Sasi Kumar M

@kitcbe.com

Assistant Professor / Aeronautical Engineering
KIT-Kalaignarkarunanidhi Institute of Technology

Sasi Kumar M


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https://researchid.co/sasikumar0809

RESEARCH, TEACHING, or OTHER INTERESTS

Aerospace Engineering, Mechanical Engineering
27

Scopus Publications

205

Scholar Citations

9

Scholar h-index

8

Scholar i10-index

Scopus Publications

  • Design and fabrication of a multi-terrain triphibian quadcopter for airborne, terrestrial, and aquatic mobility
    S. L. Pradeep Kumar, B. Deeban, D. Santhosh Kumar, M. Sasi Kumar
    Discover Mechanical Engineering, 2026
    Unmanned aerial vehicles (UAVs) have garnered significant attention lately for their prospective use in civilian and military surveillance, search and rescue missions, and related activities. The advancement of innovative drones proficient in traversing land, water, and air is a focal point of considerable interest. However, research in the development of a triphibian drone designed for freight transportation with improved structural integrity is inadequate. This study outlines the design, development, and performance evaluation of a novel triphibian quadcopter designed for autonomous operation over three distinct terrains. The system has a utility box with a capacity of 3 kg, making it suitable for short-range distribution. The drone is equipped with GPS navigation, anti-collision sensors, and autonomous stabilization algorithms that provide maneuverability and adaptability to various surroundings. To ensure the reliability of the mechanics, both static and dynamic structural simulations were conducted using ANSYS software. The results indicate that the load distribution on the aluminum frame and foam landing gear exhibits little deformation and satisfactory strength. The prototype functioned well, demonstrating its ability to traverse various terrains seamlessly and self-regulate with little structural degradation. The triphibian quadcopter establishes a robust basis for future research on constructing UAVs capable of operating in several environments. Its demonstrated efficacy indicates potential use in autonomous logistics, disaster relief operations, and military surveillance missions, where adaptability to various modes is crucial.
  • Mechanical, morphological, elemental and thermal analysis of bio-hybrid epoxy composites reinforced with Areca husk fiber and seed filler
    M. Sasi Kumar, M. MakeshKumar, A. Gopinath, B. Krishna Varun, V. Sinchana Shri
    Polymer Bulletin, 2026
  • Effect of Heat Treatment on Surface Roughness, Impact Strength, and Tribological Behavior of Fused Deposition Modeling-Printed Polylactic Acid
    A. Captan Prabakaran, T. Sathies, M. Sasi Kumar, K. Rajasekar
    Journal of Materials Engineering and Performance, 2026
  • Sustainable hybrid composites from flax, vetiver, and Luffa cylindrica: Acoustic and structural performance
    Gokulkumar Sivanantham, Vinod Ayyappan, Prabhu Loganathan, Sasi Kumar Mani, Gurupranes Sivaraj Vijaya, Vijay Raghunathan, Sanjay Mavinkere Rangappa, Suchart Siengchin
    Polymer Composites, 2025
    Sustainable, eco‐friendly composites have always been of great interest due to increasing environmental awareness. In this regard, there is a continuous demand for alternative sustainable materials with enhanced performance. This study focuses on the development of sustainable hybrid composites using flax fibers, vetiver root fibers, and Luffa cylindrica fillers. Composites were fabricated using varied fiber loading ratios and evaluated for tensile, flexural, impact, interlaminar shear strengths, and sound absorption capabilities. Pure flax composites (FV) exhibited the highest tensile strength (40.2 MPa), whereas the hybrid containing two flax layers and 51 g of vetiver fiber (FVL3) achieved the best acoustic absorption, attenuating up to 65% of incident sound. Morphological analysis via SEM revealed that optimized