Hi, I'm Kishoor. Currently engaged in the field of mechatronics engineering. For those unfamiliar, Mechatronics is like the fusion cuisine of engineering—it's where mechanical and electronics engineering shake hands and collaborate to create technological magic!Why did I chose this course?? Basically I'm a computer enthusiast who loves to work with the systems all day. The foundation for pursuing Mechatronics was laid back in 2018 during my 10th-grade when I participated in an all-India robotics competition, where my proficiency in robotics became apparent, fueling my interest in the field. Faced with the pivotal choice between computer science and mechatronics, I opted for mechatronics to further explore my fascination with robotics. Nevertheless, I remain an passionate computer enthusiast, relishing the thrill of working with systems and navigating through troubleshooting challenges. After all, where's the fun without a bit of computer wizardry?
Apart from being a Techie I developed a sense for writing blogs where I channel my creativity in writing. Find my writings here. And if you do visit my page, please do follow.(P.S Makes me write more :) )
I possess a self-driven nature and a strong sense of curiosity, constantly seeking opportunities for learning and embracing new knowledge. Looking for an establishment which I can help to meet
its targets and goals with my skills and experience.
CGPA: 8.53 (As of 7th Semester)
Relevant coursework: Robotic Machine Vision System - Soft Robotics - Design and Modelling of Mechatronics Systems - Autonomous Vehicle Guidance System - Industrial Automation - Power Electronics and Electrical Drives - Embedded Systems - Fluid Power Systems etc.
Percentage: 78
The robot is equipped with specialized suction mechanisms and sensors to effectively navigate diverse surfaces and conduct efficient cleaning tasks. It operates autonomously and its compact design enables access to confined and challenging areas, making it particularly suitable for cleaning vertical surfaces such as walls. Leveraging smart technology, it ensures comprehensive and efficient cleaning, thereby minimizing reliance on human intervention.
The project aims to develop a specialized coating capable of withstanding high temperatures, known as a thermal heat resistance coating. This coating is designed to offer protection and insulation in environments with elevated heat levels. The unique aspect of this project involves employing automated technology, represented by a bot or a robotic system, within the confines of a heat furnace. The bot is utilized to either apply the specialized heat-resistant material onto surfaces or fabricate the coating directly within the high-temperature environment of the furnace.
The phase transition material serves as a thermal energy storage mechanism with latent heat, presenting a unique potential for enhancing refrigerator efficacy by augmenting condenser heat transfer. The experimental study on the performance of Vapor Compression Refrigeration Systems (VCRS) employing a mechanical subcooling system focuses on comparing systems with and without Phase Change Material (PCM). The study suggests that employing mechanical subcooling with PCM holds promise for enhancing refrigerator performance, as indicated by the research findings.
Friction stir welding (FSW) stands as a solid-state joining technique and a distinctive environmentally friendly manufacturing process. This method, known for its energy efficiency and ecological sustainability, boasts adaptability in various applications. Initial research highlights its superiority over traditional welding methods in achieving high-quality joints. Particularly valuable for aerospace-grade aluminum alloys and other metallic alloys challenging to fuse through conventional fusion welding methods, FSW represents a significant advancement in metal joining within the past decade.
As a proficient and versatile professional, I specialize in various domains encompassing blog writing and possess adeptness in programming languages such as Java, C, Python and HTML/CSS. My expertise extends beyond coding; I excel in problem-solving, exhibiting exceptional communication skills, fostering teamwork, and demonstrating proficiency in project management. Furthermore, my background includes a role as a tech support specialist, where I leverage my technical acumen to provide comprehensive support solutions. This diverse skill set enables me to effectively tackle challenges across different domains while contributing meaningfully to projects and teams I engage with.
Engine Assembly
Ashok Leyland industrial engine product range extends from the compact 4 to 6-cylinder engines producing 71 hp to 360 hp. These engines offer enhanced productivity and low cost of ownership. Tailor made Ashok Leyland industrial engines had been catering to the powering need of various industrial applications like construction, air compressor, road construction, concrete pumps, lift and shift etc. across India and globally for past many years. Ashok Leyland industrial engine are compact, having low running cost, continuous duty Power rating and highly rugged and reliable engines.