Doctoral Program - MECHANICAL ENGINEERING
Nitte Meenakshi Institute of Technology (NMIT) is proud to offer a robust Doctoral program in Mechanical Engineering designed for those who aspire to achieve the pinnacle of academic and professional excellence. Our program is tailored to foster research, innovation, and advanced learning, empowering scholars to contribute significantly to the field of Mechanical Engineering.
Thrust areas of Research in the Department of Mechanical Engineering are:
- Materials & Design
- Computational Fluid Dynamics
- Robotics & Automation
- Manufacturing Science
- Design Engineering and Process Simulation
- Thermal Sciences
- HVAC
- Mechatronics
- EV technology
- Renewable and sustainable energy
Why Choose ME Department of NMIT?
- Academic Excellence: NMIT is recognized for its commitment to academic excellence and innovative research.
- Collaborative Environment: A vibrant academic community that encourages collaboration, networking, and professional growth.
- Industry Connections: Strong ties with industry leaders providing opportunities for practical exposure, internships, and career advancement.
- Financial Support: Availability of scholarships, fellowships, and assistantships for deserving candidates.
- Cutting-Edge Research:The R&D efforts in Mechanical Engineering at NMIT encompass a wide range of disciplines, including Robotics, Mechatronics, Renewable Energy, Materials Science, Machine Design, Thermal Engineering, CFD, Additive Manufacturing, and more. Our esteemed faculty and research teams actively engage in exploring novel solutions to complex problems, making significant contributions to various industries.
Research Supervisors:
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Name
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Research Areas
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University
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Dr Kapilan N
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Thermal Sciences and HVAC
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VTU, NITTE UNIVERSITY
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Dr Kiran Aithal
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Materials & Design
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VTU
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Dr Sudheer Reddy
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Materials & Design
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VTU
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Dr PG Mukunda
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Materials & Design
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VTU
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Dr PB Shetty
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Materials & Design
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VTU
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Dr Shailesh Rao
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Materials & Design
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VTU
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Dr Vijay Desai
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Materials & Design
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VTU,NITK
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Facilities:
To promote research the department has established several multidisciplinary labs.
- Automotive Learning Centre (Toyota Kirloskar): The Automotive Learning Centre at the Mechanical Department of NMIT, established in collaboration with Toyota Kirloskar, stands as a Center of Excellence. This cutting-edge facility is dedicated to advancing automotive education, providing students with hands-on experiences and industry-relevant training. The partnership with Toyota Kirloskar ensures that students receive exposure to the latest technologies and best practices in the automotive sector.
- Autoliv Incubation Centre (Autoliv): The Autoliv Incubation Centre at Mechanical Engineering department, in collaboration with Autoliv, serves as a hub for innovation and research in automotive safety. This incubation center fosters a collaborative environment, encouraging students to explore and develop cutting-edge solutions for enhancing vehicle safety. The partnership with Autoliv provides unique opportunities for hands-on learning, industry exposure, and the development of advanced automotive safety technologies.
- Product Life Cycle Management (PLM) Lab (Capgemini Technologies Service India Limited): The Product Life Cycle Management (PLM) Lab, in collaboration with Capgemini Technologies Service India Limited, at [Institution's Name] represents a cutting-edge facility dedicated to advancing understanding and application of PLM principles. This lab serves as a focal point for students to engage in hands-on learning experiences, enabling them to navigate the complexities of product development and management. With the support of Capgemini, this collaboration ensures students receive practical insights and exposure to industry-leading PLM technologies, preparing them for a seamless transition into the realm of product lifecycle management.
- Centre of Excellence in 3D Printing by EOS Gmbh & AMSI: The Centre of Excellence in 3D Printing, established by EOS GmbH & AMSI at the Mechanical Engineering Department of NMIT, signifies a pioneering initiative in additive manufacturing. This collaboration introduces students to the forefront of 3D printing technologies, fostering innovation and research in the field. With state-of-the-art equipment and industry expertise, this center equips students with hands-on experience, positioning them at the forefront of advancements in additive manufacturing within the mechanical engineering domain.
- Centre of Excellence in Robotics Research:The integration of LEGO robotics into mechanical engineering labs has proven to be a transformative and innovative approach to hands-on learning. Combining the versatility of LEGO bricks with the principles of robotics provides students with a unique opportunity to apply theoretical knowledge to practical scenarios. This small write-up explores the benefits and applications of LEGO robotics labs in the field of mechanical engineering education.
- Center of Excellence in in HVAC (BlueStar Ltd.):The Center of Excellence in HVAC, established in collaboration with BlueStar Ltd, stands as a testament to advancements in Heating, Ventilation, and Air Conditioning technologies. This center provides students with a dedicated space for hands-on learning, research, and innovation in HVAC systems. The partnership with BlueStar Ltd. ensures that students gain practical insights and exposure to the latest developments in the dynamic field of HVAC engineering.
Scanning Electron Microscope ZEISS EVO 10 with optional backscatter detector and Element EDS system.
The ZEISS EVO 10 Scanning Electron Microscope (SEM) is a versatile, high-performance instrument designed to provide detailed imaging and analysis at the micro and nano scale. Equipped with optional backscatter detection and an Element Energy Dispersive Spectroscopy (EDS) system, the EVO 10 offers comprehensive capabilities for a wide range of applications in materials science, engineering, biology, and more.
Key Features
- High-Resolution Imaging: Achieve exceptional image quality with high resolution for detailed surface morphology and topographical studies.
- Variable Pressure Operation:Supports both high vacuum and variable pressure modes, enabling the examination of non-conductive and outgassing samples without extensive preparation.
- Optional Backscatter Detector: Enhances imaging capabilities by detecting electrons scattered back from the sample, providing compositional contrast and allowing differentiation between materials of varying atomic numbers.
- Element EDS System: Perform qualitative and quantitative elemental analysis with the integrated Energy Dispersive Spectroscopy system, essential for compositional analysis and material characterization.
Advanced Capabilities
- Flexible Sample Handling: Accommodates a wide range of sample sizes and types, with easy-to-use stage controls for precise positioning and orientation.
- User-Friendly Interface:Intuitive software interface for streamlined operation, making it accessible for both novice and experienced users.
- Automated Functions: Features automated imaging, focusing, and stigmation adjustments, reducing user workload and ensuring consistent results.
- Environmental Compatibility: Suitable for a variety of laboratory environments, with robust design and reliable performance.
Servo Hydraulic Fatigue Testing Machine Series LFV-L 25 kN
Applications: Monotonic (static) tension, Compression, Durability and fatigue tests including fatigue crack growth testing. Testing of components and manufacturing assemblies for the biomedical, automotive, aircraft, electronic, plastic injection moulding and other industries.
Materials that can be tested - All metals and Polymers including MMC and PMC
Features: Set of Dynamic Rated Hydraulic Wedge Grips WGR-32-H, Including Table System, Integrated Hydraulic Power Pack Type PAC-6, Ultra-High-Speed High Resolution Digital Materials, Testing Controller Type PCS8000-T1, Software Type DION7.
Manufacturer: Walter + Bai AG, Testing Machines Industrie strasse 4 CH-8224 Löhningen
