Kaliappan Seeniappan

• Doctor of Engineering
• Professor at KCG College of Technology Chennai

The present study investigates friction stir welded AA6065-10% Al 2 O 3 MMC by incorporating varying percentages of heat treated biosilica. The biosilica is first extracted from waste cassava peel, and it is heated under 1500°C, to get properly arranged crystalline structured biosilica particle. During friction stir welding process, the biosilica p...

This study focuses on enhancing the mechanical characteristics and sustainability of flexible food packaging composites made from Polyvinyl Alcohol (PVA) reinforced with Pearl Millet Husk Biosilica and Areca Microfiber. The high silica content in biosilica from pearl millet husk provides excellent reinforcement, while areca microfiber improves the...

div class="section abstract"> This research was conducted with the aim of exploring the usage of advanced lightweight materials such as aluminum matrix composite and aramid fiber reinforcement polymer for increased structural integrity of the hood of an automotive vehicle. The automotive sector is moving toward lightweight materials because of the...

div class="section abstract"> This research investigates the development of a heat pipe heat exchanger coated with graphene for cooling and purification of automobile exhausts. The heat exchanger directly affects the performance of the engine because proper heat dissipation and transfer can improve engine performance, reduce fuel consumption, and d...

In the rapidly evolving landscape of e-commerce, the need for advanced personalization strategies has become paramount. This research endeavors to develop a cutting-edge Convolutional Neural Network (CNN)-driven personalization engine explicitly tailored for real-time content marketing in ecommerce platforms. The proposed system goes beyond traditi...

This research deals with the optimization of milling parameters for Al7075/nano SiC/TiC hybrid metal matrix composites by Taguchi approach an Artificial Neural Network. Experimental trials conducted in accordance with Taguchi L9 orthogonal array design conveyed that the optimum combination to minimize surface roughness is with a cutting speed of 10...

In this research, the optimization of composite materials for improving their mechanical properties is investigated. It is achieved by applying different compositions of the PTLLDPE matrix, SiC nanoparticles, and carbon fibre filler. For this purpose, six composite samples are prepared using different compositions of PTLLDPE from 40% to 60%, SiC na...

The AM60B magnesium alloy remains a pivotal player in the pursuit of lighter, biodegradable and more sustainable solutions for various biomedical implants because of its excellent machinability, exceptional strength and resistance to degradation. However, AM60B magnesium alloys exhibit poor machinability when machined by conventional methods, since...

In this research, the integration of meta-heuristic optimization into health monitoring systems is explored for its transformative potential. The study employs a comprehensive evaluation approach, focusing on Performance Metrics, Resource Utilization, and Scalability Testing. Results indicate a consistently high level of accuracy (90% to 97%) and s...

In this paper, we explore the application of Particle Swarm Optimization (PSO) to maximize the performance of Wavelength Division Multiplexing (WDM) networks by optimizing optical fiber paths. Through rigorous evaluation metrics such as Data Transmission Speed Analysis and Congestion Reduction Assessment across ten trials, our findings reveal consi...

This study investigates the application of simulation-driven metaheuristic algorithms to enhance agricultural operations, specifically focusing on their effectiveness and efficiency in addressing the complexities of modern agricultural systems. This study evaluates the computational efficacy of metaheuristic algorithms in crop planning, resource al...

This study studies the implementation of machine learning (ML) algorithms to improve power distribution in an industrial context, concentrating on the essential issue of anticipating energy consumption. Various ML models, including Support Vector Machine (SVM), Artificial Neural Network (ANN), Decision Trees (DT), and Random Forests (RF), were exte...

This study focuses on the optimisation of the wire electric discharge machining (WEDM) process for WE43 alloy using machine learning methods. The alloy, made of magnesium (Mg), copper (Cu), rare earth (RE) elements, and zirconium (Zr), is extensively employed in aerospace and automotive sectors for its lightweight and high-strength features. The re...

The Epoxy-based hybrid composites are attention in various engineering domains. Distinctively, natural fiber-made epoxy composites are advantageous over synthetic fiber-made composites and attracted in automotive applications such as set frames, interior panels, dashboards, etc. Moreover, due to its high moisture absorption nature, the epoxy compos...

This study embarks on a novel exploration of integrating renewable power sources, particularly wind and solar energy, into edible devices, focusing on the Indian power grid's context. As the prevalence of renewable energy sources grows, the dynamics of power systems are rapidly evolving, presenting unique challenges such as network stability and fl...

This work introduces a novel and expedient method to evaluate the impact of lightning-induced current variables on wearable and implantable devices. The method focuses on analyzing the waveform parameters of lightning intensity modulation, a crucial factor in assessing the vulnerability of these devices to lightning strikes. Key waveform properties...

This study addresses the challenges of synchronous reconfiguration in implantable distributed generation systems, aiming to optimize power arrangement using an evolutionary whale optimization technique. The research focuses on overcoming the degradation in utility grid performance caused by varied responses, which significantly impacts the efficacy...