fiber–matrix bonding and a well‐distributed porous network in FVL3 contributed to its superior sound absorption. Although vetiver‐rich composites showed improved impact behavior, excessive vetiver content led to diminished tensile properties due to lower cellulose levels and reduced fiber–matrix adhesion. The results confirm that balancing flax and vetiver inclusions can tailor mechanical and acoustic performance. Consequently, FVL3 is recommended for noise mitigation applications, such as acoustic wall panels, where moderate mechanical strength and high sound absorption are essential. Meanwhile, pure flax‐based laminates (FV) can be prioritized in load‐bearing scenarios requiring higher tensile strength. Therefore, the findings underscore the potential of flax–vetiver–luffa (FVL) hybrids as sustainable alternatives for structural and noise‐control applications, offering a route to environmentally responsible composite design without sacrificing performance.Highlights Eco‐friendly hybrid composites developed using flax, vetiver, and luffa. Alkali treatment improves fiber‐matrix bonding and composite performance. Flax composites achieve the highest tensile strength of 40.2 MPa. FVL3 composite absorbs 59% of sound, ideal for acoustic applications. Sustainable, biodegradable materials reduce environmental impact effectively.
  • Examining the performance of eco-friendly flax fiber composites: mechanical, thermal and durability properties—review
    Diwahar Periasamy, K. Prakalathan, Bharathi Manoharan, M. Sasi kumar, Senthilkumar Krishnasamy, Aravind Dhandapani, Senthil Muthu Kumar Thiagamani, N. Rajini, Sikiru O. Ismail, Rushdan Ahmad Ilyas, Varagunapandiyan Natarajan
    Biomass Conversion and Biorefinery, 2025
  • A review on the effect of fiber treatment and fillers on mechanical properties of kenaf fiber–reinforced composites
    Makeshkumar Mani, Sasi Kumar Mani, Felix Sahayaraj Arockiasamy, Gokulkumar Sivanantham, Jenish Iyyadurai
    International Polymer Processing, 2025
    Nowadays, fiber-reinforced composites have gained attention due to their potential to replace conventional materials in numerous applications. Researchers have shown considerable interest in using natural fiber–based composites for structural applications in the building, aerospace, defense, military, and automotive sectors. These materials possess unique characteristics that enhance their appeal. Kenaf fiber has become a preferred reinforcement material for composites due to its rapid growth in various climatic conditions and economic viability. It is increasingly recognized as an eco-friendly alternative to glass fiber composites. To enhance the performance of composites, researchers have found that the use of filler materials and chemical treatments significantly improve the mechanical characteristics and reduce the organic content in composite laminates. This study provides an overview of various chemical treatments that have been studied for kenaf fiber, the mechanical properties, and the applications of kenaf fiber in various fields. It explores the impact of chemical treatments on the surface of kenaf fiber and the mechanical properties of the composites created with various amounts of natural and synthetic fillers.
  • Green technologies for modern manufacturing
    Sasi Kumar Mani, Kumaresan Mayakannan, Sindhu Selvaraj, Krishna Varun Balasubramanian, Sinchana Shri Vinu
    Green Manufacturing Challenges and Applications, 2025
