2 Years
Post Graduate
Engineering
Full Time
M.Tech in Design Engineering is a postgraduate degree program concentrating on advanced study of mechanical design methods, product development, CAD/CAM technology, and other innovative techniques used in designing mechanical systems and components. M.Tech in Design Engineering is an intensive study, allowing students profound knowledge of concepts, practices, and hands-on skills needed to design complex engineered products. Typically, an M.Tech in Design Engineering takes two years to complete, with most departments requiring both theoretical and practical applications supporting design practices. Mandatorily, students develop innovation, analysis, and design optimization protocols.
Candidates with a Bachelor degree in Mechanical Engineering, or relevant fields, such as Production Engineering or Automobile Engineering, seeking entry into M.Tech in Design Engineering ideally require a minimum of 50–60 % marks. Most institutions require a valid GATE score. Some popular institutes to study in India include IITs (IIT Bombay, IIT Delhi), NITs, BITS Pilani, and VIT, as well as other & Colleges and more renowned universities. The average fees for M.Tech in Design Engineering vary, also depending on whether the institution is government or private; typically, INR 50,000 to INR 2.5 lakhs yearly in government institutions and INR 2 to INR 5 lakhs per annum in private colleges.
An M.Tech in Design Engineering opens up a wide variety of career options. Graduates work in many sectors such as automotive, aerospace, heavy machinery, consumer goods, and defense as Design Engineers, CAD Engineers, Product Development Engineers, R&D engineers and Project Managers, some graduates also work in academia and higher studies such as Ph.D. The M.Tech Design Engineering salary ranges from INR 4 to INR 8 LPA, based on the skills, institute, and the company. With experience, graduates can earn between INR 10–20 LPA or more in senior roles.
M.Tech in Design Engineering is a postgraduate course, which is of 2 years duration. It consists of a combination of engineering and design processes with subjects which relate to design like computer-aided design, finite element analysis (FEA), kinematics, product lifecycle management, mechatronics, and others. The course is intended to produce competent practitioners who can create innovative, sustainable, and efficient engineering solutions. The skillsets developed through this course would involve a mixture of lectures, lab sessions, projects, workbook preparation and internships which would provide practicing engineers with hands-on experience of design tools and software.
Here are the key details about the M.Tech in Design Engineering Course Details:
| Parameter | Details |
| Full Course Name | Master of Technology (M.Tech) in Design Engineering |
| Level | Postgraduate |
| Duration | 2 years (4 semesters) |
| Field | Mechanical / Industrial / Manufacturing Engineering |
| Objective | To impart in-depth knowledge of mechanical design, product development, and computational design |
| Core Subjects | Machine Design, CAD/CAM, Finite Element Analysis (FEA), Vibrations, Tribology, Solid Mechanics |
| Specializations | Automotive Design, Structural Design, Industrial Design, Product Lifecycle Management |
| Research Areas | Design optimization, materials and stress analysis, product simulation |
| Project Component | Final-year thesis or dissertation on an industry-relevant or research-based topic |
| Delivery Format | Lectures, Labs, CAD Simulations, Industry Projects, Internships |
| Career Roles | Design Engineer, CAD Analyst, FEA Engineer, R&D Engineer, Product Designer |
| Popular Recruiters | Tata Motors, Mahindra, GE, ISRO, DRDO, Bosch, Siemens, L&T, Ashok Leyland |
M.Tech in Design Engineering eligibility criteria would require candidates to be undergraduates in engineering (B.E. or B.Tech) preferably in Mechanical Engineering, or any closely related field like Production or Automobile Engineering. They would typically be expected to have a minimum aggregate overall of between 50% to 60% in their undergraduates studies. In most cases, reputed higher educational institutes will expect them to present a valid GATE score which is an essential requirement. Some private universities could accept direct admission or could test their own entrance tests. Ideally work experience, and strong basics in design and mechanics would assist the academic eligibility for degree programmes, especially for working professionals who are to mix the part-time or sponsored degree flight arrangement.
