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Online since: July 2015
Authors: Leslie Joy L. Diaz, Ivyleen C. Bernardo-Arugay
Materials and methods.
Raw materials.
Wu, Aggregation, rheology and electrophoretic packing structure of aqueous Al2O3 nanoparticle suspensions, Acta Materials, 50 (2002) 3757-3766
Matijevic(1975) Colloid and Surface Props of Clay Suspensions III.Stability of MMT& kaolinite, Journal of Colloid and Interface Science, (1976) Vol.56, No.1 [8] S.
Matijevic, Colloid and Surface Props of Clay Suspensions II.Electrophoresis and Cation Adsorption of MMT, Journal of Colloid and Interface Science, (1975) Vol.50, No.1 [9] D.
Raw materials.
Wu, Aggregation, rheology and electrophoretic packing structure of aqueous Al2O3 nanoparticle suspensions, Acta Materials, 50 (2002) 3757-3766
Matijevic(1975) Colloid and Surface Props of Clay Suspensions III.Stability of MMT& kaolinite, Journal of Colloid and Interface Science, (1976) Vol.56, No.1 [8] S.
Matijevic, Colloid and Surface Props of Clay Suspensions II.Electrophoresis and Cation Adsorption of MMT, Journal of Colloid and Interface Science, (1975) Vol.50, No.1 [9] D.
Online since: November 2013
Authors: Ali Salehabadi, Mohamad Abu Bakar
Clay is one of the naturally occurring materials which can impart many thermal and mechanical properties into the final products.
Experimental Materials and Method.
Abu Bakar, Epoxidized natural rubber-organomodified montmorillonite nanohybrids; interaction and thermal decomposition, Materials Science Forum. 756 (2013) 119–126
Pharr, An improved technique for determining hardness and elastic modulus using load and displacement sensing indentation experiments, Journal of Materials Research. 7 (1982) 1564–1580
He, Nanoindentation and morphological studies of epoxy nanocomposites, Macromolecular Materials and Engineering. 291 (2006) 1358–1366
Experimental Materials and Method.
Abu Bakar, Epoxidized natural rubber-organomodified montmorillonite nanohybrids; interaction and thermal decomposition, Materials Science Forum. 756 (2013) 119–126
Pharr, An improved technique for determining hardness and elastic modulus using load and displacement sensing indentation experiments, Journal of Materials Research. 7 (1982) 1564–1580
He, Nanoindentation and morphological studies of epoxy nanocomposites, Macromolecular Materials and Engineering. 291 (2006) 1358–1366
Online since: December 2011
Authors: AKM Nurul Amin, Anayet Ullah Patwari, Mohammad Ishtiyaq Hossain
Machado, The machinability of nickel-based alloys: a review, Journal of Materials Processing Technology 86 (1999), 1-16
Teo, The machinability of Inconel 718, Journal of Materials Processing Technology 63 (1997), 199-204
Elbestawi, Cutting temperature of ceramic tools in high speed machining of difficult-to-cut materials, Int.
Journal of mechanical Tool Manufact 36 (5) (1996), 611–634
Mannan, Machinability of nickel-based high temperature alloys, Machining Science and Technology, 4 (1) (2000), 127-168
Teo, The machinability of Inconel 718, Journal of Materials Processing Technology 63 (1997), 199-204
Elbestawi, Cutting temperature of ceramic tools in high speed machining of difficult-to-cut materials, Int.
Journal of mechanical Tool Manufact 36 (5) (1996), 611–634
Mannan, Machinability of nickel-based high temperature alloys, Machining Science and Technology, 4 (1) (2000), 127-168
Online since: February 2014
Authors: Jun Du, Fan Jun Meng, De Ma Ba, Feng Liang Yin
Acknowledgements
The financial supports for this work by the National Natural Science Foundation of China (Project No. 51005245,51105376, 51102283,51205408 ).
Beijing: China science and technology press, 2011(in chinese) [2] Ji Zhou.
Journal of Materials Processing Technology, 2003,135: 347–357 [5] P.K.palani, N.murugan.
Journal of Materials Processing Technology, 2006,172(1): 1–10 [6] Hicken, Jackson.
Welding Journal.1966(11):515-525 [7] DrPhilip J Blakeley, etal .
Beijing: China science and technology press, 2011(in chinese) [2] Ji Zhou.
Journal of Materials Processing Technology, 2003,135: 347–357 [5] P.K.palani, N.murugan.
