Machinability Study of Al-5Cu-TiB<sub>2</sub> In-situ Metal Matrix Composites Fabricated by Flux-assisted Synthesis

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Journal of Minerals and Materials Characterization and Engineering

ISSN Print: 2327-4077
ISSN Online: 2327-4085
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"Machinability Study of Al-5Cu-TiB₂ In-situ Metal Matrix Composites Fabricated by Flux-assisted Synthesis"
written by A. Mahamani,
published by Journal of Minerals and Materials Characterization and Engineering, Vol.10 No.13, 2011

has been cited by the following article(s):

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[1]	Performance of surface textured tools during machining of Al-Cu/TiB2 composite
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[2]	Machinability, Modelling and Statistical Analysis of In-Situ Al–Si–TiB2 Composites
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[5]	Optimization for Turning of Aluminium and Titanium Di Boride Cast Composites Using Response Surface Methodology
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[6]	Investigation on Cutting Force, Flank Wear, and Surface Roughness in Machining of the A356-TiB
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[7]	Investigation on Cutting Force, Flank Wear, and Surface Roughness in Machining of the A356-TiB2/TiC in-situ Composites
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[8]	A Study on Cutting Force of Machining In Situ TiB2 Particle-Reinforced 7050Al Alloy Matrix Composites
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[9]	Effect of TiC particles on the mechanical properties of aluminium alloy metal matrix composites (MMCs)
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[10]	Acoustic Energy at Change of Treated Composite Material Dispersion Properties
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[11]	Influence of Machining Parameters on Al-4.5 Cu-TiC In-Situ Metal Matrix Composites
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[12]	Application of grey fuzzy logic for the optimization of CNC milling parameters for Al–4.5% Cu–TiC MMCs with multi-performance characteristics
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[13]	Surface integrity analysis in turning A03190/304 composites with network reinforcement
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[14]	ACOUSTIC ENERGY AT CHANGE OF TREATED COMPOSITE MATERIAL DISPERSION PROPERTIES.
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[15]	OPTIMIZATION OF PROCESS PARAMETERS IN TURNING OF ALUMINIUM METAL MATRIX COMPOSITES
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[16]	Акустична енергія при зміні дисперсності властивостей оброблюваного композиційного матеріалу
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[17]	optimization of process parameters in turning of Aluminum metal matrix composites
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[18]	Optimization of machining parameters for improving cutting force and surface roughness in turning of Al6061-TiC in-situ metal matrix composites by using …
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[19]	THERMAL IMAGING-ASSIST HAND
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[20]	Optimization of machining parameters for improving cutting force and surface roughness in turning of Al6061-TiC in-situ metal matrix composites by using Taguchi …
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[21]	Optimization of Process Parameters during Machining of Thixoformed A356-5TiB2 in-situ Composite using Design of Experiments
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[22]	Optimization of machining parameters for improving cutting force and surface roughness in turning of Al6061-TiC in-situ metal matrix composites by using Taguchi method
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[23]	Study on machinability of in situ Al–4.5% Cu–TiC metal matrix composite-surface finish, cutting force prediction using ANN
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[24]	Effect of machining parameters on cutting force and surface roughness of in situ Al–4.5% Cu/TiC metal matrix composites
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[25]	Influence of process parameters on cutting force and surface roughness during turning of AA2219-TiB2/ZrB2 in-situ metal matrix composites
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[26]	Influence of Process Parameters on Cutting Force and Surface Roughness During Turning of AA2219-TiB₂/ZrB₂ In-situ Metal Matrix Composites
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[27]	Effects of PCD and Uncoated Tungsten Carbide Inserts in Turning of In-situ Al6061-TiC Metal Matrix Composite
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[28]	Effect of machining parameters on cutting force and surface roughness of in situ Al–4.5% Cu/TiC metal matrix composites
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[29]	Investigation of Cutting Force, Surface Roughness and Flank Wear in Turning of In-situ Al6061-TiC Metal Matrix Composite
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[30]	Effects of in-Situ TiC Reinforcements on the Machining Process Characteristics of Al+ 12Si Matrix
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[31]	Machinability of aluminum metal matrix composite reinforced with in-situ ceramic composite developed from mines waste colliery shale
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[32]	Influence of Machining Parameters on Al‐4.5 Cu‐TiC In‐Situ Metal Matrix Composites
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[1]	Machinability, Modelling and Statistical Analysis of In-Situ Al–Si–TiB2 Composites Journal of Composites Science, 2019 DOI:10.3390/jcs3010028

[2]	Optimization for Turning of Aluminium and Titanium Di Boride Cast Composites Using Response Surface Methodology Materials Today: Proceedings, 2018 DOI:10.1016/j.matpr.2018.10.146

[3]	Investigation on Cutting Force, Flank Wear, and Surface Roughness in Machining of the A356-TiB2/TiC in-situ Composites International Journal of Materials Forming and Machining Processes, 2018 DOI:10.4018/IJMFMP.2018070104

[4]	Effect of TiC particles on the mechanical properties of aluminium alloy metal matrix composites (MMCs) Materials Today: Proceedings, 2017 DOI:10.1016/j.matpr.2017.05.057

[5]	Study on machinability of in situ Al–4.5%Cu–TiC metal matrix composite-surface finish, cutting force prediction using ANN CIRP Journal of Manufacturing Science and Technology, 2016 DOI:10.1016/j.cirpj.2015.10.002

[6]	Light Metals 2013 The Minerals, Metals & Materials Series, 2016 DOI:10.1007/978-3-319-65136-1_77

[7]	Optimization of machining parameters for improving cutting force and surface roughness in turning of Al6061-TiC in-situ metal matrix composites by using Taguchi method Materials Today: Proceedings, 2015 DOI:10.1016/j.matpr.2015.07.249

[8]	Effect of machining parameters on cutting force and surface roughness of in situ Al–4.5%Cu/TiC metal matrix composites Measurement, 2014 DOI:10.1016/j.measurement.2013.11.026

[9]	Effects of PCD and Uncoated Tungsten Carbide Inserts in Turning of In-situ Al6061-TiC Metal Matrix Composite Procedia Materials Science, 2014 DOI:10.1016/j.mspro.2014.07.345

[10]	Influence of Process Parameters on Cutting Force and Surface Roughness During Turning of AA2219-TiB2/ZrB2 In-situ Metal Matrix Composites Procedia Materials Science, 2014 DOI:10.1016/j.mspro.2014.07.191

[11]	Investigation of Cutting Force, Surface Roughness and Flank Wear in Turning of In-situ Al6061-TiC Metal Matrix Composite Procedia Materials Science, 2014 DOI:10.1016/j.mspro.2014.07.175

[12]	Light Metals 2013 2013 DOI:10.1002/9781118663189.ch77

[13]	Machinability of Aluminum Metal Matrix Composite Reinforced with In-Situ Ceramic Composite Developed from Mines Waste Colliery Shale Materials and Manufacturing Processes, 2013 DOI:10.1080/10426914.2013.811734

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