Here are the key details about the M.Tech in Design Engineering Eligibility Criteria 2026:
| Criterion | Details |
| Educational Qualification | B.E. / B.Tech in Mechanical Engineering or related streams (e.g., Production, Mechatronics) |
| Minimum Percentage Required | 55% to 60% aggregate (varies by university), with 5% relaxation for reserved categories |
| Accepted Degrees | B.E. / B.Tech in Mechanical, Automobile, Aerospace, or Industrial Engineering |
| Entrance Exam | GATE is the most widely accepted (mandatory in most IITs, NITs, and central universities) |
| Work Experience (optional) | Preferred but not mandatory; can benefit in part-time or sponsored programs |
| Age Limit | No official upper age limit (may differ for sponsored or government seat categories) |
| Lateral Entry | Not applicable |
| Foreign Candidates | TOEFL/IELTS + equivalent degree required for admission in Indian institutions |
The M.Tech in Design Engineering admission process starts by applying to a university admission portal. In regards to the majority of institutes, candidates with GATE scores will be shortlisted and subsequently involved in counseling or a personal interview. For some private colleges conduct their own entrance test like GATE or were merit based. The candidates will be required to furnish academic transcripts, a form of ID, a GATE score card (if they have one), and multiple representations of what has been requested. The timeline for M.Tech admissions will vary depending on the institution. However, it will start around late March and conclude around July in one single point in time (totally dependent on the institution). Ultimately admission is based on merit, entrance score and availability of seats.
Here are the key details about the M.Tech in Design Engineering Admission Process 2026:
| Stage | Description |
| Step 1: Eligibility Check | Ensure B.E./B.Tech degree in Mechanical or relevant field with minimum marks |
| Step 2: Entrance Exam | Appear for GATE (preferred), or university-specific entrance exams (e.g., VITMEE, SRMJEEE) |
| Step 3: Application | Apply through COAP (for IITs), CCMT (for NITs), or individual college portals |
| Step 4: Counseling | Participate in centralized (e.g., CCMT) or institute-specific counseling based on rank/score |
| Step 5: Seat Allotment | Seats are allotted based on merit, category, and preferences filled |
| Step 6: Document Verification | Submit educational and identity documents, GATE scorecard, and photos |
| Step 7: Admission Confirmation | Pay initial semester fee to confirm admission |
| Direct Admission Option | Available in private institutions (based on merit or industry sponsorship) |
The primary M.Tech in Design Engineering entrance exam is the GATE (Graduate Aptitude Test in Engineering), which is exam conducted on a yearly basis by IIT's and IISc. The GATE assessment will evoke the knowledge from under graduate engineered degree, such as mathematics, mechanics, and design related. In order to get into a top institution such as IIT & NIT, candidates will provide a decent score reference through GATE. The other benefit of qualifying GATE is to receive scholarships. Finally, private universities like VIT, SRM, and BITS will sometimes make their students take their own entrance tests for eligibility. In conclusion, candidates are strongly encouraged to study previous papers and practice mock test before taking these exams.
Here are the key details about the M.Tech in Design Engineering Entrance Exam 2026:
| Exam Name | Conducted By | Accepted In | Exam Pattern Highlights |
| GATE (Mechanical) | IITs and NTA | IITs, NITs, IIITs, Central/State Universities | 65 questions: Engineering Mathematics, Aptitude, Core Subjects |
| PGCET | State Governments | Karnataka, Andhra Pradesh, Gujarat, etc. | State-level, MCQs based on UG syllabus |
| VITMEE | VIT University | VIT Vellore and VIT Chennai | 100 questions: Technical + English Communication |
| SRMJEEE (PG) | SRM University | SRM campuses | Technical MCQs; covers mechanical and design topics |
| BITS HD | BITS Pilani | BITS Pilani, Goa, Hyderabad | Based on UG syllabus; includes Design & Engineering Mechanics |
| CUET-PG (Engineering) | NTA | Central Universities | General + Domain-specific questions (limited for M.Tech) |
M.Tech in Design Engineering can be delivered in several formats based on the student’s requirements, professional considerations and career ambitions. The most common format for students is in the regular full-time mode for two years (which involves coursework, and lab work, as well as a final project or thesis). For professional engineers, part-time and evening programs in M.Tech. are available in some universities. There may also be distance mode programs, but they are less popular and may also not offer as much practical work. Some institutions offer M.Tech.-Ph.D. integrated programs to students who want pursue a Ph.D. and future career in academia or research. These various formats mean that M.Tech. programs could be made available to a wider audience of students.