Journal of Materials Processing Technology, 2006,172(1): 1–10 [6] Hicken, Jackson.
Welding Journal.1966(11):515-525 [7] DrPhilip J Blakeley, etal .
Numerical Investigation on Heat Transfer of Al2O3/Water Nanofluid in a Shell and Tube Heat Exchanger
Online since: July 2014
Authors: M. Raja, R. Vijayan, R. Vivekananthan, M.A. Vadivelu
Introduction: Nanofluids are solid – liquid phase composite materials which are engineered by the suspension of nanoparticles (whose average size is approximately less than 100nm) in the conventional fluids which have enhanced heat transfer characteristics than the base fluid.
Figure 4: Comparison of experimental and numerical values for 0.5% Al2O3/ water nanofluid Figure 5: Comparison of experimental and numerical values for 1% Al2O3/ water nanofluid References: [1] Ehsan Ebrahimna – Bajestan, Numerical investigation of effective parameters in convective heat transfer of nanofluids flowing under a laminar flow regime, International Journal of Heat and Mass Transfer (2011) 4376-4388
[2] M Raja, R Vijayan, S Suresh & R Vivekananthan, Effect of heat transfer enhancement and NOx emission using Al2O3/water nanofluid as coolant in CI engine, Indian Journal of Engineering & Materials Sciences (2013) 443-449
[4]M Akbari, N Galanis, A Behzadmehr, Comparative analysis of single and two-phase models for CFD studies of nanofluid heat transfer, International Journal of Thermal Sciences (2011) 1343–1354
[5]MN Pantzali, AG Kanaris, KD Antoniadis,Effect of nanofluids on the performance of a miniature plate heat exchanger with modulated surface, International Journal of Heat and Fluid flow (2009) 691-699.
Figure 4: Comparison of experimental and numerical values for 0.5% Al2O3/ water nanofluid Figure 5: Comparison of experimental and numerical values for 1% Al2O3/ water nanofluid References: [1] Ehsan Ebrahimna – Bajestan, Numerical investigation of effective parameters in convective heat transfer of nanofluids flowing under a laminar flow regime, International Journal of Heat and Mass Transfer (2011) 4376-4388
[2] M Raja, R Vijayan, S Suresh & R Vivekananthan, Effect of heat transfer enhancement and NOx emission using Al2O3/water nanofluid as coolant in CI engine, Indian Journal of Engineering & Materials Sciences (2013) 443-449
[4]M Akbari, N Galanis, A Behzadmehr, Comparative analysis of single and two-phase models for CFD studies of nanofluid heat transfer, International Journal of Thermal Sciences (2011) 1343–1354
[5]MN Pantzali, AG Kanaris, KD Antoniadis,Effect of nanofluids on the performance of a miniature plate heat exchanger with modulated surface, International Journal of Heat and Fluid flow (2009) 691-699.
Online since: August 2014
Authors: Hou Jun Qi, Yi Rong Zhang
helix angle,four-flute carbide ball end mill.Specimens used titanium alloy materials.Down milling was used for the milling experiments.
Acknowledgements This work was supported by Innovation Team Training Plan of Tianjin Universities and colleges (TD12-5043), “High-End CNC Machine Tools and Basic Manufacturing Equipments” Major National Science and Technology Project (2012ZX04012-031), Tianjin City High School Science & Technology Fund Planning Project (20130408).
ASME Journal of Applied Mechanics,1944, 67:168-175
[2]E.Budak,Y.Altintas, and E.J.A.Armarego.Prediction of Milling Force Coefficients from Orthogonal Cutting Data.Trans.ASMEJoural of Manufacturing Science and Engineering ,vol.118:216~224,1996
[3]E.J.A.Armaregoand R.C.Whitfield.Computer basedmodelling of popular machiningoperationin Turning Operations.Journal of Engineering Production,1(1):1~18,1997
Acknowledgements This work was supported by Innovation Team Training Plan of Tianjin Universities and colleges (TD12-5043), “High-End CNC Machine Tools and Basic Manufacturing Equipments” Major National Science and Technology Project (2012ZX04012-031), Tianjin City High School Science & Technology Fund Planning Project (20130408).