    Green manufacturing is an innovative method of production that focuses on environmental sustainability, efficient use of resources, and minimal environmental harm. Green manufacturing involves a diverse array of techniques and technology that focus on minimizing the environmental impact of production activities. The process entails incorporating sustainable energy sources, such as solar and wind power, in order to diminish dependence on non-renewable fuels and mitigate the release of greenhouse gases. Green manufacturing offers numerous advantages. It not only safeguards the environment by diminishing pollution and preserving resources but also results in cost savings through enhanced efficiency and waste reduction. Furthermore, implementing green manufacturing enables firms to adhere to rigorous environmental rules and satisfy the increasing customer need for environmentally friendly products. This, in turn, improves their market competitiveness and enhances their brand reputation. This chapter discusses the essential characteristics and importance of green manufacturing and its classification and comprehensive examination of all its facets.
  • Green manufacturing approaches: Case study
    Sasi Kumar Mani, Kumaresan Mayakannan, Sindhu Selvaraj, Nanssy Vijayakumar, Dharani Subramani, Vaishali Rajasekaran
    Green Manufacturing Challenges and Applications, 2025
    The novel approach to industrial operations known as “green manufacturing” places an emphasis on the preservation of the natural environment. The purpose of this study is to investigate the development of environmentally friendly manufacturing processes across a variety of industries, as well as to present case examples that illustrate their implementation. This chapter investigates the advantages of environmentally responsible production, which include decreased waste, enhanced resource efficiency, and reduced negative influence on the environment. The report also examines the difficulties that are encountered while implementing environmentally friendly practices, such as the initial expenses and the limitations of technology. Finally, it highlights the growing significance of environmentally responsible production in the pursuit of sustainable development.
  • Improvement of physical, chemical, mechanical, and morphological properties of Luffa cylindrica fiber reinforcement composites using Java seed filler
    Sasi Kumar M., S. Sathish, M. Makeshkumar, M. Bharathi
    Biomass Conversion and Biorefinery, 2025
  • Characterization of chemically treated luffa aegyptiaca fiber-reinforced epoxy composites with varying bio-filler
    Sasi Kumar M, Hemalatha S, Ponnavan S, Varunkumar V
    Journal of Adhesion Science and Technology, 2025
    In this investigation, Luffa aegyptiaca–reinforced epoxy composites with varying filler content were produced using the compression molding process to conduct physical, mechanical, and morphological (scanning electron microscope, SEM) analyses. Specimens were created by using L. aegyptiaca as reinforcement, L. aegyptiaca seeds as filler, and epoxy as the matrix for the experiment. The moisture, wax, hemicellulose, and lignin components of the Luffa fiber were removed using a 5% NaOH solution for chemical treatment. In this experiment, L. aegyptiaca seed powder (filler) with varying weight percentages (0%, 5%, 10%, 15%, and 20%) was used to enhance the characteristics of the composite. The physio-mechanical properties of the composite were assessed using tensile, flexural, impact, interlaminar shear strength, water absorption, and hardness tests whereas the composite’s morphology and elemental composition of materials was studied using SEM and EDAX analysis. After the experiment, mechanical properties, such as tensile strength, flexural strength, impact resistance, and hardness, increased by 18.36 MPa, 47.39 MPa, 12.98 kJ/m2, and 5.75 MPa, respectively, when 15 wt% L. aegyptiaca seed powder filler was added. The results of the SEM study revealed improved adhesion between the fiber and resin, thereby enhancing the mechanical properties of the composite for use in various industries, including aerospace, automotive, defense, marine, sports, and musical instruments.
  • Surface coating influence on the fiber reinforcement for automobile composites
    M. Sasi Kumar, S. Sathish, M. Makeshkumar, N. Venkatesh
    Sustainable Composites for Automotive Engineering, 2025
  • The role of the matrix in automobile composites—studies on recent advancements