Here are the key details about the Types of M.Tech in Design Engineering:
| Mode | Description | Duration | Ideal For | Examples |
| Regular (Full-time) | Classroom + lab-based full-time study with research/project work | 2 years (4 semesters) | Fresh graduates or GATE-qualified candidates | IITs, NITs, BITS, VIT, COEP |
| Part-Time | Weekend or evening classes with flexible lab/project schedules | 2.5 to 3 years | Working professionals in industry | Offered by select state/university colleges |
| Sponsored Full-time | Industry-sponsored candidates study full-time with letter from employer | 2 years | Corporate-sponsored R&D employees | IITs/NITs (non-GATE), with service bond |
| Distance Learning | Study from home through printed/e-materials, very rare for Design specialization | 2 to 3 years | Working individuals in remote areas | Rare; not commonly available for this branch |
| Online M.Tech | Fully virtual lectures, exams, and projects via LMS | 2 years | Tech-savvy professionals needing flexibility | Offered by few private or deemed universities |
The M.Tech. in Design Engineering syllabus provides both practical and theoretical knowledge to the students. Subjects typically include Advanced Solid Mechanics, Computer-Aided Design, Finite Element Methods, Tribology, Mechanical Vibrations, and Mechatronics. This course also offer elective subjects with specialization can include Robotics, Product Design, and Fracture Mechanics. Lab work, and learning to use appropriate software such as AutoCAD, SolidWorks, ANSYS, and MATLAB, is an integral component of the curriculum. The final year of study usually has students working on a project or thesis. Students are expected to apply their learning to solving an engineering problem through a process of design innovation.
Here are the key details about the M.Tech in Design Engineering Syllabus 2026:
Year 1:
| Semester | Subjects | Lab/Project Work |
| Semester 1 | Advanced Engineering Mathematics, Theory of Elasticity, Advanced Mechanics of Solids, CAD/CAM, Mechanical Vibrations | CAD Modelling Lab, Solid Mechanics Lab |
| Semester 2 | Finite Element Method (FEM), Tribology in Design, Design of Mechanical Drives, Computer-Aided Product Design, Elective I | FEM Simulation Lab, Product Design Project |
| Semester | Subjects | Lab/Project Work |
| Semester 3 | Design Optimization, Robotics and Automation, Elective II, Elective III, Seminar | Industrial Design Project, Technical Seminar |
| Semester 4 | Dissertation / Thesis, Viva Voce, Research Report | Full-time research work on design engineering |
Students pursuing an M.Tech in Design Engineering should have good analytical and problem-solving skills, as well as a fundamental understanding of mechanical engineering concepts. Familiarity with design software packages such as AutoCAD, CATIA, SolidWorks, and ANSYS is also a plus. Creativity, detail orientation, and structured thinking in the design of systems and components are important factors in being a successful design engineer for mechanical applications. Because many projects involve a team of others, communication and team work skills are also significant. Understanding of manufacturing processes, materials science, and control systems will only help students become better design engineers in all industrial applications.
Here are the key details about the M.Tech in Design Engineering Skills Required:
| Institute Name | Location | Affiliation/Type | Admission Through |
| IIT Bombay | Maharashtra | IIT / Autonomous | GATE + COAP |
| IIT Madras | Tamil Nadu | IIT / Autonomous | GATE + COAP |
| IISc Bangalore | Karnataka | Deemed / Research | GATE + Institute Shortlist |
| NIT Trichy | Tamil Nadu | NIT / Government | GATE + CCMT |
| NIT Surathkal | Karnataka | NIT / Government | GATE + CCMT |
| VIT University | Tamil Nadu | Private Deemed | VITMEE |
| BITS Pilani | Rajasthan | Private Deemed | BITS HD |
| IIIT Hyderabad | Telangana | Autonomous | GATE / PGEE |
| SRM IST | Tamil Nadu | Private Deemed | SRMJEEE PG |
| COEP Technological University | Maharashtra | Government (State Univ.) | GATE + DTE CAP |
India has many top colleges offer M.Tech in Design Engineering that is known for their quality of education and research resources. The top M.Tech in Design Engineering colleges are IITs such as IIT Bombay, IIT Delhi, IIT Madras, and IIT Kanpur. Among the National Institutes of Technology (NITs), NIT Trichy, NIT Surathkal and NIT Warangal are ranked highly. Other institutes include BITS Pilani, Vellore Institute of Technology (VIT), SRM Institute of Science and Technology and Delhi Technological University (DTU). These institutions have laboratory facilities, connected with industry, the faculty, a place to work, and a great chance of placement for aspiring design engineers.