Using a use-case approach, we go into the specific ontology development, adding semantic rules to enhance its formulation and resolution. Our methodology seeks to capture the heterogeneity, variety, and complexity of data, as data itself provides these attributes. This explains why the different Big Data analytics difficulties are adaptable and sca...

The hybrid aluminium alloy matrix composites are adopted in high-strength-to-weight ratio applications with technical benefits, including high strength, good hardness, better stability, and improved thermal stability. This research is enhancing microstructural and mechanical functional behaviours of the hybrid aluminium alloy (AA2024) nanocomposite...

Technological growth and biodegradable waste natural fibers are significant choices in polymer matrix composite preparation because of their distinct qualities from monopoly matrix. During the fabrication process, the natural fiber faces poor compatibility and lack of adhesive behavior, resulting in reduced tensile strength and stiffness of the com...

One technology with significant potential is concentrated solar technology. The effectiveness of this technique is influenced by both Direct Normal Irradiance (DNI) and the meteorological conditions at the location. Among the crucial components of the concentrated solar system, the reflector material holds particular importance as it is responsible...

The invention of semiconductor substances significantly aided technological advancements in catalysis. The current work employs a straightforward and environmentally safe chemical method to create zinc oxide nanoparticles (ZnO NPs) utilising Moringa oleifera leaf extract. A potential substitute for traditional synthetic procedures is the generation...

This article explores the impact of nano-silica on the properties of woven flax fibre/epoxy composites. Using compression moulding, epoxy/flax/silica hybrid nanocomposites were produced. The nano-silica was dispersed in the epoxy matrix via ultrasonication at various weight ratios. A series of tests, including crack durability, dynamic mechanical a...

This research article presents a new approach for addressing the issue of packet loss and slow response in robot control cyber-physical systems (CPS). The integration of computer units and physical devices in CPS for robot control can lead to interaction between services that results in packet loss and slow response. To solve this problem, the stud...

This research study focuses on the development of a communication network for industrial sectors using internet of things (IoT) technology in order to enhance privacy and security in the cyber-physical system. The increasing reliance on cyber-physical systems in industrial sectors has highlighted the need for secure and private communication networ...

The study explores how dyes can improve the strength and optical properties of composites made from flax seed fiber and epoxy, which are incorporated with biosynthesised TiO2 nanoparticles derived from the Curcuma longa plant. The TiO2 nanoparticles were produced using a synthesis method that involved curcumin from Curcuma longa as a reducing and s...

This research delves into the effects of different alkalization treatment approaches on the mechanical characteristics of epoxy matrix composites that are reinforced with natural bamboo fibers and enriched with egg and coconut shell powders as fillers. Various weight ratios of fibers and fillers were investigated, specifically at 5%, 10%, 15%, 20%,...

The ability of PMUs to provide precise, synchronized readings of voltage, current and frequency has made them valuable for the observation of microgrids. In some microgrids, PMU s are utilized without a current transformer and only measure voltage phasor values. This research outlines a procedure to use μPMU (or micro-PMU) voltage readings to ascer...

It is vital to conduct research on the behaviour of natural fibre composites under cyclic loading in order to have confidence in the mechanical durability. During this study, the fabrication of composite laminates will be carried out by the hybridization effect of natural and synthetic fibres. Quantifying the impact that the SiC filler (10, 20, and...

div class="section abstract"> In order to determine if carbon–luffa hybrid composites are appropriate for automotive applications, this study gives a thorough mechanical evaluation of such materials. A potential path to improving the performance of automotive components is provided by combining the remarkable strength and stiffness of carbon fibers...

Worldwide requirement of energy is presently increasing beyond the capacity of generation. To fulfilling the upcoming energy needs effectively, generation of energy need to be enhanced and sustainable energy sources should be examined insistently. Compelling energy arrangements have the option to address future problems by using the alternative sus...

Desalination techniques based on renewable energy are emerging as a viable option. Solar stills are one such technology that has seen a resurgence of interest in recent years. The study heavily centered on the water quality issues associated with solar still distillate output, as it is frequently considered that this distillate is fit for consumpti...

As fossil fuel resources are depleting gradually with respect to time, developing countries have to switch to alternative renewable energy sources to fulfill their energy demands in the coming decades. In every nation, agricultural land is capable enough of laying various crops throughout the year. This leaves a huge amount of biomass waste in the...

Water management is the sophisticated aspect of the earth in these deteriorating situations. Water is the main source of agriculture and it requires certain monitoring action with the latest techniques. There is a large scope of research for the management of water resources worldwide. Hydrology is still a challenging problem having nonlinear funct...

This work aims to investigate the environmentally sustainable technique to synthesize the copper nanoparticles using bougainvillea flower ethanolic extract at ambient temperature. Copper nanoparticles have considerable potential for reducing the environment’s harmful pigments and nitrogen contaminants. The oxidized copper nanoscale catalysts are en...

