Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: December 2012
Authors: Prakash J. Udaya, T.V. Moorthy
Introduction
Nowadays materials are tailor made for particular applications inorder to meet specific design criteria (El Baradie (1)).
In MMCs Aluminium and its alloys are the most frequently used matrix materials due to their low density and moderate strength.
References [1] El Baradie, M.A., 1990, Journal of Materials Processing Technology, Vol.24, pp.261-272
[6] Ipek, R., 2005, “Adhesive wear behaviour of B4C and SiC reinforced 4147 Al matrix composites”, Journal of Materials Processing Technology, Vol.162-163, pp.71-75
[7] Rohatgi, P.K., 1994, “Low-cost, fly ash containing aluminium matrix composites”, Journal of Materials, Vol.46, pp.55-59
In MMCs Aluminium and its alloys are the most frequently used matrix materials due to their low density and moderate strength.
References [1] El Baradie, M.A., 1990, Journal of Materials Processing Technology, Vol.24, pp.261-272
[6] Ipek, R., 2005, “Adhesive wear behaviour of B4C and SiC reinforced 4147 Al matrix composites”, Journal of Materials Processing Technology, Vol.162-163, pp.71-75
[7] Rohatgi, P.K., 1994, “Low-cost, fly ash containing aluminium matrix composites”, Journal of Materials, Vol.46, pp.55-59
Online since: September 2011
Authors: Zhi Xi Li, Hua Dong Xie, Li Jun Bu, Xiang Wei Peng
The first criterion used to differentiate vinegars was the type of raw materials of vinegars.
Three trends can be observed: Vinegars with different raw materials could be classed in different groups, this owing to vinegars made of different materials with different ingredients and contents in the vinegar fermentation modes[36,37,38,39]; Group B, E and F were proximity may be owing to the single type material; Samples with the same raw materials could be classed in the same group.
The classification of the vinegars according to six kinds of materials is absolutely correct.
Journal of Food Engineering.
Journal of Chromatography A.
Three trends can be observed: Vinegars with different raw materials could be classed in different groups, this owing to vinegars made of different materials with different ingredients and contents in the vinegar fermentation modes[36,37,38,39]; Group B, E and F were proximity may be owing to the single type material; Samples with the same raw materials could be classed in the same group.
The classification of the vinegars according to six kinds of materials is absolutely correct.
Journal of Food Engineering.
Journal of Chromatography A.
Online since: March 2010
Authors: Chong Hai Xu, Chuan Zhen Huang, Sheng Sun, Bin Fang
The details of simulation model and Monte Carlo
algorithm for two-phase ceramic tool materials have been given [7, 8].
Fig.1 SEM micrograph of Al2O3/SiC ceramic tool materials Simulation Results and Discussion The simulation of microstructure evolution for two-phase ceramic tool materials at the different simulation time (MCS) is shown in Fig.2.
The microstructure evolution for two-phase ceramic tool materials is simulated at the different duration time.
SEM micrographs of Al2O3/5vol% SiC ceramic tool materials Acknowledgements This project is supported by National Outstanding Young Scholar Science Foundation of NSFC (50625517) and Excellent Younger Scientist Foundation of Shandong Province (No.2008BS05005).
Journal of the European Ceramic Society 19 (1999), p. 615 [2] B.
Fig.1 SEM micrograph of Al2O3/SiC ceramic tool materials Simulation Results and Discussion The simulation of microstructure evolution for two-phase ceramic tool materials at the different simulation time (MCS) is shown in Fig.2.
The microstructure evolution for two-phase ceramic tool materials is simulated at the different duration time.
SEM micrographs of Al2O3/5vol% SiC ceramic tool materials Acknowledgements This project is supported by National Outstanding Young Scholar Science Foundation of NSFC (50625517) and Excellent Younger Scientist Foundation of Shandong Province (No.2008BS05005).
Journal of the European Ceramic Society 19 (1999), p. 615 [2] B.
Online since: July 2020
Authors: Mohd Sabri Mohd Ghazali, Wan Rafizah Wan Abdullah, Maishara Syazrinni Rooshde, Noradhiha Farahin Ibrahim, Amie Zaidah Amran, Fazilah Ariffin
amysara.rinni@gmail.com, b*wanrafizah@umt.edu.my, camyaida94@gmail.com dadhiha.ibrahim@gmail.com, efazilah@umt.edu.my and fmohdsabri@umt.edu.my,
Keywords: Ce doped ZnO, photocatalytic treatment, E. coli, S. aureus, antifouling, rare earth materials
Abstract.
Therefore, a novel antifouling based materials with the incorporation of nanotechnology has been developed for the prevention of biofouling in its initial stage through photocatalytic treatment.
In addition to that, very limited works reported the efficiency of these catalytic materials for removal of microbial pollutants or antifouling agent.
Kim, Inverted polymer solar cells with brush-painted ZnO electron transport layer, Journal of industrial and engineering chemistry. 59 (2018) 335-340
Ursu, New insights into structural and magnetic properties of Ce doped ZnO nanoparticles, Journal of Alloys and Compounds. 757 (2018) 60-69
Therefore, a novel antifouling based materials with the incorporation of nanotechnology has been developed for the prevention of biofouling in its initial stage through photocatalytic treatment.
