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Online since: December 2022
Authors: Sadeem Al-Barody, Faiz Ahmed, Thar M. Badri Albarody, Alaa Raad Hussein, Mohammed Mahmmud Direa, Ali Ameen Roshan Ali
Tetra-Boron Carbide (B4C) is an essential and widely used material in the shield
engineering industry, according to studies, and is employed in a variety of engineering applications
[2,3] because of its one-of-a-kind mix of exceptional physical and mechanical characteristics.
Cutting performance and wear mechanism of TiB2-B4C ceramic cutting tools in high speed turning of Ti6Al4V alloy.
Ceramics International. 44, 15495-15502 (2018) [2] Rubino, F., Pisaturo, M., Senatore, A., Carlone, P. & Sudarshan, T.
"Evaluation of electromagnetic near-field measurement technique as non-destructive testing for composite structures, " in IOP Conference Series: Materials Science and Engineering. (2018) [8] Yan, X., Zhang, D., Pan, S., Zhang, E. & Gao, W.
"Non invasive rail track detection system using Microwave sensor, " in Journal of Physics: Conference Series. (2009) [17] Brosseau, C., Quéffélec, P. & Talbot, P.
Cutting performance and wear mechanism of TiB2-B4C ceramic cutting tools in high speed turning of Ti6Al4V alloy.
Ceramics International. 44, 15495-15502 (2018) [2] Rubino, F., Pisaturo, M., Senatore, A., Carlone, P. & Sudarshan, T.
"Evaluation of electromagnetic near-field measurement technique as non-destructive testing for composite structures, " in IOP Conference Series: Materials Science and Engineering. (2018) [8] Yan, X., Zhang, D., Pan, S., Zhang, E. & Gao, W.
"Non invasive rail track detection system using Microwave sensor, " in Journal of Physics: Conference Series. (2009) [17] Brosseau, C., Quéffélec, P. & Talbot, P.
Online since: August 2010
Authors: Hai Qing Mi, Kun Tang, Jian Wu Yu, Xiao Min Sheng, Li Guo, Tao Chen
The grinding experiments were conducted on an 314 m/s super-high speed
surface grinder and shown in figure 2, which was developed by National Engineering Research Center
For High Efficiency Grinding, Hunan University.
Machining Characteristics and Surface Integrity of Yttria Stabilized Tetragonal Zirconia in High Speed Deep Grinding, Materials Science and Engineering A345 (2003) 155-163 [15] H.
Experimental Investigations of Machining Characteristics and Removal Mechanisms of Advanced Ceramics in High Speed Deep Grinding.
International Journal of Machine Tools & Manufacture 43 (2003) 811~823 [16] Ling Yin, Han Huang.
Ceramic Response to High Speed Grinding.
Machining Characteristics and Surface Integrity of Yttria Stabilized Tetragonal Zirconia in High Speed Deep Grinding, Materials Science and Engineering A345 (2003) 155-163 [15] H.
Experimental Investigations of Machining Characteristics and Removal Mechanisms of Advanced Ceramics in High Speed Deep Grinding.
International Journal of Machine Tools & Manufacture 43 (2003) 811~823 [16] Ling Yin, Han Huang.
Ceramic Response to High Speed Grinding.
Online since: June 2007
Authors: Joseph A. Arsecularatne, Liang Chi Zhang, Alokesh Pramanik
Arsecularatne
c
School of Aerospace, Mechanical and Mechatronic Engineering, University of Sydney,
NSW 2006, Australia
a
apramanik@aeromech.usyd.edu.au, bzhang@aeromech.usyd.edu.au,
c
joseph.arsecularatne@aeromech.usyd.edu.au
Keywords: Indentation, Metal matrix composites, FEM
Abstract.
Arsecularatne: International Journal of Machine Tools and Manufacturing, (2006) in press
Mai: Journal of Material Science 30(1995) 1961-1966
Mahdi: Journal of materials science, 31 (1996) 5671-5676
Koshy of Machining of ceramics and composites (1999), pp. 295-356
Arsecularatne: International Journal of Machine Tools and Manufacturing, (2006) in press
Mai: Journal of Material Science 30(1995) 1961-1966
Mahdi: Journal of materials science, 31 (1996) 5671-5676
Koshy of Machining of ceramics and composites (1999), pp. 295-356
Online since: October 2010
Authors: Philippe Viot, Ali Chirazi, Michel Dumon, Dominique Bernard, V. Fascio
K., Effects of strain rate and density on tensile behavior of polypropylene syntactic foam with polymer micro-balloons, Materials Science and Engineering, 2008, 477, 168-178
[5] T.
Guden, Split Hopkinson pressure bar multiple reloading and modeling of a 316 L stainless steel metallic hollow balloon structure, International Journal of Impact Engineering, Volume 37, Issue 3, March 2010, Pages 250-259, ISSN 0734-743X [7] V.
