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Online since: January 2021
Authors: D. Sathyanarayana, R. Padmapriya
Behaviour of Conventional Concrete Treated with Robo Sand and Iron Shavings
D Satyanarayana1,a and R Padmapriya2,b*
1,2Department of Civil Engineering, Sathyabama Institute of Science and Technology,
Chennai -600 119, India.
Materials Binding Material: The coupling material used in this assessment significantly comprises of Ordinary Portland Cement of 53 Grade Manufactured fine aggregate: Figure 1 M-Sand Manufactured Sand Made from disintegrate of rock material having size under 4.75 mm size utilized being developed of structures.
It is a high constitution material.
Table 1 Material Properties S.
Experimental Analysis Mix Design Concrete Grade Used : M20 Matrix Ratio Used : 1:1.5:3 W/C Ratio : 0.48 Table 2 Mix Details MIX Binding Material (kg) Manufactured Sand (%) Natural Sand (kg) Manufactured Sand(kg) Coarse Aggregate (kg) Iron Shavings ( %) M1 259.2 0 432 0 864 0 M2 259.2 20 345.6 86.4 2 259.2 40 259.2 172.8 4 259.2 60 172.8 359.2 6 259.2 80 86.4 345.6 8 259.2 100 0 432 10 the above table contains quantity details of conventional materials and treated materials used. 4.
Materials Binding Material: The coupling material used in this assessment significantly comprises of Ordinary Portland Cement of 53 Grade Manufactured fine aggregate: Figure 1 M-Sand Manufactured Sand Made from disintegrate of rock material having size under 4.75 mm size utilized being developed of structures.
It is a high constitution material.
Table 1 Material Properties S.
Experimental Analysis Mix Design Concrete Grade Used : M20 Matrix Ratio Used : 1:1.5:3 W/C Ratio : 0.48 Table 2 Mix Details MIX Binding Material (kg) Manufactured Sand (%) Natural Sand (kg) Manufactured Sand(kg) Coarse Aggregate (kg) Iron Shavings ( %) M1 259.2 0 432 0 864 0 M2 259.2 20 345.6 86.4 2 259.2 40 259.2 172.8 4 259.2 60 172.8 359.2 6 259.2 80 86.4 345.6 8 259.2 100 0 432 10 the above table contains quantity details of conventional materials and treated materials used. 4.
Online since: March 2015
Authors: Qiu Ming Peng, Xue Cheng Cai, Da Qing Fang
Phase Compositions of a Mg-Dy-Zn Alloy Containing LPSO Structures
Xuecheng Cai1, a, Qiuming Peng1, b, * and Daqing Fang2, c
1State Key Laboratory of Metastable Materials Science and Technology, Yanshan University, Qinhuangdao, 066004, China
2School of Materials Science and Engineering, Taiyuan University of Science and Technology,
Taiyuan, 030024, China.
:Materials Transactions, 2001. 42: p. 1171-1174
[6] Bi, G., et al.: Materials Science and Engineering A, 2011. 528(10–11): p. 3609-3614
[7] Zhang, J.S., et al.: Materials Science and Engineering: A, 2013. 560: p. 847-850
Zhang:Journal of materials science letters, 2000. 19(9): p. 813-815
:Materials Transactions, 2001. 42: p. 1171-1174
[6] Bi, G., et al.: Materials Science and Engineering A, 2011. 528(10–11): p. 3609-3614
[7] Zhang, J.S., et al.: Materials Science and Engineering: A, 2013. 560: p. 847-850
Zhang:Journal of materials science letters, 2000. 19(9): p. 813-815
Online since: June 2012
Authors: Ji Xiang Zhang, Hui Wen, Wei Feng, Guo Yin An
Zhao: Automobile Technology & Material (1997) No.1, p. 19(in Chinese)
[3] Olaf Engler, Jurgen Hirsch: Matererial Science and Engineering (2002), p. 249
[4] Anyalebechi, P.N: TMS Annual Meeting (2006), p. 733
[5] Suhuddin, U.F.H.R: Materials Science and Engineering A Vol.527 (2010) No.7-8, p. 1962
[6] R.S.
Yuan: Journal of Materials Processing Technology Vol.211 (2011) NO.6, P. 972 [8] Y.
Jin: Transactions of Materials And Heat Treatment Vol.25 (2004) NO.4, p 34(in Chinese) [9] J.
Zhang, et al: Advanced Materials Research Vol. 228-229 (2011), p.1112 [10] Y.
