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PHD in Mechanical Engineering at Invertis University
Bareilly, Uttar Pradesh
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About the Specialization
What is Mechanical Engineering at Invertis University Bareilly?
This Mechanical Engineering PhD program at Invertis University focuses on advanced research and innovation in mechanical sciences. It addresses critical industry challenges and contributes to technological advancements. The program aims to produce highly skilled researchers capable of leading R&D initiatives in India''''s growing manufacturing and energy sectors. Its emphasis is on interdisciplinary approaches and cutting-edge technologies.
Who Should Apply?
This program is ideal for master''''s degree holders in Mechanical Engineering or related disciplines seeking to pursue deep academic research. It is suitable for those aspiring to become faculty members, R&D engineers in public/private sectors, or innovators. Working professionals in the engineering domain looking to contribute to fundamental research and gain advanced problem-solving skills will also find this program beneficial.
Why Choose This Course?
Graduates of this program can expect to secure roles as research scientists, design engineers, faculty positions in engineering colleges, or consultants in core mechanical industries. With the rising demand for innovation in India, PhD graduates can command competitive salaries, ranging from INR 8-15 LPA for fresh PhDs, increasing significantly with experience. They contribute to national development through advanced research and technological solutions.
Student Success Practices
Foundation Stage
Master Research Methodology & Discipline-Specific Fundamentals- (Coursework Period (typically first 1-2 semesters))
Thoroughly engage with the coursework, especially Research Methodology, to build a strong theoretical foundation. Simultaneously, dive deep into the chosen specialization''''s core concepts by reviewing advanced textbooks and seminal papers. Actively participate in departmental seminars and discussions to broaden understanding.
Tools & Resources
University Library databases (e.g., IEEE Xplore, Scopus, Web of Science), Mendeley/Zotero for reference management, NPTEL courses on advanced mechanical engineering topics
Career Connection
A strong foundation in research methods and advanced discipline-specific knowledge is crucial for developing a robust research proposal and executing high-quality research, directly impacting the quality of the PhD thesis and future research roles.
Develop Critical Thinking & Literature Review Skills- (Coursework Period and initial research phase)
Dedicate time weekly to conducting comprehensive literature reviews using systematic search strategies. Focus on identifying research gaps and understanding current trends. Engage in critical analysis of published papers, questioning methodologies and findings to refine your own research approach.
Tools & Resources
Google Scholar, ResearchGate, institutional access to journal databases, academic writing workshops
Career Connection
The ability to critically analyze existing research and identify gaps is fundamental for developing original research contributions, a key skill for any research-oriented career.
Proactively Identify and Refine Research Areas- (Coursework Period and initial research phase)
Collaborate closely with your supervisor to explore potential research topics that align with departmental strengths and current industry needs. Attend research colloquiums and faculty presentations to gain insights into ongoing projects. Begin drafting a preliminary research proposal early in the coursework phase.
Tools & Resources
Supervisor mentorship, departmental research groups, industry reports on emerging technologies
Career Connection
A well-defined and relevant research area is the bedrock of a successful PhD, enabling focused effort and increasing the likelihood of impactful contributions that are valuable to both academia and industry.
Intermediate Stage
Hands-on Experimental/Simulation Expertise- (Year 1-3 of Research)
Actively seek opportunities to gain practical experience with lab equipment, experimental setups, or advanced simulation software relevant to your research. Volunteer for lab assistant duties or collaborate with senior researchers to accelerate skill acquisition. Document all procedures meticulously.
Tools & Resources
ANSYS, SolidWorks, MATLAB, COMSOL, specific lab instruments (e.g., SEM, XRD, UTM), university workshop facilities
Career Connection
Proficiency in experimental techniques and simulation tools is highly valued in R&D roles, enabling efficient data collection, analysis, and validation of theoretical models.