Composite materials are increasingly replacing synthetic fiber combinations in various applications. However, certain extreme environments on Earth and in space require structures to operate under low temperatures, specifically cryogenic conditions, which can significantly affect material reactions. Therefore, the main focus of this study is to dev...

This study aims to identify the critical parameters for implementing a sustainable artificial intelligence (AI) cloud system in the information technology industry (IT). To achieve this, an AHP-ISM-MICMAC integrated hybrid multi-criteria decision-making (MCDM) model was developed and implemented. The analytic hierarchy process (AHP) was used to det...

One of the many intriguing current possibilities for these fibres is the possibility of employing them as a reinforcing component in polymeric structures. This study aims to evaluate the compatibility of bamboo fibre and olive tree leaf powder (OTL) as fillers in epoxy composites throughout a variety of cryogenic exposure lengths (such as 15 min, 3...

In this work, multilayer carbon nanotubes reinforced with Al7075 were employed to homogenise the material. Powder metallurgy and AL7075 were used to create the nanocomposite, which had polyhedral carbon nanotube reinforcement of 0.8, 1.7, and 3.3 percent by weight. Using a hydraulic press, the samples were squeezed and sintered. Furthermore, the si...

Water management is the sophisticated aspect of the earth in these deteriorating situations. Water is the main source of agriculture and it requires certain monitoring action with the latest techniques. There is a large scope of research for the management of water resources worldwide. Hydrology is still a challenging problem having nonlinear funct...

This present study investigates the novel synthesis of crystalline nanocellulose from cassava tuber peel waste and its relative effects on the mechanical, wear, hydrophobic, and thermal stability of bamboo fiber–reinforced polyester composite. The nanocellulose from cassava tuber peel was synthesized via thermo-chemical process and silane surface–t...

This present study discusses the effects of adding moringa gum powder to Cissus quadrangularis fiber–reinforced polyester resin composites on their mechanical, wear, and drop load impact properties. The moringa gum powder was synthesized from the moringa tree, whereas the Cissus quadrangularis fiber was as-received. The composite laminates were man...

This study examined the inter-ply alternatively stacked kevlar/sisal fiber’s mechanical, wear, fracture toughness, drop load impact, and hydrophobicity behavior along with cellulose addition. This study also gives an insight to how effectively a biomass-derived fiber is used as potential replacement for synthetic man-made hazardous fibers. The comp...

High specific strength, strength-to-weight ratio, cheap cost, and other advantages, nanofillers are now the subject of most research on natural fibers. The current research’s main goal is to combine the Taguchi and artificial neural networks (ANN) approaches to maximize the mechanical characteristics of nanocomposites. The parameters: (i) nano-SiO2...

Fibre-reinforced polymers (FRPs) are composite materials of plastics reinforced with fibres. Cars, sea, aeronautics, and foundation projects progressively utilize fibre-reinforced polymers. This study aims to study the effect of adding multiwalled nanotubes fillers into the hybridized jute-glass FRP composites and their relative properties. This st...

The effects of introducing TiC nanofibers (TiCnf) to the weld pool of Grade AA7010 were investigated in this study. The joints were made on a vertical machining centre with a lap joint arrangement. ASTM standards were followed while testing the strength of tensile and yield and percent of elongation, and hardness strength. According to the data, we...

With significant benefits over many other commercialised thermal storage methods, activated carbon fiber (ACF) is believed to be among the finest biosorbents for adsorbent purposes. If correctly made, it is an outstanding mesoporous lightweight material with micropores and, in most cases, no micropores. ACF’s higher bulk densities and great dynamic...

One of the more enticing, ecologically responsible, as well as safe and sustainable methodologies is eco-friendly nanomaterial synthesis. Vegetation materials will be used as reductants instead of toxic substances for synthesising nanoparticles. The current study used Ruellia tuberosa (RT) leaf extract digest to synthesise FeO nanomaterials, which...

Potassium carbonate was tested as novel information for producing carbonaceous materials from jute cores. Two quadratic models have been developed for both answers to link the preparatory parameters: activating temperatures, molar ratio, and incubation time. The RSM and ANN models were used to improve the processing conditions to maximise the quant...

Gibbs measures based on 1d (an)harmonic oscillators as mean-field limits

Sustainable energy development is needed to meet rising energy demands and reduce fossil fuel risks. Hydrogen generation is a crucial study area for sustainable energy. This study examines hydrogen adsorption on carbide-derived carbon nano-porous (CDC nP) nanomaterials. B4C CDC nP and WC-CDC nP Nanomaterials were produced by reacting chlorine gas w...

3D printing has been recognized to be such a game-changer in manufacturing that it has now permeated virtually every aspect of the industry, including mould and die casting. A thorough examination of 3D printing's past, present and future in the business is provided here. Casting procedures may be enhanced or drastically altered by 3D printing. The...