Mao: Chinese Journal of Rare Metlas Vol. 33 (2009) NO. 3, p. 318(in Chinese) [12] H.
Yuan: Journal of Materials Processing Technology Vol.211 (2011) NO.6, P. 972 [8] Y.
Jin: Transactions of Materials And Heat Treatment Vol.25 (2004) NO.4, p 34(in Chinese) [9] J.
Zhang, et al: Advanced Materials Research Vol. 228-229 (2011), p.1112 [10] Y.
Mao: Chinese Journal of Rare Metlas Vol. 33 (2009) NO. 3, p. 318(in Chinese) [12] H.
Online since: December 2014
Authors: Monika Božiková, Peter Hlaváč
The knowledge about physical properties of packaging materials is also important [4].
The knowledge of physical properties of food materials has a decisive importance for the implementation of many technological processes, especially for monitoring their quality [5].
Very interesting is the monitoring of material quality in the food industry, especially it is very convenient for food materials with a short expiration time as dairy products.
Hlaváč, Selected physical properties of agricultural and food materials, SUA in Nitra, Nitra, 2010
Caldwell, Shelf-life pasteurized fluid milk as affected by age of raw milk, Journal of Diary Science, (1982) 2233–2236
The knowledge of physical properties of food materials has a decisive importance for the implementation of many technological processes, especially for monitoring their quality [5].
Very interesting is the monitoring of material quality in the food industry, especially it is very convenient for food materials with a short expiration time as dairy products.
Hlaváč, Selected physical properties of agricultural and food materials, SUA in Nitra, Nitra, 2010
Caldwell, Shelf-life pasteurized fluid milk as affected by age of raw milk, Journal of Diary Science, (1982) 2233–2236
Online since: July 2016
Authors: Yue Hu, Hui Xu, C. Wu, L.J. Yang, Nan Chun Chen, L.L. Ma, S.J. Luo, Y.C. Pei, S.S. Gao
Gao1
1Guangxi key Laboratory of Processing for Non-ferrous Metals and Featured Materials, College of Materials Science and Engineering, Guilin University of Technology, Guilin 541004, China
2Guangxi Colleges and Universities Key Laboratory of Heavy Metal Pollution Prevention Theory and Technology.
Experimental Materials.
Microporous and Mesoporous Materials, 2007, 105(9): 49~57
Advanced Materials Research, 2013, 624: 283~286
Microporous and Mesoporous Materials, 2012, 106: 126~132
Experimental Materials.
Microporous and Mesoporous Materials, 2007, 105(9): 49~57
Advanced Materials Research, 2013, 624: 283~286
Microporous and Mesoporous Materials, 2012, 106: 126~132
Online since: March 2008
Authors: Yin Hui Huang, Li Da Shen, Zong Jun Tian, Guo Ran Hua
These materials have shown new and exciting mechanical and physical properties.
Experimental Procedure Materials.
And the calculated results show that the grain size is about 40nm nearly as same as that of raw nano materials.
Hua: Key Engineering Materials, Vol.329 (2007), pp.613-618
Kuntz and et al: Materials Science & Engineering A, Vol.394 (2005), pp.353-359
Experimental Procedure Materials.
And the calculated results show that the grain size is about 40nm nearly as same as that of raw nano materials.
Hua: Key Engineering Materials, Vol.329 (2007), pp.613-618
Kuntz and et al: Materials Science & Engineering A, Vol.394 (2005), pp.353-359
Online since: August 2012
Authors: Guo Ping Jiang, Yao Qiu Long
The experiments
2.1 Materials preparation
The strength grade of cement is P·II 52.5 according to the relevant China standard.
The intensity of the materials is ignored to investigate the dynamic characters of materials under high pressures.
Sichuan Ordnance Journal, 1994,15 (04):25-29
Sichuan Ordnance Journal, 1995,(01):54-59
JOURNAL OF HUNAN UNIVERSITY,2003,30(3):15-18
The intensity of the materials is ignored to investigate the dynamic characters of materials under high pressures.
Sichuan Ordnance Journal, 1994,15 (04):25-29
Sichuan Ordnance Journal, 1995,(01):54-59
JOURNAL OF HUNAN UNIVERSITY,2003,30(3):15-18
Online since: September 2013
Authors: A. Kandasamy, Rekha G. Pai
Recently, there has been an increasing interest in problems involving materials with variable viscosity such as Bingham materials, Casson fluids and Hershel-Bulkly fluids which are characterized by a yield value.