Here are the key details about the M.Tech in Design Engineering Colleges in India:
| Institute Name | Location | Affiliation/Type | Admission Through |
| IIT Bombay | Maharashtra | IIT / Autonomous | GATE + COAP |
| IIT Madras | Tamil Nadu | IIT / Autonomous | GATE + COAP |
| IISc Bangalore | Karnataka | Deemed / Research | GATE + Institute Shortlist |
| NIT Trichy | Tamil Nadu | NIT / Government | GATE + CCMT |
| NIT Surathkal | Karnataka | NIT / Government | GATE + CCMT |
| VIT University | Tamil Nadu | Private Deemed | VITMEE |
| BITS Pilani | Rajasthan | Private Deemed | BITS HD |
| IIIT Hyderabad | Telangana | Autonomous | GATE / PGEE |
| SRM IST | Tamil Nadu | Private Deemed | SRMJEEE PG |
| COEP Technological University | Maharashtra | Government (State Univ.) | GATE + DTE CAP |
The M.Tech in Design Engineering fee structure significantly varies from institution to institution. Annual tuition in government institutions, including IITs and NITs, may be anywhere from INR 50,000 to INR 2 lakhs depending on the institution type and candidate category (general, SC/ST, or OBC). Annual tuition in private institutions like BITS Pilani, VIT and SRM can be anywhere from INR 2 lakhs to INR 5 lakhs. There may also be additional expenses like hostel, examination, or material costs. Most government institutions offers, scholarships and GATE stipend making education expenses easier for students with good merit and those students from economically weaker backgrounds.
Here are the key details about the M.Tech in Design Engineering Fee Structure 2026:
| Skill Category | Specific Skills / Tools | Purpose in Design Engineering | Importance Level |
| Technical Design Skills | CAD Software (AutoCAD, SolidWorks, CATIA, Creo) | Creating detailed engineering drawings, 3D modeling, product layout | Very High |
| Analysis & Simulation | Finite Element Analysis (ANSYS, ABAQUS), MATLAB, HyperWorks | Structural, thermal, vibration analysis, real-world performance testing | Very High |
| Mechanical Engineering Fundamentals | Mechanics of Materials, Thermodynamics, Theory of Machines | Understanding design parameters like strength, fatigue, deformation | High |
| Programming Skills | MATLAB, Python, C++, Simulink, basic scripting | Automation, design computation, algorithm-based optimization | Medium to High |
| Computational Tools | PLM, GD&T, CNC programming, Mechatronics toolkits | Integration of design with manufacturing and industrial applications | Medium |
| Project Management | MS Project, Gantt charts, Agile/Scrum principles | Effective scheduling and monitoring of design projects | Medium |
| Soft Skills | Communication, teamwork, report writing, presentations | Collaborating with teams, presenting research/design ideas to clients or supervisors | High |
| Innovation & Creativity | Concept sketching, product ideation, design thinking techniques | Developing unique solutions and product designs | High |
| Research Skills | Academic writing, literature review, experimental design | Useful for thesis, academic research, and industrial R&D roles | Medium |
M.Tech in Design Engineering graduates can expect a wide array of career opportunities in the private and public sectors. M.Tech in Design Engineering jobs are Design Engineers, Development Engineers, Research and Development Engineers, Computer-Aided Design/Engineering Analysts, or Projects Manager roles. The sectors such as automotive, aerospace, robotics, manufacturing, heavy machinery, and energy, industries often hire design engineers. Government institutions like ISRO, DRDO, BHEL, and Indian Railways in fact have relevant job roles for design engineers. The education and research institutions also have opportunities as either educators or functionalities in the innovation aspect of design engineering.
