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Online since: August 2021
Authors: Waseem Haleem Al-Baghdadi, Ameer Ghayyib Talib, Qusay A. Jabal
Jabal2,b and Waseem Haleem Albaghdadi3,c
1Department of Civil Engineering, Faculty of Engineering, University of Kufa, Najaf, Iraq
aameer.alqadhi@uokufa.edu.iq, bqusay.alatiya@uokufa.edu.iq
cwaseem.albaghdadi@uokufa.edu.iq
Keywords: Ceramic, Compressive, Tensile, Flexural, Aggregate, and fire resistance.
[2] Dharan, M.,” Ceramic waste as coarse aggregate in concrete”, International journal of engineering science and computing “, vol 6, issue 7, July 2016, p.p- 8519 – 8521
[4] Mustafa, A., and Norazian, M.,” The potential of recycled ceramic waste as coarse aggregate for concrete”, Malaysian universities conferences on engineering and technology, March 2008, p.p-1-3
[7] Musa, T.,” The effect of CF-555 super-plasticizer on mechanical properties of ordinary concrete”, international journal of civil engineering and technology, volume 9, issue 11, 2018, p.p-647-653
[8] Paul, A., “fire resistance and thermal insulation properties of foamed concrete incorporating pulverized ceramics and mineral admixtures “, Asian journal of civil engineering,2020, p.p-147-156
[2] Dharan, M.,” Ceramic waste as coarse aggregate in concrete”, International journal of engineering science and computing “, vol 6, issue 7, July 2016, p.p- 8519 – 8521
[4] Mustafa, A., and Norazian, M.,” The potential of recycled ceramic waste as coarse aggregate for concrete”, Malaysian universities conferences on engineering and technology, March 2008, p.p-1-3
[7] Musa, T.,” The effect of CF-555 super-plasticizer on mechanical properties of ordinary concrete”, international journal of civil engineering and technology, volume 9, issue 11, 2018, p.p-647-653
[8] Paul, A., “fire resistance and thermal insulation properties of foamed concrete incorporating pulverized ceramics and mineral admixtures “, Asian journal of civil engineering,2020, p.p-147-156
Online since: July 2024
Authors: Haydar Al-Ethari, Shaima'a J. Kareem, Wurood Asaad
International Journal of Performability Engineering, 17(2)
Mechanical and physical properties of engineering alumina ceramics (Vol. 23).
In 2022 13th International Conference on Mechanical and Aerospace Engineering (ICMAE) (pp. 507-513).
International Research Journal of Engineering and Technology, 4, 1949-1954
Journal of Materials Engineering and Performance, 28, 4415-4426
Mechanical and physical properties of engineering alumina ceramics (Vol. 23).
In 2022 13th International Conference on Mechanical and Aerospace Engineering (ICMAE) (pp. 507-513).
International Research Journal of Engineering and Technology, 4, 1949-1954
Journal of Materials Engineering and Performance, 28, 4415-4426
Online since: January 2005
Authors: Wen Bo Han, Shu Jie Li, Hongying Dong
Joining of SiC Ceramic with Ternary Carbide Ti3SiC2
Hongying Dong
1, a, Wenbo Han
2, b and Shujie Li1, c
1
School of Materials Science and Engineering, Beijing University of Aeronautics and Astronautics,
Beijing 100083, P.
It is essential that the mechanical and thermal properties of the joints should meet the requirements of engineering.
Wu: International Journal of Refractory Metals & Hard Materials Vol. 18 (2000) p.33 [4] J.
Zhang: Rare Metal Materials and Engineering Vol.32, No.7 (2003) p.542 [5] C.
Barsoum: Journal of the American Ceramic Society, Vol. 87, No. 4 (2004) p.550
It is essential that the mechanical and thermal properties of the joints should meet the requirements of engineering.
Wu: International Journal of Refractory Metals & Hard Materials Vol. 18 (2000) p.33 [4] J.
Zhang: Rare Metal Materials and Engineering Vol.32, No.7 (2003) p.542 [5] C.
Barsoum: Journal of the American Ceramic Society, Vol. 87, No. 4 (2004) p.550
Online since: November 2015
Authors: Valery V. Kuzin, Predrag Dašić, Mike Portnoy, Sergey Fedorov
There are several publications investigating different behaviors of Si3N4 ceramics in engineering [4-8].
