Investigations on Machinability Behavior in Turning of Al7075/Beryl/Graphene Nano Platelets Hybrid Composites with Multilayer Coated Carbide Insert Using Taguchi and Statistical Techniques

This work emphases on characterization and evaluation of machinabity characteristics of a novel hybrid Aluminum Metal Matrix Composite (AMMC) developed through two-step stir-casting method by reinforcing constant amount of Beryl (6%) and varying quantity of Graphene nanoPlatelets - GNPs (0%, 1% and...

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Published inKey engineering materials Vol. 937; pp. 55 - 66
Main Authors Patil, Shanawaz, Gunaki, Pradip, Pasha, A.A., Nagaral, Madev, Ahmed, S. Adil
Format Journal Article
LanguageEnglish
Published Trans Tech Publications Ltd 22.12.2022
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Abstract This work emphases on characterization and evaluation of machinabity characteristics of a novel hybrid Aluminum Metal Matrix Composite (AMMC) developed through two-step stir-casting method by reinforcing constant amount of Beryl (6%) and varying quantity of Graphene nanoPlatelets - GNPs (0%, 1% and 2%). Morphological analysis result shows the presence of dendritic arms and homogeneous distribution of the Beryl and GNPs in Al7075 matrix. Machinability (turning) characteristics of the developed hybrid composite were studied in detail besides optimizing the machining parameters employing Taguchi technique. The objective was to establish a correlation between cutting parameters such as cutting speed, feed rate and depth of cut with, tool wear, and surface roughness on work piece. In the present study, performance of multilayer hard coatings (TiC/TiCN/Al2O3) on cemented carbide insert for machining of Al7075-Beryl-GNPs. An attempt has been made to analyze the effects of process parameters on machinability aspects using Taguchi technique. Response surface plots are generated for the study of interaction effects of cutting conditions on machinability factors. The correlations were established by multiple linear regression models. The linear regression models were validated using confirmation test.
AbstractList This work emphases on characterization and evaluation of machinabity characteristics of a novel hybrid Aluminum Metal Matrix Composite (AMMC) developed through two-step stir-casting method by reinforcing constant amount of Beryl (6%) and varying quantity of Graphene nanoPlatelets - GNPs (0%, 1% and 2%). Morphological analysis result shows the presence of dendritic arms and homogeneous distribution of the Beryl and GNPs in Al7075 matrix. Machinability (turning) characteristics of the developed hybrid composite were studied in detail besides optimizing the machining parameters employing Taguchi technique. The objective was to establish a correlation between cutting parameters such as cutting speed, feed rate and depth of cut with, tool wear, and surface roughness on work piece. In the present study, performance of multilayer hard coatings (TiC/TiCN/Al2O3) on cemented carbide insert for machining of Al7075-Beryl-GNPs. An attempt has been made to analyze the effects of process parameters on machinability aspects using Taguchi technique. Response surface plots are generated for the study of interaction effects of cutting conditions on machinability factors. The correlations were established by multiple linear regression models. The linear regression models were validated using confirmation test.
This work emphases on characterization and evaluation of machinabity characteristics of a novel hybrid Aluminum Metal Matrix Composite (AMMC) developed through two-step stir-casting method by reinforcing constant amount of Beryl (6%) and varying quantity of Graphene nanoPlatelets - GNPs (0%, 1% and 2%). Morphological analysis result shows the presence of dendritic arms and homogeneous distribution of the Beryl and GNPs in Al7075 matrix. Machinability (turning) characteristics of the developed hybrid composite were studied in detail besides optimizing the machining parameters employing Taguchi technique. The objective was to establish a correlation between cutting parameters such as cutting speed, feed rate and depth of cut with, tool wear, and surface roughness on work piece. In the present study, performance of multilayer hard coatings (TiC/TiCN/Al 2 O 3 ) on cemented carbide insert for machining of Al7075-Beryl-GNPs. An attempt has been made to analyze the effects of process parameters on machinability aspects using Taguchi technique. Response surface plots are generated for the study of interaction effects of cutting conditions on machinability factors. The correlations were established by multiple linear regression models. The linear regression models were validated using confirmation test.
Author Patil, Shanawaz
Ahmed, S. Adil
Nagaral, Madev
Gunaki, Pradip
Pasha, A.A.
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  organization: KNS Institute of Technology : Department of Mechanical Engineering
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Keywords Machinability
Taguchi
Beryl
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Graphene
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Title Investigations on Machinability Behavior in Turning of Al7075/Beryl/Graphene Nano Platelets Hybrid Composites with Multilayer Coated Carbide Insert Using Taguchi and Statistical Techniques
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