    M. Sasi Kumar, S. Sathish, M. Makeshkumar, N. Venkatesh
    Sustainable Composites for Automotive Engineering, 2025
  • Behavioral Study of Tribological Coating of Smart Functional Composites for High Wear Applications
    M. Sasi Kumar, N. Venkatesh, M. Makesh Kumar, S.L. Pradeep Kumar, D. Santhosh Kumar, B. Deeban
    Functional Composites the Role in Modern Engineering, 2025
  • Adapting a phenomenological model for predicting acoustical behaviour of Camellia sinensis/Ananas comosus/E-glass fibre-blended epoxy hybrid composites
    Gokulkumar Sivanantham, Thyla Pudukarai Ramaswamy, Sathish Selvaraj, Aravindh Murugan, Felix Sahayaraj Arockiasamy, Sasi Kumar Mani, Md. Elias Uddin
    Proceedings of the Institution of Mechanical Engineers Part L Journal of Materials Design and Applications, 2024
  • Advancements in chemical modifications using NaOH to explore the chemical, mechanical and thermal properties of natural fiber polymer composites (NFPC)
    Sasi Kumar Mani, Sathish Selvaraj, Gokulkumar Sivanantham, Felix Sahayaraj Arockiasamy, Jenish Iyyadurai, Makeshkumar Mani
    International Polymer Processing, 2024
  • Experimental studies on water absorption and mechanical properties of Hibiscus sabdariffa (Roselle) and Urena lobata (Caesar weed) plant Fiber-Reinforced hybrid epoxy composites: effect of weight fraction of nano-graphene fillers
    Mani Sasi Kumar, Selvaraj Sathish, Mani Makeshkumar, Sivanantham Gokulkumar
    International Polymer Processing, 2024
  • Effect of Various Manufacturing Techniques on Mechanical Properties of Biofiber-Reinforced Composites
    M. Sasi Kumar, S. Sathish, M. Makeshkumar, S. Gokulkumar, L. Prabhu, S. Hemalatha, S. Ponnavan, Nancy Chopra
    Sustainable Machining and Green Manufacturing, 2024
  • Fire retardant potential of natural fiber reinforced polymer composites: a review
    A. Felix Sahayaraj, Tamil Selvan M, M. Sasi Kumar, S. Sathish, S. Gokulkumar, I. Jenish, M. Makeshkumar
    Polymer Plastics Technology and Materials, 2024
  • Recent developments in natural and synthetic fibers, polymers, and their composites
    Sathish Selvaraj, M. Sasi Kumar, M. Makeshkumar, Gokulkumar Sivanantham, Prabhu Loganathan, M. Gopinathan, R. Nirmalsagayaraja
    Surface Modification and Coating of Fibers Polymers and Composites Techniques Properties and Applications, 2024
  • Effect of zirconium and niobium on the microstructure and mechanical properties of high-strength low-alloy cast steels
    M Makeshkumar, J Anburaj, M Sasi Kumar, A Johnson Santhosh
    Materials Research Express, 2023
  • Effect of Manufacturing Techniques on Mechanical Properties of Natural Fibers Reinforced Composites for Lightweight Products—A Review
    M. Sasi Kumar, S. Sathish, M. Makeshkumar, S. Gokulkumar, A. Naveenkumar
    Springer Proceedings in Materials, 2023
  • Processing and Characterization of Strychnos nux-vomica Fiber Reinforced Epoxy based Composite Material
    M. Sasi Kumar, S Priyadharshini, Hari Prasath, R Moharir, S Kumar, et al.
    Nanoworld Journal, 2023
  • Mechanical Characterization of Fiber Reinforced Epoxy Composite: Ziziphus oenoplia Fiber
    Nanoworld Journal, 2023
  • Investigation on surface modified Al7075 with niobium by friction stir processing
    M. Makeshkumar, S.R. Surender, R. Madesh, M. Sasi Kumar, K.P. Shankar
    Materials Today Proceedings, 2021
  • Microstructural and mechanical properties evaluation of dissimilar aluminum alloy and bronze joints using friction stir welding
    M. Makeshkumar, S.R. Surender, S. Arunprakash, R. Madesh, M. Sasi Kumar, K. Sudharsan
    Materials Today Proceedings, 2021
  • Performance characteristics of GMAW process parameters of multi-bead overlap weld claddings
    R Madesh, M Makeshkumar, S R Surender, K P Shankar, M Sasi Kumar
    Iop Conference Series Materials Science and Engineering, 2020
  • Numerical investigation over a typical launch vehicle with protrusion
    Arpn Journal of Engineering and Applied Sciences, 2015