Lawrence, Surface characterization and compositional evaluation of a fibre laser processed silicon nitride (Si3N4) engineering ceramic, Lasers in Engineering 20 (5-6) (2010) 359-380
Lawrence, Investigation of temperature distribution during CO2 laser and fibre laser processing of a Si3N4 engineering ceramic by means of a computational and experimental approach, Lasers in Engineering 27 (3-4) (2014) 135-160
Lawrence, The influence of brightness during laser surface treatment of Si3N4 engineering ceramics, Optics and Lasers in Engineering 50 (12) (2012) 1746-1751
Kuzin, Automated thermal-strength calculations of ceramic cutting plates, Russian Engineering Research 31 (2011) 1060-1066
Lawrence, Surface characterization and compositional evaluation of a fibre laser processed silicon nitride (Si3N4) engineering ceramic, Lasers in Engineering 20 (5-6) (2010) 359-380
Lawrence, Investigation of temperature distribution during CO2 laser and fibre laser processing of a Si3N4 engineering ceramic by means of a computational and experimental approach, Lasers in Engineering 27 (3-4) (2014) 135-160
Lawrence, The influence of brightness during laser surface treatment of Si3N4 engineering ceramics, Optics and Lasers in Engineering 50 (12) (2012) 1746-1751
Kuzin, Automated thermal-strength calculations of ceramic cutting plates, Russian Engineering Research 31 (2011) 1060-1066
Online since: October 2010
Authors: Adele Brunetti, Giuseppe Barbieri, Enrico Drioli
P., Murphy J.T., Chemical Engineering Progress, April 2009, p.33
].
(A) (B) (C) (D) Figure 1 - Different types of ceramic membranes: (A) Zeolite membrane with FAU topology; (B) Silica membrane on alumina coated SUS support [[] Reprinted from “Chemical Engineering and Processing, 46, Brunetti A., Barbieri G., Drioli E., K.
K., Chemical Engineering Science 64 (2009) p. 1 ] proposed for the first time the use of hydrophobic ceramic hollow fibre membrane contactors used for CO2 stripping from amine solution.
Res., 44, (2005) p.7999 , [] Kawamura H., Yamaguchi T., Nair B.N., Nakagawa K., Nakao S., Journal of Chemical Engineering of Japan, 38, (2005) p. 322 ].
-W., Chemical Engineering and Processing, 46, (2007), p.119 ].
(A) (B) (C) (D) Figure 1 - Different types of ceramic membranes: (A) Zeolite membrane with FAU topology; (B) Silica membrane on alumina coated SUS support [[] Reprinted from “Chemical Engineering and Processing, 46, Brunetti A., Barbieri G., Drioli E., K.
K., Chemical Engineering Science 64 (2009) p. 1 ] proposed for the first time the use of hydrophobic ceramic hollow fibre membrane contactors used for CO2 stripping from amine solution.
Res., 44, (2005) p.7999 , [] Kawamura H., Yamaguchi T., Nair B.N., Nakagawa K., Nakao S., Journal of Chemical Engineering of Japan, 38, (2005) p. 322 ].
-W., Chemical Engineering and Processing, 46, (2007), p.119 ].
Online since: October 2012
Authors: Khaled A. Abou-El-Hossein, M. Mohan Reddy, Alexander Gorin, Yeakub Ali Mohammad, D. Sujan, Md Abdul Maleque
Maleque6,f
1,4 Mechanical Engineering Department, Curtin University of Technology (Malaysia Campus), CDT 250, Miri, Sarawak, 98009, Malaysia,
2Chemical Engineering Dpt., Swinburne University of Technology,Kuching, 93350, Malaysia,
3Mechanical & Aeronautical Department of Mechatronics Engineering, Nelson Mandela Metropolitan University, Port Elezebeth, 6031, South Africa
5-6Department of Manufacturing and Materials Engineering, International Islamic University of Malaysia, PO Box 10, 50728 Kuala Lumpur, Malaysia
amohan.m@curtin.edu.my, b agorin@swinburne.edu.my , c Khaled.Abou-El-Hossein@nmmu.ac.za, d d.sujan@curtin.edu.my, emmyali@iium.edu.my, fmaleque@iium.edu.my
Keywords: Tool wear, advanced ceramics, end milling
Abstract: Advanced ceramic materials are difficult to machine by conventional methods due to the brittle nature and high hardness.
