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Online since: April 2011
Authors: Adalto Farias, Sergio Delijaicov, Marco Stipkovic Filho, Gilmar F. Batalha
Batalha 1,d
1 University of Sao Paulo - Escola Politecnica - Dept. of Mechatronics and Mechanical Systems Engineering - Laboratory of Manufacturing Engineering - Av.
Surface generation engineering is not limited to a numeric value allocation to part surface conditions.
Identifying and assigning functional values that will influence performance when the part is at working condition is the main goal of surface engineering.
Wanat, T., 2007, Surface finish on hardened bearing steel parts produced by super hard and abrasive tools, International Journal of Machine Tools and Manufacture, Vol. 47, (2007), pp. 255–262
Wanat, Surface finish generated in hard turning of quenched alloy steel parts using conventional and wiper ceramic inserts, International Journal of Machine Tools & Manufacture, Vol. 46, (2006), p. 1988–1995.
Surface generation engineering is not limited to a numeric value allocation to part surface conditions.
Identifying and assigning functional values that will influence performance when the part is at working condition is the main goal of surface engineering.
Wanat, T., 2007, Surface finish on hardened bearing steel parts produced by super hard and abrasive tools, International Journal of Machine Tools and Manufacture, Vol. 47, (2007), pp. 255–262
Wanat, Surface finish generated in hard turning of quenched alloy steel parts using conventional and wiper ceramic inserts, International Journal of Machine Tools & Manufacture, Vol. 46, (2006), p. 1988–1995.
Online since: January 2022
Authors: Philippe Glé, Emmanuel Gourdon, Antonin Fabbri, Mohammed Yacine Ferroukhi, Fionn McGregor, Mohamed Said Abbas
Journal of Applied Physics, 70, 1975–1979
[15] International Organization for Standardization. (2007).
[16] International Organization for Standardization. (2016).
Journal of the American Ceramic Society, 37(2), 96–99
Journal of Building Engineering, 28(October 2019). https://doi.org/10.1016/j.jobe.2019.101088 [27] Olny, X., & Panneton, R. (2008).
[15] International Organization for Standardization. (2007).
[16] International Organization for Standardization. (2016).
Journal of the American Ceramic Society, 37(2), 96–99
Journal of Building Engineering, 28(October 2019). https://doi.org/10.1016/j.jobe.2019.101088 [27] Olny, X., & Panneton, R. (2008).
Online since: July 2014
Authors: G. Ugrasen, Varun R. Dalve, C.P.S. Prakash, R. Keshavamurthy
Experimental Investigations on Wire EDM of Al7075-TiB2 In-situ metal matrix composite
Varun R Dalve1,a, R.Keshavamurthy2,b, G.Ugrasen3,c, C.P.S.Prakash4,d
1 PG Student, Dept. of Mechanical Engineering, Dayananda Sagar College of Engineering, Bangalore-560 078, Karnataka, INDIA
2 Associate Professor, Dept. of Mechanical Engineering, Dayananda Sagar College of Engineering, Bangalore-560 078, Karnataka, INDIA
3 Assistant Professor, Dept. of Mechanical Engineering, B M S College of Engineering, Bangalore-560 019, Karnataka, INDIA
4 Professor, Dept. of Mechanical Engineering, Dayananda Sagar College of Engineering, Bangalore-560 078, Karnataka, INDIA
avdalve45@gmail.com, bkeshavamurthy.r@gmail.com, cugrasen.g@gmail.com,
d cpsprakash@hotmail.com,
Keywords: Wire EDM, Taguchi, In-situ composites, Titanium di-boride.
Among all non conventional techniques EDM is extensively used method to machine intricate shapes in hi-tech engineering applications.
Sornakumar: Journal of Minerals & Materials Characterization & Engineering Vol. 9(2010), No.1, p.79-88
Pramod: Tribology International Vol. 43(2010), P. 623–634
Keshavamurthy: Materials Science and Engineering A, 528, 12 (2011), p. 4125-4132
Among all non conventional techniques EDM is extensively used method to machine intricate shapes in hi-tech engineering applications.
Sornakumar: Journal of Minerals & Materials Characterization & Engineering Vol. 9(2010), No.1, p.79-88
Pramod: Tribology International Vol. 43(2010), P. 623–634
Keshavamurthy: Materials Science and Engineering A, 528, 12 (2011), p. 4125-4132
Online since: April 2022
Authors: Piyathida Karnsarng, Kwanrat Suanpong, Parames Chutima
International.