In addition to that, very limited works reported the efficiency of these catalytic materials for removal of microbial pollutants or antifouling agent.
Kim, Inverted polymer solar cells with brush-painted ZnO electron transport layer, Journal of industrial and engineering chemistry. 59 (2018) 335-340
Ursu, New insights into structural and magnetic properties of Ce doped ZnO nanoparticles, Journal of Alloys and Compounds. 757 (2018) 60-69
Online since: January 2016
Authors: Mohd Mustafa Al Bakri Abdullah, Henry Limantono, Tri Eddy Susanto Susanto, Januarti Jaya Ekaputri, Triwulan Triwulan
Fiber from natural source or synthetic materials usually was applied during mixing.
Aggarwal, "Utilisation of Waste Glass Powder in Concrete - A Literature Review," International Journal of Innovative Research in Science, Engineering and Technology, vol.
Lubell, "Influence of Specimen Size and Fiber Content on Mechanical Properties of Ultra-High-Performance Fiber-Reinforced Concrete," ACI Materials Journal, Vols.
Kenai, "Silica Fume Effect on Hydration Heat and Compressive Strength on High-Performance Concrete," ACI Materials Journal, Vols.
Rushing, "Composite Properties of High-Strength, High-Ductility Concrete," ACI Materials Journal, Vols.
Aggarwal, "Utilisation of Waste Glass Powder in Concrete - A Literature Review," International Journal of Innovative Research in Science, Engineering and Technology, vol.
Lubell, "Influence of Specimen Size and Fiber Content on Mechanical Properties of Ultra-High-Performance Fiber-Reinforced Concrete," ACI Materials Journal, Vols.
Kenai, "Silica Fume Effect on Hydration Heat and Compressive Strength on High-Performance Concrete," ACI Materials Journal, Vols.
Rushing, "Composite Properties of High-Strength, High-Ductility Concrete," ACI Materials Journal, Vols.
Online since: March 2015
Authors: Hong Hao Ma, Zhao Wu Shen, De Bao Wang, Wei Chen
For this device, the shell materials are used to be shaped materials and multiple shaped ring is designed on the circular tube.
Fig.4 Experiment result of first witness plate for radial shaped charge Borehole blasting experiment Materials and design In this experimental, cylindrical copper pipe is used as cartridge case, the length and external diameter of the copper pipe are especially 320mm and 16mm, and the thickness of the shell is 1mm.
Acknowledge: This work was supported by the National Fund of Nature Science of China.
Beijing: Science Press (2011).
O, USA, Patent 4,724,105. (1988) [6] Yingcai ZHANG, Yu-ning SUN, Guan-jun FENG: Mechanics in Engineering, 19 (1997), p. 54 (In Chinese) [7] Hong-bing XIA, Lei LI, Hong-hao MA: Chinese Journal of Energetic Materials, 21 (2013), p. 85 (In Chinese) [8] Xin-hui LI, Pin GAO: Blasting, 25 (2008), p. 79 (In Chinese) [9] Guo-liang YANG, Ren-shu YANG, Qiang TONG: Journal of China Coal Society, 37 (2012), p. 385 (In Chinese) [10] Yong LUO, Zhao-wu SHEN: Explosion and Shock Waves, 26 (2006), p. 250 (In Chinese) [11] Yao ZHOU, Xiao-lin LI, Yan-jun TONG, et.al: Chinese Journal of Explosives & Propellants, 29 (2006), p. 70 (In Chinese) [12] Yong LUO, Zhao-wu SHEN, Xiao-rong CUI: Chinese Journal of Energetic Materials, 14(2006), p. 236 (In Chinese)
Fig.4 Experiment result of first witness plate for radial shaped charge Borehole blasting experiment Materials and design In this experimental, cylindrical copper pipe is used as cartridge case, the length and external diameter of the copper pipe are especially 320mm and 16mm, and the thickness of the shell is 1mm.
Acknowledge: This work was supported by the National Fund of Nature Science of China.
Beijing: Science Press (2011).
O, USA, Patent 4,724,105. (1988) [6] Yingcai ZHANG, Yu-ning SUN, Guan-jun FENG: Mechanics in Engineering, 19 (1997), p. 54 (In Chinese) [7] Hong-bing XIA, Lei LI, Hong-hao MA: Chinese Journal of Energetic Materials, 21 (2013), p. 85 (In Chinese) [8] Xin-hui LI, Pin GAO: Blasting, 25 (2008), p. 79 (In Chinese) [9] Guo-liang YANG, Ren-shu YANG, Qiang TONG: Journal of China Coal Society, 37 (2012), p. 385 (In Chinese) [10] Yong LUO, Zhao-wu SHEN: Explosion and Shock Waves, 26 (2006), p. 250 (In Chinese) [11] Yao ZHOU, Xiao-lin LI, Yan-jun TONG, et.al: Chinese Journal of Explosives & Propellants, 29 (2006), p. 70 (In Chinese) [12] Yong LUO, Zhao-wu SHEN, Xiao-rong CUI: Chinese Journal of Energetic Materials, 14(2006), p. 236 (In Chinese)
Online since: May 2019
Authors: Rinlee Butch M. Cervera, James Francis Imperial
And one way to realize such application is to enhance the properties of these electrode materials at intermediate temperatures.