RECENT SCHOLAR PUBLICATIONS

  • Mechanical, morphological, elemental and thermal analysis of bio-hybrid epoxy composites reinforced with Areca husk fiber and seed filler
    M Sasi Kumar, M MakeshKumar, A Gopinath, B Krishna Varun, ...
    Polymer Bulletin 83 (5), 225 , 2026
    2026
    Citations: 1
  • Effect of Heat Treatment on Surface Roughness, Impact Strength, and Tribological Behavior of Fused Deposition Modeling-Printed Polylactic Acid
    A Captan Prabakaran, T Sathies, M Sasi Kumar, K Rajasekar
    Journal of Materials Engineering and Performance, 1-11 , 2026
    2026
  • Design and fabrication of a multi-terrain triphibian quadcopter for airborne, terrestrial, and aquatic mobility
    SL Pradeep Kumar, B Deeban, D Santhosh Kumar, M Sasi Kumar
    Discover Mechanical Engineering 5 (1), 20 , 2026
    2026
  • The role of the matrix in automobile composites—studies on recent advancements
    MS Kumar, S Sathish, M Makeshkumar, N Venkatesh
    Sustainable Composites for Automotive Engineering, 93-108 , 2026
    2026
  • Surface coating influence on the fiber reinforcement for automobile composites
    MS Kumar, S Sathish, M Makeshkumar, N Venkatesh
    Sustainable Composites for Automotive Engineering, 271-293 , 2026
    2026
  • Sustainable hybrid composites from flax, vetiver, and Luffa cylindrica : Acoustic and structural performance
    G Sivanantham, V Ayyappan, P Loganathan, SK Mani, GS Vijaya, ...
    Polymer Composites 46 (14), 12818-12834 , 2025
    2025
    Citations: 21
  • Examining the performance of eco-friendly flax fiber composites: mechanical, thermal and durability properties
    D Periasamy, K Prakalathan, B Manoharan, MS kumar, S Krishnasamy, ...
    Biomass Conversion and Biorefinery 15 (19), 26419-26433 , 2025
    2025
    Citations: 10
  • A review on the effect of fiber treatment and fillers on mechanical properties of kenaf fiber–reinforced composites
    M Mani, SK Mani, FS Arockiasamy, G Sivanantham, J Iyyadurai
    International Polymer Processing 40 (4), 373-390 , 2025
    2025
    Citations: 7
  • Behavioral Study of Tribological Coating of Smart Functional Composites for High Wear Applications
    MS Kumar, N Venkatesh, MM Kumar, SLP Kumar, DS Kumar, B Deeban
    Functional Composites: Role in Modern Engineering, 169-187 , 2025
    2025
  • Green technologies for modern manufacturing
    SK Mani, K Mayakannan, S Selvaraj, KV Balasubramanian, SS Vinu
    Green Manufacturing, 38-57 , 2025
    2025
    Citations: 1
  • Characterization of chemically treated luffa aegyptiaca fiber-reinforced epoxy composites with varying bio-filler
    M Sasi Kumar, S Hemalatha, S Ponnavan, V Varunkumar
    JOURNAL OF ADHESION SCIENCE AND TECHNOLOGY 39 (12), 1894-1912 , 2025
    2025
    Citations: 4
  • Improvement of physical, chemical, mechanical, and morphological properties of Luffa cylindrica fiber reinforcement composites using Java seed filler
    S Sathish, M Makeshkumar, M Bharathi
    Biomass Conversion and Biorefinery 15 (6), 9679-9689 , 2025
    2025
    Citations: 13
  • Role of Cobots and Industrial Robots in Industry 5.0
    M Makeshkumar, M Sasi Kumar, J Anburaj, S Ramesh Babu, ...
    Intelligent Robots and Cobots: Industry 5.0 Applications, 43-63 , 2025
    2025
    Citations: 4
  • Recent developments in natural and synthetic fibers, polymers, and their composites
    S Selvaraj, MS Kumar, M Makeshkumar, G Sivanantham, P Loganathan, ...
    Surface Modification and Coating of Fibers, Polymers, and Composites, 19-41 , 2025
    2025
    Citations: 3
  • Recent developments in natural and synthetic fibers, polymers
    S Selvaraj, MS Kumar, M Makeshkumar, G Sivanantham, P Loganathan, ...
    Surface Modification and Coating of Fibers, Polymers, and Composites … , 2024
    2024
  • Adapting a phenomenological model for predicting acoustical behaviour of Camellia sinensis / Ananas comosus /E-glass fibre-blended epoxy hybrid composites
    G Sivanantham, T Pudukarai Ramaswamy, S Selvaraj, A Murugan, ...
    Proceedings of the Institution of Mechanical Engineers, Part L: Journal of … , 2024
    2024
    Citations: 7
  • Advancements in chemical modifications using NaOH to explore the chemical, mechanical and thermal properties of natural fiber polymer composites (NFPC)
    SK Mani, S Selvaraj, G Sivanantham, FS Arockiasamy, J Iyyadurai, ...
    International Polymer Processing 39 (4), 406-432 , 2024
    2024
    Citations: 24
  • Effect of Various Manufacturing Techniques on Mechanical Properties of Biofiber‐Reinforced Composites
    M Sasi Kumar, S Sathish, M Makeshkumar, S Gokulkumar, L Prabhu, ...
    Sustainable machining and green manufacturing, 33-63 , 2024
    2024
    Citations: 4
  • Characterization and physicochemical properties of lignocellulosic fibers from Fishtail Palm ( Caryota mitis ) Leaf Stalks
    G Sivanantham, G Sivaraj Vijaya, A Murugan, S Selvaraj, K Thangavelu, ...
    Composites and Advanced Materials 33, 26349833241256968 , 2024
    2024
    Citations: 8
  • Fire retardant potential of natural fiber reinforced polymer composites: A review
    A Felix Sahayaraj, TS M, M Sasi Kumar, S Sathish, S Gokulkumar, ...
    Polymer-Plastics Technology and Materials 63 (7), 771-797 , 2024
    2024
    Citations: 42