Research Journal of Engineering and Technology, Vol. 3 (2016), p. 2347-2349
Key Engineering Materials, Vol. 891 (2021), p. 174-182
Key Engineering Materials, Vol. 981 (2021), p. 167-173
International Journal of machine tools and manufacture, Vol. 50 (2010), p. 911-916
Research Journal of Engineering and Technology, Vol. 3 (2016), p. 2347-2349
Key Engineering Materials, Vol. 891 (2021), p. 174-182
Key Engineering Materials, Vol. 981 (2021), p. 167-173
International Journal of machine tools and manufacture, Vol. 50 (2010), p. 911-916
Online since: May 2016
Authors: Kazuhiro Nogita, K.M. Watling, A. Chandler-Temple
Britton, Tin versus corrosion, International Tin Research Institute, Middlesex, 1975
Whang, Advanced Engineering Materials, 8 (2006) 111
Lin, Journal of Electronic Materials, 32 (2003) 1111
Aldinger, Journal of the American Ceramic Society, 87 (2004) 683
Gonbeau, Journal of Power Sources 174 (2007) 1086
Whang, Advanced Engineering Materials, 8 (2006) 111
Lin, Journal of Electronic Materials, 32 (2003) 1111
Aldinger, Journal of the American Ceramic Society, 87 (2004) 683
Gonbeau, Journal of Power Sources 174 (2007) 1086
Online since: August 2015
Authors: Miloslav Novotný, Karel Šuhajda, Jindřich Sobotka, Zdeněk Jiroušek
Drying Technologies in Masonry Structures
NOVOTNÝ Miloslav1, a *, ŠUHAJDA Karel1, b, SOBOTKA Jindřich1, c and JIROUŠEK Zdeněk2, d
11Brno University of technology, Faculty of civil engineering, Institute of building structures, Veveří 331/95, 602 00 Brno, Czech Republic
2S.P.UNI, s.r.o., Řetová 145, 561 41 Řetová, Czech republic
anovotny.m@fce.vutbr.cz, bsuhajda.k@fce.vutbr.cz, csobotka.j@fce.vutbr.cz, dspuni@spuni.cz
Keywords: microwave heating, microwave technology, capillary transport, natural drying, drying of masonry, masonry moisture, high-frequency electromagnetic (EMW) radiation.
For example, when drying certain built-up structures, or cavernous ceramic materials.
It includes mainly ceramics, stone, concrete, wood, and so on.
Šuhajda, Likvidace a sterilizace biotických činitelů pomocí mikrovlnné technologie, Sanace a rekonstrukce staveb 2012, CRRB-14 International Conference on Rehabilitation and Reconstruction of Building- Vědeckotechnická společnost pro sanace staveb a péči o památky - WTA CZ
Škramlík, Monitoring of Effectivity of Microwave Desiccation by Means of rod plug-in Antenna, článek v The e-Journal of Nondestructive Testing, Journal & Exhibition of non destructive Testing, Kirchwald, Germany, 2008
For example, when drying certain built-up structures, or cavernous ceramic materials.
It includes mainly ceramics, stone, concrete, wood, and so on.
Šuhajda, Likvidace a sterilizace biotických činitelů pomocí mikrovlnné technologie, Sanace a rekonstrukce staveb 2012, CRRB-14 International Conference on Rehabilitation and Reconstruction of Building- Vědeckotechnická společnost pro sanace staveb a péči o památky - WTA CZ
Škramlík, Monitoring of Effectivity of Microwave Desiccation by Means of rod plug-in Antenna, článek v The e-Journal of Nondestructive Testing, Journal & Exhibition of non destructive Testing, Kirchwald, Germany, 2008
Online since: April 2019
Authors: Gajanan Arbade, R.K. Sharma, Sachin Kadam, Shivaji Kashte
In the bone tissue engineering composite scaffolds with osteogenic potential are emerging as the new tool.
PCL is biocompatible, biodegradable and has been used largely in tissue engineering applications.
O’Brien, Biomaterials & scaffolds for tissue engineering, Mater.
R Mehta, K Teware, International Journal Of Ayurvedic And Herbal Medicine 2 : 4 ( 2012 ) 661 : 678, Int.
Chua, The design of scaffolds for use in tissue engineering.
PCL is biocompatible, biodegradable and has been used largely in tissue engineering applications.
O’Brien, Biomaterials & scaffolds for tissue engineering, Mater.
R Mehta, K Teware, International Journal Of Ayurvedic And Herbal Medicine 2 : 4 ( 2012 ) 661 : 678, Int.
Chua, The design of scaffolds for use in tissue engineering.
