Design Optimization of the Rigid Drive Disc of Clutch

Inhaltsverzeichnis (Table of Contents)

• Introduction
• Mathematical Models

Zielsetzung und Themenschwerpunkte (Objectives and Key Themes)

This study aims to numerically simulate and optimize the design of rigid drive discs for friction clutches, focusing on enhancing their dynamic characteristics for improved shock absorption and vibration damping during clutch engagement.

• Optimization of rigid drive disc design for improved dynamic characteristics
• Enhancement of shock absorption and vibration damping during clutch engagement
• Numerical simulation and finite element analysis to evaluate stress and deformation
• Comparison of various model designs and their impact on performance
• Design optimization to minimize stress and improve tension elasticity

Zusammenfassung der Kapitel (Chapter Summaries)

• Introduction: This chapter provides an overview of the importance of rigid drive discs in automotive vehicle ride comfort and driving smoothness, emphasizing the need for robust and reliable design. It also introduces the existing design procedures and different types of clutch plates used in passenger cars and commercial vehicles.
• Mathematical Models: This chapter presents the different models proposed for the rigid drive disc of the clutch, focusing on the reference model and several suggested models with similar mass. It describes the computational approach using SolidWorks 2012 for simulating the suggested models and analyzing their stress and deformation characteristics.

Schlüsselwörter (Keywords)

Rigid drive disc, friction clutch, design optimization, dynamic characteristics, shock absorption, vibration damping, finite element method, stress analysis, deformation, numerical simulation.