,High strain rate compressive behaviour of aluminium alloy foams International Journal of Impact Engineering, 2000, 24, 277 - 298 [9] M.
Ibba, A., Mechanical models of cellular solids: Parameters identification from experimental tests, International Journal of Impact Engineering, 2007, 34, 3-27 [10] [PI-10] P.
-L., Polypropylene foam behaviour under dynamic loadings: Strain rate, density and microstructure effects, International Journal of Impact Engineering, 2009, 36, 329 - 342 [13] Wadley Douglas C, Tam Man S, Kokitkar Prashant B, Jackson James E, Miller Dennis J.
Guden, Split Hopkinson pressure bar multiple reloading and modeling of a 316 L stainless steel metallic hollow balloon structure, International Journal of Impact Engineering, Volume 37, Issue 3, March 2010, Pages 250-259, ISSN 0734-743X [7] V.
,High strain rate compressive behaviour of aluminium alloy foams International Journal of Impact Engineering, 2000, 24, 277 - 298 [9] M.
Ibba, A., Mechanical models of cellular solids: Parameters identification from experimental tests, International Journal of Impact Engineering, 2007, 34, 3-27 [10] [PI-10] P.
-L., Polypropylene foam behaviour under dynamic loadings: Strain rate, density and microstructure effects, International Journal of Impact Engineering, 2009, 36, 329 - 342 [13] Wadley Douglas C, Tam Man S, Kokitkar Prashant B, Jackson James E, Miller Dennis J.
Online since: March 2008
Authors: Nathan Klingbeil, Jeremy Daily, Craig Baudendistel
F33615-02-D2299-0022,
and by the Department of Mechanical & Materials Engineering at Wright State University.
Lin, "Theory of fatigue crack growth for work hardening materials," International Journal of Fracture, vol. 10, pp. 284-287, 1974
Ellyin, "A fatigue crack propagation model," Engineering Fracture Mechanics, vol. 20, pp. 695-704, 1984
Hsu, "Fatigue crack growth rate of metal by plastic energy damage accumulation theory," Journal of Engineering Mechanics, vol. 120, no. 4, pp. 776-795, 1994.[15] R.
Hutchinson, "Interface crack between two elastic layers," International Journal of Fracture, vol. 43, pp. 1-18, 1990
Lin, "Theory of fatigue crack growth for work hardening materials," International Journal of Fracture, vol. 10, pp. 284-287, 1974
Ellyin, "A fatigue crack propagation model," Engineering Fracture Mechanics, vol. 20, pp. 695-704, 1984
Hsu, "Fatigue crack growth rate of metal by plastic energy damage accumulation theory," Journal of Engineering Mechanics, vol. 120, no. 4, pp. 776-795, 1994.[15] R.
Hutchinson, "Interface crack between two elastic layers," International Journal of Fracture, vol. 43, pp. 1-18, 1990
Online since: May 2010
Authors: Raouf O. Loutfy, James Withers, Yasser Elkadi, Jay DeSilva, John Laughlin
While the electrolytic titanium produced was in most cases superior to Kroll sponge, the
engineering complexity and difficulty of exchanging large surface cathodes in and out of a cell
chamber requiring high inertness proved to be a major impediment to the large scale electrolytic
production of titanium.
It was essential to overcome this engineering difficulty if an electrolytic process is to production produce titanium at a lower cost than Kroll sponge.
A metal-nitride ceramic proved to be satisfactory.
Initially in this Phase II, external heated hot wall cells as shown in Figs. 11, 12 and 13 were utilized to work out the engineering details that would meet simplicity operation required in production processing and to verify quality.
One engineering design that was settled in this larger hot walled cell was the oxycarbide anode configuration.
It was essential to overcome this engineering difficulty if an electrolytic process is to production produce titanium at a lower cost than Kroll sponge.
A metal-nitride ceramic proved to be satisfactory.
Initially in this Phase II, external heated hot wall cells as shown in Figs. 11, 12 and 13 were utilized to work out the engineering details that would meet simplicity operation required in production processing and to verify quality.
One engineering design that was settled in this larger hot walled cell was the oxycarbide anode configuration.
Online since: July 2014
Authors: Dong Fu Zhao, Shi Ji Zhang, Mei Liu
Journal of The Chinese Ceramic Society,2005,33(4):456-461.In Chinese
Structural Fire Engineering,2010,1(3):135-144
Journal of Engineering Mechanics, 1993,119(7): 1465-1484 [29] George Z.
Journal of Engineering Mechanics, 1993,119(9):1865-1884
Journal of Engineering Mechanics, 1992,118(7):1365-1386
Structural Fire Engineering,2010,1(3):135-144
Journal of Engineering Mechanics, 1993,119(7): 1465-1484 [29] George Z.
