Application of Box–Behnken Design and Response Surface Methodology for Surface Roughness Prediction Model of CP-Ti Powder Metallurgy Components Through WEDM

The present work was undertaken to investigate and characterize the machining parameters (such as surface roughness, etc.) of uni-axially pressed commercially pure titanium sintered powder metallurgy components. Powder was uni-axially pressed at designated pressure of 840 MPa to form cylindrical sam...

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Veröffentlicht in:Journal of the Institution of Engineers (India): Series D 2018, Vol.99 (1), p.9-21
Hauptverfasser: Das, Arunangsu, Sarkar, Susenjit, Karanjai, Malobika, Sutradhar, Goutam
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container_issue 1
container_start_page 9
container_title Journal of the Institution of Engineers (India): Series D
container_volume 99
creator Das, Arunangsu
Sarkar, Susenjit
Karanjai, Malobika
Sutradhar, Goutam
description The present work was undertaken to investigate and characterize the machining parameters (such as surface roughness, etc.) of uni-axially pressed commercially pure titanium sintered powder metallurgy components. Powder was uni-axially pressed at designated pressure of 840 MPa to form cylindrical samples and the green compacts were sintered at 0.001 mbar for about 4 h with sintering temperature varying from 1350 to 1450 °C. The influence of the sintering temperature, pulse-on and pulse-off time at wire-EDM on the surface roughness of the preforms has been investigated thoroughly. Experiments were conducted under different machining parameters in a CNC operated wire-cut EDM. The surface roughness of the machined surface was measured and critically analysed. The optimum surface roughness was achieved under the conditions of 6 μs pulse-on time, 9 μs pulse-off time and at sintering temperature of 1450 °C.
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subjects Compacts
Electric discharge machining
Engineering
Metallurgical analysis
Numerical controls
Original Contribution
Parameters
Powder metallurgy
Preforms
Response surface methodology
Sintering
Sintering (powder metallurgy)
Surface roughness
Titanium
title Application of Box–Behnken Design and Response Surface Methodology for Surface Roughness Prediction Model of CP-Ti Powder Metallurgy Components Through WEDM
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