ASME Journal of Applied Mechanics,1944, 67:168-175
[2]E.Budak,Y.Altintas, and E.J.A.Armarego.Prediction of Milling Force Coefficients from Orthogonal Cutting Data.Trans.ASMEJoural of Manufacturing Science and Engineering ,vol.118:216~224,1996
[3]E.J.A.Armaregoand R.C.Whitfield.Computer basedmodelling of popular machiningoperationin Turning Operations.Journal of Engineering Production,1(1):1~18,1997
Online since: May 2016
Authors: J.L. Wang, W.W. Song, D.L. Shao, Dun Wen Zuo, H.F. Wang, Q.Q. Zhu
Kokabi, Materials Science and Engineering A, 543 (2012)243-248
Wang, et al, Journal of Functional Materials, 11 (2010)2029-2033
Murugan, et al, Materials and Design, (40)(2012)7-16
Materials Science and Engineering A, 528 (2011)4683-4689
Journal of Functional Materials, 10(2012)1327-1331.
Wang, et al, Journal of Functional Materials, 11 (2010)2029-2033
Murugan, et al, Materials and Design, (40)(2012)7-16
Materials Science and Engineering A, 528 (2011)4683-4689
Journal of Functional Materials, 10(2012)1327-1331.
Online since: July 2014
Authors: K. Annamalai, K. Santhosh Kumar, Vinay Varghese
About 50wt% of materials used in gas turbine compartment of an aerospace engine are nickel based super alloys [2].
Reference [1] E.O Ezugwu, I.R Pashby, “High speed milling of nickel based super alloys”, Journal of Materials processing technology, 33(1992) p429-437
Bonney, “An overview of aerospace engine alloys”, Journal of material processing technology, 134 (2003) p233-253
Teo “The Machinability of Inconel 718”, Journal of material processing technology, 63 (1997) 199-204
Daniel Kirby, “Surface roughness optimization in an end-milling operation using the Taguchi design method”, Journal of Materials Processing Technology, 184 (2007), p. 233
Reference [1] E.O Ezugwu, I.R Pashby, “High speed milling of nickel based super alloys”, Journal of Materials processing technology, 33(1992) p429-437
Bonney, “An overview of aerospace engine alloys”, Journal of material processing technology, 134 (2003) p233-253
Teo “The Machinability of Inconel 718”, Journal of material processing technology, 63 (1997) 199-204
Daniel Kirby, “Surface roughness optimization in an end-milling operation using the Taguchi design method”, Journal of Materials Processing Technology, 184 (2007), p. 233
Online since: October 2016
Authors: Song Mei Yuan, Qi Wu
Annual Review of Materials Research, 2003, 24:19-44.
].
The Status and Future on Research and Application about Carbon/ Carbon Composites in the Aeronautical Area[J].Journal of Materials Engineering, 1997(7):8-10. ].
Machining Science & Technology An International Journal, 2012, 16(3):380-398. 228(4):504-514
Chipping minimization in drilling ceramic materials with rotary ultrasonic machining[J].
Journal of Engineering for Industry, 1994, 64(2):142-151. ] put forward a theoretical prediction model of material removal rate by analyzing the removal mode of rotary ultrasonic machining of hard brittle materials.
The Status and Future on Research and Application about Carbon/ Carbon Composites in the Aeronautical Area[J].Journal of Materials Engineering, 1997(7):8-10. ].
Machining Science & Technology An International Journal, 2012, 16(3):380-398. 228(4):504-514
Chipping minimization in drilling ceramic materials with rotary ultrasonic machining[J].
Journal of Engineering for Industry, 1994, 64(2):142-151. ] put forward a theoretical prediction model of material removal rate by analyzing the removal mode of rotary ultrasonic machining of hard brittle materials.
Online since: June 2015
Authors: Alexander Alexander, B.S.M. Augustine
Many materials like glass fibers, carbon fibers and Kevlar fibers are used due to their good strength when it is subjected to internal pressure as well as external pressure.
Basalt fibers are new materials that are fabricated from hard dense basalt rocks.
II .MATERIALS AND FABRICATION Materials Basalt roving and glass roving are used for fabrication of filament wound pipes.
Structural Dynamics and Materials Conference, (1992)88–97
[8] Autar K Kaw., "Mechanics of composite materials", 2nd ed., 2006 [9] S.
Basalt fibers are new materials that are fabricated from hard dense basalt rocks.
II .MATERIALS AND FABRICATION Materials Basalt roving and glass roving are used for fabrication of filament wound pipes.
Structural Dynamics and Materials Conference, (1992)88–97
[8] Autar K Kaw., "Mechanics of composite materials", 2nd ed., 2006 [9] S.