Cultivate Strong Academic Writing & Presentation Skills- (Year 1-3 of Research)
Regularly write research progress reports, draft sections of your thesis, and prepare presentations for internal departmental reviews. Seek feedback from your supervisor and peers. Aim to publish at least one peer-reviewed paper in a reputed journal before your mid-term review.
Tools & Resources
Grammarly, LaTeX, Microsoft PowerPoint/Google Slides, departmental writing workshops, conference presentation opportunities
Career Connection
Effective communication of complex research findings through high-quality publications and impactful presentations is essential for academic career progression and gaining recognition in your field.
Network & Attend Conferences- (Year 1-3 of Research)
Actively participate in national and international conferences, workshops, and symposiums related to your specialization. Present your ongoing work, engage with other researchers, and explore potential collaborations. Build a professional network within your field.
Tools & Resources
Conference websites (e.g., NAEW, ICMET), LinkedIn, professional societies (e.g., IEI, ISME)
Career Connection
Networking opens doors to post-doctoral opportunities, collaborations, and industry contacts, significantly enhancing career prospects and research impact.
Advanced Stage
Focus on Thesis Completion & Publication Strategy- (Final 1-2 Years of Research)
Dedicate significant time to consolidating your research, writing and refining your thesis chapters, ensuring logical flow and comprehensive coverage. Develop a strategic plan for publishing remaining research findings in high-impact journals, targeting specific journals based on your work''''s scope.
Tools & Resources
Thesis templates, academic editors, journal submission platforms (e.g., Elsevier, Springer)
Career Connection
A strong thesis and a solid publication record are the primary credentials for academic positions, post-doctoral fellowships, and senior R&D roles.
Prepare for Thesis Defense & Viva Voce- (Final 6-12 months)
Engage in mock viva voce sessions with your supervisor and other faculty members. Prepare a concise and compelling presentation summarizing your entire research work. Anticipate challenging questions and formulate clear, well-supported answers.
Tools & Resources
Supervisor guidance, departmental review committees, practice presentation sessions
Career Connection
A successful thesis defense is the final academic hurdle, validating your research contributions and demonstrating your expertise, essential for all future career paths.
Develop Post-PhD Career Strategy- (Final 1-2 Years)
Begin actively exploring post-PhD opportunities, whether in academia, industry R&D, or entrepreneurship. Tailor your CV/resume to specific job roles. Network with potential employers and mentors. Consider preparing grant proposals for future research.
Tools & Resources
Career services, LinkedIn, academic job portals (e.g., indeed.com, Naukri.com, university career pages), mentorship programs
Career Connection
Proactive career planning ensures a smooth transition post-PhD, aligning your research expertise with available opportunities and enabling continued professional growth and impact.
Program Structure and Curriculum
Eligibility:
- Master''''s degree in Engineering/Technology (e.g., M.E./M.Tech) with a minimum of 55% marks or equivalent grade. 5% relaxation for SC/ST/OBC (non-creamy layer)/Differently-abled candidates. M.Phil. degree holders also eligible. Candidates with UGC-NET (including JRF)/UGC-CSIR NET (including JRF)/GATE/SLET/GPAT/Teacher Fellowship are exempted from Entrance Test but must appear for interview.
Duration: Minimum 3 years, Maximum 6 years (coursework within 2 semesters)
Credits: Minimum 8 credits (for coursework) Credits
Assessment: Internal: 50%, External: 50%
Semester-wise Curriculum Table
Semester 1
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MEP-101 | Research Methodology | Core | 4 | Introduction to Research and Problem Formulation, Research Design and Methods, Data Collection and Analysis Techniques, Statistical Tools for Research, Scientific Writing and Research Ethics |
| MEP-102 | Advanced Manufacturing Systems | Core (Discipline Specific) | 4 | CAD/CAM/CIM Integration, Additive Manufacturing Technologies, Robotics and Automation in Manufacturing, Lean and Agile Manufacturing Systems, Smart Manufacturing and Industry 4.0 Concepts |
