Research Excellence Award

Thillikkani Shanmugam
Suguna College of Engineering, India

Thillikkani Shanmugam
Affiliation	Suguna College of Engineering
Country	India
Scopus ID	57213519516
Documents	18
Citations	57
h-index	3
Subject Area	Experimental Methods
Event	Global Energy Awards

Thillikkani Shanmugam is an academic researcher whose work focuses on experimental methods, mechanical systems, composite materials, fatigue analysis, and automotive engineering applications. Her scholarly contributions emphasize performance evaluation, failure investigation, and optimization techniques relevant to industrial and transportation systems.[1]

Abstract

This article summarizes the academic achievements of Thillikkani Shanmugam in experimental and mechanical engineering research. Her publications address fatigue behavior, suspension systems, composite materials, and engineering optimization. The body of work demonstrates practical relevance to vehicle reliability, structural performance, and material characterization within contemporary engineering environments.[2]

Keywords

Experimental Methods, Fatigue Analysis, Composite Materials, Failure Investigation, Vehicle Suspension Systems, Mechanical Engineering, Finite Element Analysis, Materials Characterization.

Introduction

The researcher has contributed to engineering studies involving durability assessment and material performance. Her investigations frequently combine analytical methods with practical applications in transportation and manufacturing sectors. Such work supports improved engineering design, operational safety, and long-term system reliability.[3]

Research Profile

According to publicly available scholarly records, Thillikkani Shanmugam has accumulated citations and peer-reviewed publications across mechanical and materials engineering domains. Her profile reflects sustained engagement with applied engineering challenges, particularly those associated with heavy vehicles, polymers, and structural components used in demanding operating conditions.

Research Contributions

Major contributions include fatigue life prediction of suspension systems, failure analysis of leaf springs, evaluation of shackle brackets under dynamic loading, and optimization of engineering materials. These studies provide evidence-based insights that support improved design decisions and enhanced component performance in industrial applications.[4]

Publications

Her publication portfolio includes research on heavy vehicle suspension systems, engineering failure analysis, polymer matrix composites, electromagnetic vibration optimization, and nanomaterial-enhanced automotive components. The collective output highlights interdisciplinary engagement across mechanical design, materials science, and computational engineering methodologies.[5]

Research Impact

The research has contributed to the understanding of structural durability and material behavior in engineering systems. Citation activity and continued publication demonstrate relevance within the scholarly community. The outcomes support both academic advancement and industrial problem-solving initiatives.

Award Suitability

The documented research record aligns with the objectives of the Global Energy Awards by emphasizing innovation, engineering analysis, and practical technological advancement. Contributions in optimization, materials performance, and system reliability reflect qualities commonly recognized in academic excellence and research achievement programs.

Conclusion

Thillikkani Shanmugam’s scholarly work demonstrates consistent engagement with engineering research and experimental investigation. Through publications addressing mechanical performance, fatigue assessment, and material innovation, she has established a record of contributions that support knowledge development and engineering practice.

External Links

• Google Scholar Profile
• Scopus Author Profile
• Global Energy Awards

References

1. Elsevier. (n.d.). Scopus author details: Thillikkani Shanmugam, Author ID 57213519516. Scopus.
   https://www.scopus.com/authid/detail.uri?authorId=57213519516
2. Thillikkani, S., & Nataraj, M. (2019). Failure analysis of leaf spring suspension system for heavy load truck vehicle. International Journal of Heavy Vehicle Systems.
   https://www.inderscienceonline.com/doi/abs/10.1504/IJHVS.2020.104413
3. Thillikkani, S., & Nataraj, M. (2020). Fatigue life prediction of heavy vehicle suspension system under varying load conditions. Advances in Mechanical Engineering.
   https://journals.sagepub.com/doi/10.1177/1687814020968325
4. Thillikkani, S., Nataraj, M., King, F. L., et al. (2021). Failure analysis of shackle bracket in Airbus suspension under dynamic loading conditions. Engineering Failure Analysis.
   https://www.sciencedirect.com/journal/engineering-failure-analysis
5. Thillikkani Shanmugam, S., & Abraham, D. S. M. (2025). Mechanical Characterization and Thermal Investigation of Nylon Polymer Matrix Composites Used in Automotive Power Train Systems. Materials Research Express.
   https://iopscience.iop.org/journal/2053-1591