Journal of Engineering Mechanics, 1993,119(9):1865-1884
Journal of Engineering Mechanics, 1992,118(7):1365-1386
Online since: January 2013
Authors: Xian Zheng Gong, Bo Xue Sun, Su Ping Cui, Chen Li, Xian Ce Meng
Helmut Leibinger, head of plant and process engineering at SPZ, concluded: “GEA Bischoff’s technical experience in planning and construction of process plants together with Rohrdorf’s pioneering spirit were the basis for the successful introduction of the SCR technology in the cement industry”.
The catalyst is typically supported on ceramic materials (e.g., alumina in a honeycomb monolith form) and promotes the NOx reduction reactions by providing a site for these reactions to occur.
[3] International Organisation for Standardisation, ISO 14041, Environmental Management—Life Cycle Assessment—Goal and Scope Definition and Inventory Analysis, 1998, Geneva [4] International Organisation for Standardisation, ISO 14042, Environmental Management, Life Cycle Assessment, Life Cycle Assessment, 2000, Geneva
[5] International Organization for Standardization.
CO2 Emissions from Typical Cement Plants in China [J], Journal of Shanghai Jiaotong University. 17 (3) (2012) 341-344.
The catalyst is typically supported on ceramic materials (e.g., alumina in a honeycomb monolith form) and promotes the NOx reduction reactions by providing a site for these reactions to occur.
[3] International Organisation for Standardisation, ISO 14041, Environmental Management—Life Cycle Assessment—Goal and Scope Definition and Inventory Analysis, 1998, Geneva [4] International Organisation for Standardisation, ISO 14042, Environmental Management, Life Cycle Assessment, Life Cycle Assessment, 2000, Geneva
[5] International Organization for Standardization.
CO2 Emissions from Typical Cement Plants in China [J], Journal of Shanghai Jiaotong University. 17 (3) (2012) 341-344.
Online since: March 2022
Authors: Honelly Mae Cascolan, Dan William Martinez, John Ryan C. Dizon, Michaela T. Espino, Jan Lloyd Crisostomo
Consumer products also use 3D printing in lightweight models and sets, entertainment props, and architectural and engineering models [14].
With 3D printing creating the positive plastic mold, it can then be used for ceramic molding and, subsequently, metal casting.
Salmi, "Economics of Additive Manufacturing for End-usable Metal Parts," International Journal of Additive Manufacturing, vol. 62, pp. 1147-1155, 2012
Khaziev, "Development of equipment for composite 3D printing of structural elements for aerospace applications," in IOP Conference Series Materials Science and Engineering, Moscow, Russia, 2020
Wang, "Additive manufacturing of carbon fiber reinforced thermoplastic composites using fused deposition modeling," Composites Part B: Engineering, vol. 80, pp. 369-378, 2015
With 3D printing creating the positive plastic mold, it can then be used for ceramic molding and, subsequently, metal casting.
Salmi, "Economics of Additive Manufacturing for End-usable Metal Parts," International Journal of Additive Manufacturing, vol. 62, pp. 1147-1155, 2012
Khaziev, "Development of equipment for composite 3D printing of structural elements for aerospace applications," in IOP Conference Series Materials Science and Engineering, Moscow, Russia, 2020
Wang, "Additive manufacturing of carbon fiber reinforced thermoplastic composites using fused deposition modeling," Composites Part B: Engineering, vol. 80, pp. 369-378, 2015
Online since: January 2010
Authors: Seshadri Seetharaman, H.M. Ahmed, M. Miś, A.H.A. El-Geassy
Seetharaman1, d
1
Department of Material Science and Engineering, Royal Institute of Technology
Stockholm, Sweden
2
Dept. of Minerals Technology & Processing, Central Metallurgical Research & Development
Institute (CMRDI), Cairo, Egypt
a
hesham@mse.kth.se, bmichalmi@kth.se, c elgeassy@yahoo.com, draman@kth.se
Keywords.
Introduction Cemented carbides or synthetic ceramics are compounds of metal and carbon glued together with bonding material [1].
WO3 powder (99.9% WO3, 1-5 µm) was obtained from Atlantic Equipment Engineers (AEE).
Pavlotskaya , International Journal of Hydrogen Energy 24 (1999)853-859 [31] http://www.thermocalc.se/Products/TCC.html <03.03.2009> [32] A.
Kuz'menko, Powder Metallurgy and Metal Ceramics, Vol. 43, Nos. 3-4, 2004 [35] H.J.
Introduction Cemented carbides or synthetic ceramics are compounds of metal and carbon glued together with bonding material [1].
WO3 powder (99.9% WO3, 1-5 µm) was obtained from Atlantic Equipment Engineers (AEE).
Pavlotskaya , International Journal of Hydrogen Energy 24 (1999)853-859 [31] http://www.thermocalc.se/Products/TCC.html <03.03.2009> [32] A.
Kuz'menko, Powder Metallurgy and Metal Ceramics, Vol. 43, Nos. 3-4, 2004 [35] H.J.