ASME, Journal of engineering for Industry 1989; 111:2111-18 [2] Zeng, W.M., Z.C.
Pei, and Treadwell C., Experimental observation of tool wear in rotary ultrasonic machining of advanced ceramics, International Journal of Machine Tools & Manufacture 45, 2005: 1468-1473
[3] Rajurkar.K.P, Wang.Z.Y, Kuppattan.A, Micro removal of ceramic material (AL2O3) in the precision ultrasonic machining, Precision Engineering 23, 1999, 73-78
[4] Hwang.H, Liu.Y.C, Experimental investigation of machining characteristics and removal mechanisms of advanced ceramics in high speed grinding, International Journal of Machine Tools and Manufacture 43, 2003, 811-823 [5] Mohan Reddy.M, Khaled Abou, Alexander.G, Influence of cutting parameters on MGC processed by end milling, Advanced Materials Research Vols. 264-265 (2011) pp 825-830
ASME, Journal of engineering for Industry 1989; 111:2111-18 [2] Zeng, W.M., Z.C.
Pei, and Treadwell C., Experimental observation of tool wear in rotary ultrasonic machining of advanced ceramics, International Journal of Machine Tools & Manufacture 45, 2005: 1468-1473
[3] Rajurkar.K.P, Wang.Z.Y, Kuppattan.A, Micro removal of ceramic material (AL2O3) in the precision ultrasonic machining, Precision Engineering 23, 1999, 73-78
[4] Hwang.H, Liu.Y.C, Experimental investigation of machining characteristics and removal mechanisms of advanced ceramics in high speed grinding, International Journal of Machine Tools and Manufacture 43, 2003, 811-823 [5] Mohan Reddy.M, Khaled Abou, Alexander.G, Influence of cutting parameters on MGC processed by end milling, Advanced Materials Research Vols. 264-265 (2011) pp 825-830
Online since: August 2014
Authors: Nur Ain Jaya, Romisuhani Ahmad, Mohd Mustafa Al Bakri Abdullah
Minerals Engineering 2007; 20: 1261-1277
International Journal of Plasticity 2000; 16: 1-37
International Journal of Minerals, Metallurgy andMaterials 2013; 20: p. 313
Chemical Engineering Journal 2002; 89: 63-73
Materials Science and Engineering 1980; 44: 1-66
International Journal of Plasticity 2000; 16: 1-37
International Journal of Minerals, Metallurgy andMaterials 2013; 20: p. 313
Chemical Engineering Journal 2002; 89: 63-73
Materials Science and Engineering 1980; 44: 1-66
Online since: October 2014
Authors: Alaattin Kaçal
Investigation of Cutting Performance of the Ceramic Inserts in Terms of the Surface Roughness and Tool Wear at Turning of PMD 23 Steel
Alaattin KAÇAL
Department of Manufacturing Engineering, Dumlupınar University Simav Technology Faculty 43500, Simav, Kütahya, Turkey
alaattin.kacal@dpu.edu.tr
Keywords: Surface roughness, Ceramic insert, Tool wear.
Yildirim, “Application of grey relational analysis in high-speed machining of hardened AISI D6 steel, Proceedings of the Institution of Mechanical Engineers Part C-Journal of Mechanical Engineering Science, 227 (2013), p.1566-1576
Schimid, “Manufacturing engineering and technology fourth edition”, Prentice Hall, New Jersey, 2001
Durejac, J., “Effect of tool geometry variation on finish turning – A Review”, Journal of Engineering Science and Technology Review, 4 (2011), p.1-13
Davim, “Machinability investigations in hard turning of AISI D2 cold work tool steel with conventional and wiper ceramic inserts”, International Journal of Refractory Metals & Hard Materials, 27 (2009), p.754-763
Yildirim, “Application of grey relational analysis in high-speed machining of hardened AISI D6 steel, Proceedings of the Institution of Mechanical Engineers Part C-Journal of Mechanical Engineering Science, 227 (2013), p.1566-1576
Schimid, “Manufacturing engineering and technology fourth edition”, Prentice Hall, New Jersey, 2001
Durejac, J., “Effect of tool geometry variation on finish turning – A Review”, Journal of Engineering Science and Technology Review, 4 (2011), p.1-13
Davim, “Machinability investigations in hard turning of AISI D2 cold work tool steel with conventional and wiper ceramic inserts”, International Journal of Refractory Metals & Hard Materials, 27 (2009), p.754-763
Online since: October 2010
Authors: Alexander Gorin, Khaled A. Abou-El-Hossein, Moola Mohan Reddy
Abou-El-Hossein2,c
1Mechanical Engineering Department, Curtin University of Technology (Malaysia Campus), CDT 250, Miri, Sarawak, 98009, Malaysia,
2Mechanical & Aeronautical Department of Mechatronics Engineering, Nelson Mandela Metropolitan University, Port Elezebeth,6031, South Africa.