One of the promising electrode materials is the Ni and YSZ ceramic metal (cermet) composite.
Yamaguchi: Chemistry of Materials 25 (2013), pp. 1483−1489
Senthil Kumar, et al.: Applied Surface Science 389 (2016), pp 983–989
Cervera: Applied Sciences, 9(2) (2019), 264.
One of the promising electrode materials is the Ni and YSZ ceramic metal (cermet) composite.
Yamaguchi: Chemistry of Materials 25 (2013), pp. 1483−1489
Senthil Kumar, et al.: Applied Surface Science 389 (2016), pp 983–989
Cervera: Applied Sciences, 9(2) (2019), 264.
Online since: November 2015
Authors: Neel Kanth Grover, Amandeep Singh, Ajay Sharma
Fig. 1 EDM process
Materials used
Work piece material
The work piece material used for the experiment is AISI D3 steel of size 50 mm×40 mm×10 mm.
Singh, Effect of Pulse on/Pulse off Time on Machining of AISI D3 Die Steel using copper and Brass Electrode in EDM, International Journal of Engineering and Science. 1 (2012) 19-22
Senthilvelan, Effect of Electrode Materials on Electric Discharge Machining of 316 L and 17-4 PH Stainless Steels, Journal of Minerals and Materials Characterization and Engineering. 11 (2012) 685-690
Lebrun, Influence of EDM pulse energy on the surface integrity of martensitic steels, Journal of Materials Processing Technology. 84 (1998) 90–96
Sehgalb, V.S Sharma, Cryogenic treatment of tool materials: a review, Mater Manuf Process. 25 (2010) 1077–1100
Singh, Effect of Pulse on/Pulse off Time on Machining of AISI D3 Die Steel using copper and Brass Electrode in EDM, International Journal of Engineering and Science. 1 (2012) 19-22
Senthilvelan, Effect of Electrode Materials on Electric Discharge Machining of 316 L and 17-4 PH Stainless Steels, Journal of Minerals and Materials Characterization and Engineering. 11 (2012) 685-690
Lebrun, Influence of EDM pulse energy on the surface integrity of martensitic steels, Journal of Materials Processing Technology. 84 (1998) 90–96
Sehgalb, V.S Sharma, Cryogenic treatment of tool materials: a review, Mater Manuf Process. 25 (2010) 1077–1100
Online since: December 2010
Authors: Ruzainah Abdullah, Hasmaliza Mohamad, Srimala Sreekantan
Alumina fiber products have high modulus and strength that are resistant toward the attacks of molten metals and non-oxide materials up to 1000°C.
Azad (2006): Materials Science and Engineering, Vol.
Ramakrishna (2007): Journal of Materials Science, Vol. 42(6), p. 2189-2193
Aleksic: Materials Letters, Vol. 42(6), p. 350-355
Kug (1999): Journal of Colloid and Interface Science, Vol. 211, p. 110-113.
Azad (2006): Materials Science and Engineering, Vol.
Ramakrishna (2007): Journal of Materials Science, Vol. 42(6), p. 2189-2193
Aleksic: Materials Letters, Vol. 42(6), p. 350-355
Kug (1999): Journal of Colloid and Interface Science, Vol. 211, p. 110-113.
Online since: November 2015
Authors: R. Saravanan, P. Sabarinath, M.R. Thansekhar, R. Jeganathan
Abstract
Mechanical design engineers design products by selecting the best possible materials and geometries that satisfies the specific operational requirements of the design.
The materials considered for the gear pair are given below.
V.Srinivasa Raman, A Performance Study of Real Coded Genetic Algorithm on Gear Design Optimization, Advanced Materials Research, Vols. 622-623, pp 64-68 (2013) [2] Tribhuwan Singh, Mohd.
Parvez, Comparative Study Stress Analysis of Helical Gear using AGMA Standards and FEM, International Journal of Engineering Sciences & Research Technology, ISSN:2277-9655 (2013) [3] B.Venkatesh, V.
Kumar, Parameter adaptive harmony search algorithm for unimodal and multimodal optimization problems, Journal of Computational Science, vol. 5, no.2, pp. 144–155 (2014)
The materials considered for the gear pair are given below.
V.Srinivasa Raman, A Performance Study of Real Coded Genetic Algorithm on Gear Design Optimization, Advanced Materials Research, Vols. 622-623, pp 64-68 (2013) [2] Tribhuwan Singh, Mohd.
Parvez, Comparative Study Stress Analysis of Helical Gear using AGMA Standards and FEM, International Journal of Engineering Sciences & Research Technology, ISSN:2277-9655 (2013) [3] B.Venkatesh, V.
Kumar, Parameter adaptive harmony search algorithm for unimodal and multimodal optimization problems, Journal of Computational Science, vol. 5, no.2, pp. 144–155 (2014)