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    Prediction of MRR for VMC Five Axis Machining of D3 Steel Using Desirability Function Approach

    New search for: Patil, Arun
    New search for: Rudrapati, Ramesh

    Abstract The optimum selection of machining parameters plays a important role to achieve the desired performance of the machining process at a low cost within short time. Aim of the present research investigation is to develop a mathematical model for predicting material removal rate (MRR) in terms of speed, feed and depth of cut. Experiment are conducted on D3 tool steel material in VMC five axis operation based on the full factorial design. A second order mathematical model in terms of machining parameters and MRR is developed by response surface methodology (RSM). Analysis of variance (ANOVA) technique is utilized to determine the significant process parameters which expected to influence MRR. Contour plots are developed by RSM approach from the mathematical model to study the interaction effects of machining parameters on MRR. Desirability function approach has been applied to solve the mathematical model of MRR to maximize it.

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    Prediction of MRR for VMC Five Axis Machining of D3 Steel Using Desirability Function Approach

    New search for: Patil, Arun
    New search for: Rudrapati, Ramesh

    Abstract The optimum selection of machining parameters plays a important role to achieve the desired performance of the machining process at a low cost within short time. Aim of the present research investigation is to develop a mathematical model for predicting material removal rate (MRR) in terms of speed, feed and depth of cut. Experiment are conducted on D3 tool steel material in VMC five axis operation based on the full factorial design. A second order mathematical model in terms of machining parameters and MRR is developed by response surface methodology (RSM). Analysis of variance (ANOVA) technique is utilized to determine the significant process parameters which expected to influence MRR. Contour plots are developed by RSM approach from the mathematical model to study the interaction effects of machining parameters on MRR. Desirability function approach has been applied to solve the mathematical model of MRR to maximize it.

    Access

    Check access
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    Order at Subito €

    Prediction of MRR for VMC Five Axis Machining of D3 Steel Using Desirability Function Approach

    New search for: Patil, Arun
    New search for: Rudrapati, Ramesh

    Abstract The optimum selection of machining parameters plays a important role to achieve the desired performance of the machining process at a low cost within short time. Aim of the present research investigation is to develop a mathematical model for predicting material removal rate (MRR) in terms of speed, feed and depth of cut. Experiment are conducted on D3 tool steel material in VMC five axis operation based on the full factorial design. A second order mathematical model in terms of machining parameters and MRR is developed by response surface methodology (RSM). Analysis of variance (ANOVA) technique is utilized to determine the significant process parameters which expected to influence MRR. Contour plots are developed by RSM approach from the mathematical model to study the interaction effects of machining parameters on MRR. Desirability function approach has been applied to solve the mathematical model of MRR to maximize it.

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    Title:

    Prediction of MRR for VMC Five Axis Machining of D3 Steel Using Desirability Function Approach

    Contributors:

    Patil, Arun (author) / Rudrapati, Ramesh (author)

    Published in:

    ICRRM 2019 – System Reliability, Quality Control, Safety, Maintenance and Management ; 127-132

    Publication date:

    2019-06-14

    Size:

    6 pages

    ISBN:

    978-981-13-8506-3 , 978-981-13-8507-0

    DOI:

    https://doi.org/10.1007/978-981-13-8507-0_20

    Type of media:

    Article/Chapter (Book)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    Five axis VMC , RSM , DFA , D3 steel , MRR Engineering , Quality Control, Reliability, Safety and Risk , Building Repair and Maintenance , Industrial Chemistry/Chemical Engineering , Operations Research, Management Science

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