This indicates that plug core will be very high for materials having thick viscosity, like mineral oils and polymer thickened fluid.
Batra and BigyaniJena: Entrance Region Flow of Blood in Concentric Annulus, International Journal of Engineering Science, Vol. 28 (1990), p. 407-419
[3] P.N.Tandon, L.M.Srivastava and K.Kushwaha: Developing Blood Flow in the Entrance Region of an Artery, International Journal of Bio-Medical Computing, Vol. 36 (1994), p. 257-265
[10] A.Kandasamy and Rekha.G.Pai: Entrance Region Flow of Casson Fluid in a Circular Tube, Applied Mechanics and Materials, Vol.110-116 (2012), p. 698-706.
This indicates that plug core will be very high for materials having thick viscosity, like mineral oils and polymer thickened fluid.
Batra and BigyaniJena: Entrance Region Flow of Blood in Concentric Annulus, International Journal of Engineering Science, Vol. 28 (1990), p. 407-419
[3] P.N.Tandon, L.M.Srivastava and K.Kushwaha: Developing Blood Flow in the Entrance Region of an Artery, International Journal of Bio-Medical Computing, Vol. 36 (1994), p. 257-265
[10] A.Kandasamy and Rekha.G.Pai: Entrance Region Flow of Casson Fluid in a Circular Tube, Applied Mechanics and Materials, Vol.110-116 (2012), p. 698-706.
Online since: October 2015
Authors: Nick S. Bennett, Neil M. Wight
Bennett 1, b *
1 Nano-Materials Lab., Institute of Mechanical, Process & Energy Engineering, School of Engineering & Physical Sciences, Heriot-Watt University, Edinburgh, United Kingdom
a nmw30@hw.ac.uk, b n.bennett@hw.ac.uk
Keywords: thermoelectric; silicon; thermal conductivity; thin-film; vacancy
Abstract.
Compared to other materials, highly-doped Si has a large PF, but this is outweighed by high k, meaning that ZT is poor for bulk Si (ZT ~ 0.01 at 300 K [1]), about 100-fold worse than for popular TE materials such as bismuth telluride (ZT ~ 1).
Heath, Silicon nanowires as efficient thermoelectric materials, Nature 451 (2008) 168–171
Materials Science and Engineering R 67 (2010) 19-63
Journal of Physics: Conference Series 265 (2011) 012001.
Compared to other materials, highly-doped Si has a large PF, but this is outweighed by high k, meaning that ZT is poor for bulk Si (ZT ~ 0.01 at 300 K [1]), about 100-fold worse than for popular TE materials such as bismuth telluride (ZT ~ 1).
Heath, Silicon nanowires as efficient thermoelectric materials, Nature 451 (2008) 168–171
Materials Science and Engineering R 67 (2010) 19-63
Journal of Physics: Conference Series 265 (2011) 012001.
Online since: August 2016
Authors: Efrain Carreño-Morelli, J. Eric Bidaux, Mikel Rodriguez-Arbaizar, Lionel Reynard, Hervé Girard, Jacques Chevallier, François Aeby, Jean Charles Giachetto, Alexandra Amherd Hidalgo
Ren, Physical metallurgy of Ti-Ni-based shape memory alloys, Progress in Materials Science 50 (2005) 511-678
[3] A.
Powder Metallurgical fabrication processes for NiTi shape memory alloy parts, Materials Science and Engineering A337 (2002) 254-263 [5] Ph.
Mechanical Behaviour of NiTi parts prepared by powder metallurgical methods, Materials Science and Engineering, Vol A378 (2004) 185-190 [10] L.
Reproducibility study of NiTi parts made by Metal Injection Molding, Journal of Materials Engineering and Performance (2012) DOI: 10.1007/s11665-012-0264-6 [12] E.
Stöver, Journal of Materials Science, 40 (2005) pp.4231-4238 [13] J.
Powder Metallurgical fabrication processes for NiTi shape memory alloy parts, Materials Science and Engineering A337 (2002) 254-263 [5] Ph.
Mechanical Behaviour of NiTi parts prepared by powder metallurgical methods, Materials Science and Engineering, Vol A378 (2004) 185-190 [10] L.
Reproducibility study of NiTi parts made by Metal Injection Molding, Journal of Materials Engineering and Performance (2012) DOI: 10.1007/s11665-012-0264-6 [12] E.
Stöver, Journal of Materials Science, 40 (2005) pp.4231-4238 [13] J.