MOST CITED SCHOLAR PUBLICATIONS

  • Fire retardant potential of natural fiber reinforced polymer composites: A review
    A Felix Sahayaraj, TS M, M Sasi Kumar, S Sathish, S Gokulkumar, ...
    Polymer-Plastics Technology and Materials 63 (7), 771-797 , 2024
    2024
    Citations: 42
  • Advancements in chemical modifications using NaOH to explore the chemical, mechanical and thermal properties of natural fiber polymer composites (NFPC)
    SK Mani, S Selvaraj, G Sivanantham, FS Arockiasamy, J Iyyadurai, ...
    International Polymer Processing 39 (4), 406-432 , 2024
    2024
    Citations: 24
  • Sustainable hybrid composites from flax, vetiver, and Luffa cylindrica : Acoustic and structural performance
    G Sivanantham, V Ayyappan, P Loganathan, SK Mani, GS Vijaya, ...
    Polymer Composites 46 (14), 12818-12834 , 2025
    2025
    Citations: 21
  • Experimental studies on water absorption and mechanical properties of Hibiscus sabdariffa (Roselle) and Urena lobata (Caesar weed) plant Fiber–Reinforced …
    M Sasi Kumar, S Sathish, M Makeshkumar, S Gokulkumar
    International Polymer Processing 39 (1), 59-69 , 2024
    2024
    Citations: 15
  • Improvement of physical, chemical, mechanical, and morphological properties of Luffa cylindrica fiber reinforcement composites using Java seed filler
    S Sathish, M Makeshkumar, M Bharathi
    Biomass Conversion and Biorefinery 15 (6), 9679-9689 , 2025
    2025
    Citations: 13
  • Effect of manufacturing techniques on mechanical properties of natural fibers reinforced composites for lightweight products—a review
    M Sasi Kumar, S Sathish, M Makeshkumar, S Gokulkumar, ...
    International Symposium on Lightweight and Sustainable Polymeric Materials … , 2023
    2023
    Citations: 11
  • Investigation on surface modified Al7075 with niobium by friction stir processing
    M Makeshkumar, SR Surender, R Madesh, MS Kumar, KP Shankar
    Materials Today: Proceedings 45, 8054-8058 , 2021
    2021
    Citations: 11
  • Examining the performance of eco-friendly flax fiber composites: mechanical, thermal and durability properties
    D Periasamy, K Prakalathan, B Manoharan, MS kumar, S Krishnasamy, ...
    Biomass Conversion and Biorefinery 15 (19), 26419-26433 , 2025
    2025
    Citations: 10
  • Microstructural and mechanical properties evaluation of dissimilar aluminum alloy and bronze joints using friction stir welding
    M Makeshkumar, SR Surender, S Arunprakash, R Madesh, MS Kumar, ...
    Materials Today: Proceedings 47, 5239-5244 , 2021
    2021
    Citations: 9
  • Characterization and physicochemical properties of lignocellulosic fibers from Fishtail Palm ( Caryota mitis ) Leaf Stalks
    G Sivanantham, G Sivaraj Vijaya, A Murugan, S Selvaraj, K Thangavelu, ...