References [1] Seiichi Taruta , Ryuji Fujisawa, Kunio Kitajima, Preparation and mechanical properties of machinable alumina/mica composites, Journal of the European Ceramic Society 26 (2006) 1687–1693 [2] Luis.C.J, Puertas.I, Villa.G, Material removal rate and electrode wear study on the EDM of silicon carbide, Journal of Materials Processing Technology 164-165(2005) 889-896 [3] Malkin S.Ritter JE, Grinding mechanisms and strength degration for ceramics ASME, Journal of engineering for Industry 1989; 111:2111-18
[9] Hwang.H, Liu.Y.C, Experimental investigation of machining characteristics and removal mechanisms of advanced ceramics in high speed grinding, International Journal of Machine Tools and Manufacture 43, 2003, 811-823
[10] Chwan-Huei Tsai, Hong-Wen Chen, Laser cutting of thick ceramic substrates by controlled fracture technique, Journal of Materials Processing Technology 136 (2003), 166–173 [11] Rajurkar.K.P, Wang.Z.Y, Kuppattan.A, Micro removal of ceramic material (AL2O3) in the precision ultrasonic machining, Precision Engineering 23, 1999, 73-78
[18] Bernados.P.G, Vosniakos.G.C, Predicting surface roughness in machining: a review, International Journal of Machine Tools and Manufacture 43(8) (2003) 833-844.
References [1] Seiichi Taruta , Ryuji Fujisawa, Kunio Kitajima, Preparation and mechanical properties of machinable alumina/mica composites, Journal of the European Ceramic Society 26 (2006) 1687–1693 [2] Luis.C.J, Puertas.I, Villa.G, Material removal rate and electrode wear study on the EDM of silicon carbide, Journal of Materials Processing Technology 164-165(2005) 889-896 [3] Malkin S.Ritter JE, Grinding mechanisms and strength degration for ceramics ASME, Journal of engineering for Industry 1989; 111:2111-18
[9] Hwang.H, Liu.Y.C, Experimental investigation of machining characteristics and removal mechanisms of advanced ceramics in high speed grinding, International Journal of Machine Tools and Manufacture 43, 2003, 811-823
[10] Chwan-Huei Tsai, Hong-Wen Chen, Laser cutting of thick ceramic substrates by controlled fracture technique, Journal of Materials Processing Technology 136 (2003), 166–173 [11] Rajurkar.K.P, Wang.Z.Y, Kuppattan.A, Micro removal of ceramic material (AL2O3) in the precision ultrasonic machining, Precision Engineering 23, 1999, 73-78
[18] Bernados.P.G, Vosniakos.G.C, Predicting surface roughness in machining: a review, International Journal of Machine Tools and Manufacture 43(8) (2003) 833-844.
Online since: June 2011
Authors: Huey Tze Ting, Khaled A. Abou-El-Hossein, Han Bing Chua
B.1,c
1School of Engineering & Science, Curtin University of Technology (Sarawak Campus), 98009 Miri, Sarawak, Malaysia.
2 Department of Mechatronics, Nelson Mandela Metropolitan University, Port Elizabeth 6031, South Africa.
Viana: Materials Science and Engineering A Vol. 301 (2001), p. 118-124
Esashi: Journal of Microelectromech.
Wasilik: Journal of Microelectromech.
Currie: 2nd International Conference Vol. 1 (1990), p. 224-227
Viana: Materials Science and Engineering A Vol. 301 (2001), p. 118-124
Esashi: Journal of Microelectromech.
Wasilik: Journal of Microelectromech.
Currie: 2nd International Conference Vol. 1 (1990), p. 224-227