Materials in Civil Engineering. 16. 623-628
ACI Materials Journal. 89.554-563
Journal of Materials in Civil Engineering. 2(2). 96-105
Journal of Materials in Civil Engineering. 23. 499-503
Journal of Materials in Civil Engineering. 16. 623-628
ACI Materials Journal. 89.554-563
Journal of Materials in Civil Engineering. 2(2). 96-105
Online since: November 2014
Authors: Yan Wang
Catalytic effect of Ti on H-desorption/absorption properties
in MgH2 prepared by ball milling
Yan Wang1, a
1 College of Chemistry and Life Science, Shenyang Normal University, Shenyang 110034, China.
Journal of Materials Chemistry, Vol. 21 (2011) No. 8, p. 2417-2427
Advanced Materials, Vol. 16 (2004) No. 9-10, p. 765-777
Chemistry of Materials, Vol. 20 (2007) No. 2, p. 376-378
Journal of Alloys and Compounds, 292 (1999) No. 1-2, p. 247-252
Journal of Materials Chemistry, Vol. 21 (2011) No. 8, p. 2417-2427
Advanced Materials, Vol. 16 (2004) No. 9-10, p. 765-777
Chemistry of Materials, Vol. 20 (2007) No. 2, p. 376-378
Journal of Alloys and Compounds, 292 (1999) No. 1-2, p. 247-252