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Locating Chart Choice Based on the Decision-Making Approach.

Vitalii Ivanov1, Frantisek Botko2, Vitalii Kolos1

  • 1Department of Manufacturing Engineering, Machines and Tools, Faculty of Technical Systems and Energy Efficient Technologies, Sumy State University, 2, Rymskogo-Korsakova St., 40007 Sumy, Ukraine.

Materials (Basel, Switzerland)
|May 28, 2022
PubMed
Summary
This summary is machine-generated.

This study presents a scientific method for selecting optimal locating charts in manufacturing complex parts. It enhances production planning efficiency and reduces costs in industries like automotive and machine building.

Keywords:
CAFDdecision makingflexible fixturelocating chartproduct innovationproduction planningsustainable manufacturing

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Area of Science:

  • Manufacturing Engineering
  • Production Planning
  • Fixture Design

Background:

  • Modern manufacturing demands efficient and cost-effective production planning.
  • Selecting appropriate locating charts is crucial for complex part manufacturing.
  • Existing methods lack a systematic approach for rational locating chart selection.

Purpose of the Study:

  • To develop a scientific approach for the rational choice of locating charts for complexly shaped parts.
  • To systematize design and technological features impacting locating chart selection.
  • To provide a decision-making framework for optimizing manufacturing processes.

Main Methods:

  • Systematization of part features influencing locating chart choice.
  • Development of a decision-making approach using bracket-type parts as a case study.
  • Creation of a design and technological feature matrix for materials like steel AISI 3135 and cast iron DIN 1691.
  • Classification of locating charts for bracket-type parts.
  • Verification of a mathematical model for rational locating chart selection based on workpiece structural codes.

Main Results:

  • A comprehensive matrix of design and technological features was established.
  • A classification system for locating charts specific to bracket-type parts was defined.
  • A validated mathematical model enables rational locating chart selection.
  • The developed approach is applicable to a wide range of bracket-type parts.

Conclusions:

  • The proposed scientific approach provides a rational method for selecting locating charts.
  • This methodology significantly improves the production planning stage in manufacturing.
  • The findings are beneficial for machine building, automotive, and related industries.
  • Implementation leads to enhanced production efficiency and cost reduction.