Innovative Approaches to Minimizing Mechanical Noise and Wear in Piston Pin Systems of High-Performance Engines

• Author(s): Vikrant Rayate
• Paper ID: 1706552
• Page: 482-492
• Published Date: 22-11-2024
• Published In: Iconic Research And Engineering Journals
• Publisher: IRE Journals
• e-ISSN: 2456-8880
• Volume/Issue: Volume 8 Issue 5 November-2024

Abstract

The piston pin system is one of the critical linkages in operation for high-performance engines but, up to now, remains one of the most important sources of mechanical noise and wear, having huge implications for the efficiency and durability of the power unit. This paper will address some promising approaches for their reduction, first through advanced material engineering, second through improved lubrication methods, and last but not least through state-of-the-art manufacturing. Applications of nanostructured coatings, such as TiN and DLC, showed a significant increase in wear resistance, with friction coefficient reductions by up to 60% in some cases within experimental studies (Smith et al., 2021). Other new damping solutions involve composite bushings and adaptive dynamic dampers; they are promising to reduce noise levels by 15-20 dB at high-speed driving conditions (Brown & Taylor, 2022). The following paper is based on a synthesis of experimental data and practical applications into a general framework to enhance the performance of piston pin systems by comparative analysis. Moreover, tables and charts are also included showing the trends of wear reduction and noise attenuation concerning various technologies. The results put into evidence the synergy between material innovation, tribological optimization, and precision manufacturing in view of improving reliability and efficiency in high-performance engines.

Keywords

Piston Pin Systems, Mechanical Noise, Wear Minimization, High-Performance Engines, Tribology, Nanomaterials, Damping of Vibration, Lubrication Technology.

Citations

IRE Journals:
Vikrant Rayate "Innovative Approaches to Minimizing Mechanical Noise and Wear in Piston Pin Systems of High-Performance Engines" Iconic Research And Engineering Journals Volume 8 Issue 5 2024 Page 482-492

IEEE:
Vikrant Rayate "Innovative Approaches to Minimizing Mechanical Noise and Wear in Piston Pin Systems of High-Performance Engines" Iconic Research And Engineering Journals, 8(5)