    Composites and Advanced Materials 33, 26349833241256968 , 2024
    2024
    Citations: 8
  • A review on the effect of fiber treatment and fillers on mechanical properties of kenaf fiber–reinforced composites
    M Mani, SK Mani, FS Arockiasamy, G Sivanantham, J Iyyadurai
    International Polymer Processing 40 (4), 373-390 , 2025
    2025
    Citations: 7
  • Adapting a phenomenological model for predicting acoustical behaviour of Camellia sinensis / Ananas comosus /E-glass fibre-blended epoxy hybrid composites
    G Sivanantham, T Pudukarai Ramaswamy, S Selvaraj, A Murugan, ...
    Proceedings of the Institution of Mechanical Engineers, Part L: Journal of … , 2024
    2024
    Citations: 7
  • Characterization of chemically treated luffa aegyptiaca fiber-reinforced epoxy composites with varying bio-filler
    M Sasi Kumar, S Hemalatha, S Ponnavan, V Varunkumar
    JOURNAL OF ADHESION SCIENCE AND TECHNOLOGY 39 (12), 1894-1912 , 2025
    2025
    Citations: 4
  • Role of Cobots and Industrial Robots in Industry 5.0
    M Makeshkumar, M Sasi Kumar, J Anburaj, S Ramesh Babu, ...
    Intelligent Robots and Cobots: Industry 5.0 Applications, 43-63 , 2025
    2025
    Citations: 4
  • Effect of Various Manufacturing Techniques on Mechanical Properties of Biofiber‐Reinforced Composites
    M Sasi Kumar, S Sathish, M Makeshkumar, S Gokulkumar, L Prabhu, ...
    Sustainable machining and green manufacturing, 33-63 , 2024
    2024
    Citations: 4
  • Effect of zirconium and niobium on the microstructure and mechanical properties of high-strength low-alloy cast steels
    M Makeshkumar, J Anburaj, MS Kumar, AJ Santhosh
    Materials Research Express 10 (5), 056506 , 2023
    2023
    Citations: 4
  • Performance characteristics of GMAW process parameters of multi-bead overlap weld claddings
    R Madesh, M Makeshkumar, SR Surender, KP Shankar, M Sasi Kumar
    IOP Conference Series: Materials Science and Engineering 988 (1), 012013 , 2020
    2020
    Citations: 4
  • Recent developments in natural and synthetic fibers, polymers, and their composites
    S Selvaraj, MS Kumar, M Makeshkumar, G Sivanantham, P Loganathan, ...
    Surface Modification and Coating of Fibers, Polymers, and Composites, 19-41 , 2025
    2025
    Citations: 3
  • Mechanical, morphological, elemental and thermal analysis of bio-hybrid epoxy composites reinforced with Areca husk fiber and seed filler
    M Sasi Kumar, M MakeshKumar, A Gopinath, B Krishna Varun, ...
    Polymer Bulletin 83 (5), 225 , 2026
    2026
    Citations: 1
  • Green technologies for modern manufacturing
    SK Mani, K Mayakannan, S Selvaraj, KV Balasubramanian, SS Vinu
    Green Manufacturing, 38-57 , 2025
    2025
    Citations: 1