Here are the key details about the M.Tech in Design Engineering Career Opportunities:
| Job Role | Description | Industries | Typical Employers | Skillset Required |
| Design Engineer | Develop product designs, create prototypes, and test functionality | Automotive, Aerospace, Manufacturing | Automotive OEMs, Aerospace firms, Design consultancies | CAD, FEA, Material Science, Prototyping |
| Product Development Engineer | Manage end-to-end product design lifecycle, from concept to manufacturing | Consumer goods, Electronics, Machinery | Multinational corporations, Startups | Innovation, Project management, CAD, Simulation |
| Research & Development Engineer | Conduct research to innovate and improve mechanical components and systems | R&D Labs, Tech startups, Government Research | DRDO, CSIR, IITs, Private R&D wings | Analytical skills, Research methodologies, CAD |
| CAD/CAM Engineer | Focus on computer-aided design and manufacturing processes | Manufacturing, Tooling, Robotics | Manufacturing plants, Automation companies | CAD software expertise, CNC programming, CAM tools |
| Finite Element Analyst | Perform simulations and analyses to predict product behavior under stress | Aerospace, Automotive, Structural Engineering | Engineering consultancies, Aerospace companies | FEA software, Mathematical modeling, MATLAB |
| Design Consultant | Provide expert advice on product design and innovation | Engineering consultancies, Design firms | Consulting firms, Engineering agencies | Problem solving, Client handling, Presentation skills |
| Manufacturing Engineer | Optimize production processes and ensure design feasibility for mass production | Automotive, Heavy Machinery, Consumer Electronics | Manufacturing companies, Production units | Lean manufacturing, Quality control, Design for manufacturing |
| Quality Assurance Engineer | Ensure product designs meet quality standards and specifications | Automotive, Electronics, Consumer Goods | QA departments, Certification bodies | Quality standards, Testing methods, Analytical tools |
| Project Manager | Lead design projects, coordinate teams, manage timelines and budgets | All engineering sectors | Large corporations, Consulting firms | Leadership, Project planning, Communication |
| Teaching / Academician | Teach design engineering concepts, supervise research | Engineering colleges, Universities | Educational institutions | Subject expertise, Research publication, Mentoring |
The M.Tech Design Engineering salary will depend on factors such as the university, company, role, and the professional’s individual skill and capability. The average salary of graduates in this field only includes fresh graduates and not those who have previous experience. Graduates can easily expect salaries ranging from INR 4 to INR 8 lakhs per annum. Graduates from reputed institutes such as IITs may expect to see salaries at the higher end of this range (sometimes even above INR 10 LPA). As design engineers gain experience, the expected salary in the professional field can fall in the range between INR 8 to INR 15 LPA. Senior design engineer level roles and managers on average get paid more.
Here are the key details about the M.Tech in Design Engineering Salary in India:
| Job Role | Experience Level | Average Annual Salary (INR) | Salary Range (INR) | Factors Influencing Salary |
| Design Engineer | Freshers (0-2 years) | INR 3.5 Lakhs | INR 2.5 Lakhs – INR 5 Lakhs | Location, company size, technical skills |
| Product Development Engineer | Mid-level (3-5 years) | INR 6 Lakhs | INR 4.5 Lakhs – INR 8 Lakhs | Project complexity, innovation capabilities |
| Research & Development Engineer | Experienced (5+ years) | INR 8 Lakhs | INR 6 Lakhs – INR 12 Lakhs | Research output, patents, specialization |
| CAD/CAM Engineer | Freshers to Mid-level | INR 3 Lakhs – INR 5 Lakhs | INR 2.5 Lakhs – INR 6 Lakhs | Software proficiency, industry demand |
| Finite Element Analyst | Mid-level to Experienced | INR 5 Lakhs – INR 9 Lakhs | INR 4 Lakhs – INR 11 Lakhs | Analytical skills, software expertise |
| Design Consultant | Experienced | INR 7 Lakhs – INR 12 Lakhs | INR 6 Lakhs – INR 15 Lakhs | Client handling, domain expertise |
| Manufacturing Engineer | Freshers to Mid-level | INR 3.5 Lakhs – INR 6 Lakhs | INR 3 Lakhs – INR 7 Lakhs | Process knowledge, industry exposure |
| Quality Assurance Engineer | Mid-level | INR 4 Lakhs – INR 7 Lakhs | INR 3.5 Lakhs – INR 8 Lakhs | Attention to detail, certification knowledge |
| Project Manager | Experienced (5+ years) | INR 10 Lakhs – INR 18 Lakhs | INR 8 Lakhs – INR 20 Lakhs | Leadership, project size, company reputation |
| Teaching / Academician | Entry to Experienced | INR 4 Lakhs – INR 10 Lakhs | INR 3 Lakhs – INR 12 Lakhs | Research credentials, institution type |
The M.Tech in Design Engineering scope is large and expanding as there is a greater demand for innovation within product design, automation and sustainable engineering. As industries evolve with digitization and the move to smart manufacturing and Industry 4.0, there is an increasing demand for design engineers. There will be opportunities in traditional sectors such as automotive and aerospace, and also in newer emerging sectors like robotics, 3D printing, renewable energy and biomedical devices. The course also leads to pathways towards research and academic careers for those undertaking a PhD. Overall this degree qualifies students for long-term growth with high relevance as technology-driven, and related jobs are expanding.