Online since: February 2014
Authors: Sidxay Makvilay, Wipada Sanongraj, Wipawee Khamwichit
Preparation and Characterization of the TiO2 Coated Silk Fibroin Filters
Sidxay Makvilay1,a, Wipada Sanongraj1,b*, and Wipawee Khamwichit2,c
1Department of Chemical Engineering, Faculty of Engineering, Ubon Ratchathani University, Ubonratchathani 34190, Thailand.
2Institute of Engineering and Resources, Walailak University, Thasala, Nakon Sithammarat 80160, Thailand
a(e-mail: hitmini@yahoo.com), b(e-mail: wipadadechapanya@yahoo.com),
c (e-mail: kwipawee@wu.ac.th)
Keywords: Silk fibroin Filter, TiO2, SEM, band gap energy
Abstract.
Sanongraj, “Synthesis of silk fibroin fiber for indoor air particulate removal”, International Journal of Environmental Science and Engineering, Vol. 2,(3): 2010, pp 132-137
Ray, “Removal of toxic metal ions from wastewater by semiconductor photocatalysis”, Chemical Engineering Science, Vol. 56, 2001, pp. 1561-1570
Nakaruk, “Synthesis and Characterisation of Titania Thin Films” , Materials Science and Engineering Faculty of Science University of New South Wales, 2010
Himmelblau, “Basic Principles and Calculations in Chemical Engineering”, Prentice Hall, Sixth Edition, 1996
Sanongraj, “Synthesis of silk fibroin fiber for indoor air particulate removal”, International Journal of Environmental Science and Engineering, Vol. 2,(3): 2010, pp 132-137
Ray, “Removal of toxic metal ions from wastewater by semiconductor photocatalysis”, Chemical Engineering Science, Vol. 56, 2001, pp. 1561-1570
Nakaruk, “Synthesis and Characterisation of Titania Thin Films” , Materials Science and Engineering Faculty of Science University of New South Wales, 2010
Himmelblau, “Basic Principles and Calculations in Chemical Engineering”, Prentice Hall, Sixth Edition, 1996
Online since: January 2018
Authors: X.N. Mu, H.N. Cai, Hong Mei Zhang, Q.B. Fan, Y. Wu
Rare metal materials and engineering, 8 (2008) 1400-1402
Rare metal materials and engineering, 12 (2010) 2173-2176
Ordnance Material Science and Engineering. 11 (1991) 40-47
International Journal of Impact Engineering. 31 (2005) 735-754
Materials Science and Engineering A, 687 (2017):164-174.
Rare metal materials and engineering, 12 (2010) 2173-2176
Ordnance Material Science and Engineering. 11 (1991) 40-47
International Journal of Impact Engineering. 31 (2005) 735-754
Materials Science and Engineering A, 687 (2017):164-174.
Online since: November 2013
Authors: Khairur Rijal Jamaludin, Norhamidi Muhamad, Sri Yulis M. Amin
Amin1,2,a*, Norhamidi Muhamad1,b and Khairur Rijal Jamaludin3,c
1 Precision Process Research Group, Dept. of Mechanical and Materials Engineering, Faculty of Engineering ,Universiti Kebangsaan Malaysia, 43600 Bangi, Selangor Darul Ehsan, Malaysia.
2 Department of Engineering Mechanics, Faculty of Mechanical and Manufacturing Engineering, Universiti Tun Hussein Onn Malaysia, 86400 Batu Pahat, Johor, Malaysia
3 Department of Mechanical Engineering, Razak School of Engineering and Advanced Technology, Universiti Teknologi Malaysia, 54100 Kuala Lumpur, Malaysia.
Grigorescu, International Journal of Refractory Metals and Hard Materials, Volume 19, Issues 4-6, Pages 235-568 (2001)
Bose, Injection Molding of Metals and Ceramics, Metal Powder Industries Federation, Princeton, NJ, (1997)
[8] Karatas, C., Kocer, A., Unal, H.I., Saritas, S., Journal of Materials Processing Technology, vol.152, pp 77-83, (2004)
[9] Khakbiz, M., simchi, A., Bagheri, R., Materials Science and Engineering a., vol 407, pp 105-113. (2005)
Grigorescu, International Journal of Refractory Metals and Hard Materials, Volume 19, Issues 4-6, Pages 235-568 (2001)
Bose, Injection Molding of Metals and Ceramics, Metal Powder Industries Federation, Princeton, NJ, (1997)
[8] Karatas, C., Kocer, A., Unal, H.I., Saritas, S., Journal of Materials Processing Technology, vol.152, pp 77-83, (2004)
[9] Khakbiz, M., simchi, A., Bagheri, R., Materials Science and Engineering a., vol 407, pp 105-113. (2005)