Journal of Scientific and Industrial Research

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Development of an Innovative Assembly Fixture for Machining Synchronization of Multi Fuse Parts on Vertical Machining Center and Productivity Enhancement


Affiliations
1 Ramdeobaba University, Nagpur, Formerly Shri Ramdeobaba College of Engineering and Management affiliated to RTMNU, Nagpur 440 013, Maharashtra, India
2 Venus Turn Techniques, Nagpur 440016, Maharashtra, India

Manufacturing fuse bodies for defence applications demand precision and efficiency, posing challenges due to the complexity of machining operations. This study proposes a novel fixture design to address these challenges on vertical machining center. The study highlights the practical utility of tailored fixture designs in defence manufacturing, offering a replicable framework for productivity enhancement. Two fixture types were modelled using SolidWorks, with the Type-B fixture selected for its superior production capabilities. The study focuses on a specialized Type-B fixture design for fuse body machining, supported by rigorous analysis and testing, distinguishes it and underscores its potential impact on defence manufacturing processes. ANSYS software, stress, strain, and deformation analysis guided the design and simulation process. The novel Type-B fixture reduced entire manufacturing time to 5.41 minutes per part, 33.76% quicker than conventional methods, resulting in a 34.02% increase in production rate (77 parts/shift). This research concludes critical efficiency concerns in defence manufacturing, offering a practical solution to improve productivity while maintaining quality standards. This research highlights the fixture's potential towards significant improvements in productivity and operational efficiency. The detailed comparison of performance of existing manufacturing process with the process using Type-B fixture is presented in this study.

Keywords

ANSYS, Fuse body, Novel Type-B fixture, Productivity improvement, Vertical machining center
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  • Development of an Innovative Assembly Fixture for Machining Synchronization of Multi Fuse Parts on Vertical Machining Center and Productivity Enhancement

Abstract Views: 19  | 

Authors

Purushottam S Barv
Ramdeobaba University, Nagpur, Formerly Shri Ramdeobaba College of Engineering and Management affiliated to RTMNU, Nagpur 440 013, Maharashtra, India
Yogesh V Deshpande
Ramdeobaba University, Nagpur, Formerly Shri Ramdeobaba College of Engineering and Management affiliated to RTMNU, Nagpur 440 013, Maharashtra, India
D R Zanwar
Ramdeobaba University, Nagpur, Formerly Shri Ramdeobaba College of Engineering and Management affiliated to RTMNU, Nagpur 440 013, Maharashtra, India
Sunil Bhoyar
Venus Turn Techniques, Nagpur 440016, Maharashtra, India
S S Pund
Ramdeobaba University, Nagpur, Formerly Shri Ramdeobaba College of Engineering and Management affiliated to RTMNU, Nagpur 440 013, Maharashtra, India

Abstract


Manufacturing fuse bodies for defence applications demand precision and efficiency, posing challenges due to the complexity of machining operations. This study proposes a novel fixture design to address these challenges on vertical machining center. The study highlights the practical utility of tailored fixture designs in defence manufacturing, offering a replicable framework for productivity enhancement. Two fixture types were modelled using SolidWorks, with the Type-B fixture selected for its superior production capabilities. The study focuses on a specialized Type-B fixture design for fuse body machining, supported by rigorous analysis and testing, distinguishes it and underscores its potential impact on defence manufacturing processes. ANSYS software, stress, strain, and deformation analysis guided the design and simulation process. The novel Type-B fixture reduced entire manufacturing time to 5.41 minutes per part, 33.76% quicker than conventional methods, resulting in a 34.02% increase in production rate (77 parts/shift). This research concludes critical efficiency concerns in defence manufacturing, offering a practical solution to improve productivity while maintaining quality standards. This research highlights the fixture's potential towards significant improvements in productivity and operational efficiency. The detailed comparison of performance of existing manufacturing process with the process using Type-B fixture is presented in this study.

Keywords


ANSYS, Fuse body, Novel Type-B fixture, Productivity improvement, Vertical machining center