Here are the key details about the M.Tech in Design Engineering Scope:
| Area | Description | Growth Drivers | Potential Sectors | Future Trends |
| Product Design & Development | Creating new and improved products tailored to consumer needs | Increasing automation, demand for smart products | Consumer electronics, automotive, aerospace | Smart design, IoT integration, additive manufacturing |
| Automotive & Aerospace | Designing vehicle parts, engines, and structural components | Growth in automotive and defense sectors | OEMs, aerospace manufacturers, defense labs | Electric vehicles, lightweight composites |
| Industrial Automation | Designing automated manufacturing and robotic systems | Rising use of Industry 4.0 and smart factories | Manufacturing plants, robotics companies | AI integration, robotics, autonomous systems |
| Research & Innovation | Working in R&D to develop advanced design methods and new materials | Government and private investment in innovation | Research institutes, startups, government labs | Nanotechnology, biomimicry, smart materials |
| Simulation & Analysis | Using simulation tools to optimize designs before prototyping | Cost-saving and efficiency in product development | Consulting firms, design houses, aerospace | Digital twins, AI-powered simulations |
| Academia & Teaching | Educating future engineers and conducting research | Increasing demand for skilled design engineers | Universities, colleges, private coaching centers | Online learning, interdisciplinary research |
| Consultancy & Freelancing | Providing expert design advice and customized solutions | Growing startups and SMEs outsourcing design needs | Engineering consultancy firms, independent clients | Remote work, collaborative platforms |
Major companies for M.Tech in Design Engineering graduates are many leading private multinational firms and government organizations. M.Tech in Design Engineering top recruiters are Tata Motors, Mahindra & Mahindra, General Electric (GE), Siemens, Bosch, Larsen & Toubro (L&T), Hindustan Aeronautics Limited (HAL) and Ashok Leyland are highly regarded. Leading global companies like Airbus, Boeing, Tesla and Honeywell will seek out design engineers. In the public sector there are also numerous interesting and well-paid jobs with organizations such as DRDO, ISRO, BHEL and the Indian Railways. Also in IT related companies like TCS, Infosys and Wipro hire Design Engineers in CAD/CA programs. Also there is work in innovative projects with many start-ups and research labs.
Here are the key details about the M.Tech in Design Engineering Top Recruiters:
| Company Name | Industry Sector | Recruitment Roles Offered | Key Skills Preferred | Hiring Locations |
| Tata Motors | Automotive | Design Engineer, Product Development, R&D | CAD, FEA, Automotive standards | Pune, Chennai, Jamshedpur |
| Mahindra & Mahindra | Automotive, Farm Equipment | Design Engineer, Manufacturing Engineer | Product design, material knowledge | Mumbai, Chennai, Nagpur |
| Larsen & Toubro (L&T) | Engineering & Construction | Design Engineer, Project Manager | Project management, AutoCAD, product lifecycle | Mumbai, Bangalore, Chennai |
| Bosch | Automotive, Manufacturing | CAD Engineer, R&D Engineer | Automation, software tools | Bangalore, Pune, Coimbatore |
| DRDO | Defense Research | Research Scientist, Design Engineer | Analytical skills, research publications | Hyderabad, Delhi, Bengaluru |
| General Electric (GE) | Industrial Equipment | Design & Development Engineer | Product design, simulation | Bangalore, Pune |
| ABB | Industrial Automation | Design Engineer, Simulation Analyst | Robotics, automation software | Bangalore, Vadodara |
| Siemens | Engineering & Manufacturing | Product Designer, Project Engineer | CAD, simulation tools | Bangalore, Gurgaon |
| Tata Steel | Heavy Industry | Design Engineer, Quality Assurance | Material science, design for manufacturing | Jamshedpur, Mumbai |
| Honeywell | Aerospace, Automation | Design Engineer, R&D Engineer | Embedded systems, CAD | Bangalore, Pune |
| Ashok Leyland | Automotive | Design Engineer, Manufacturing Engineer | Auto design, CAD software | Chennai, Hosur |
| Maruti Suzuki | Automotive | Product Development Engineer | Automotive design, testing | Gurgaon, Manesar |
| ISRO | Space Research | Design Engineer, R&D Scientist | Aerospace design, simulation | Bangalore, Thiruvananthapuram |
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