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M-TECH in Computer Aided Design Of Structures at Sri Siddhartha Institute of Technology
Tumakuru, Karnataka
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About the Specialization
What is Computer Aided Design of Structures at Sri Siddhartha Institute of Technology Tumakuru?
This M.Tech Computer Aided Design of Structures program at Sri Siddhartha Institute of Technology focuses on equipping civil engineers with advanced skills in structural analysis, design, and detailing using modern computational tools. It addresses the growing demand for specialized engineers capable of designing complex structures efficiently and accurately within the Indian infrastructure sector. The program emphasizes theoretical foundations blended with practical software applications for real-world projects.
Who Should Apply?
This program is ideal for civil engineering graduates aspiring to specialize in structural design and analysis roles within construction, consulting, or government organizations. It also suits working professionals seeking to enhance their expertise in CAD and structural engineering for career progression. Candidates with a strong foundation in structural mechanics and an aptitude for computational methods will find this program highly beneficial for advanced studies.
Why Choose This Course?
Graduates of this program can expect to pursue rewarding careers as structural design engineers, CAE analysts, project managers, or consultants in leading Indian and multinational construction firms. Entry-level salaries typically range from INR 4-7 lakhs per annum, with significant growth potential for experienced professionals. The program prepares students for roles in seismic design, tall building analysis, and bridge engineering, aligning with industry certifications and professional body requirements.
Student Success Practices
Foundation Stage
Build a Strong Mathematical & Engineering Base- (Semester 1)
Prioritize mastering core subjects like Advanced Structural Analysis and Structural Dynamics. Dedicate extra time to understanding underlying theories, numerical methods, and problem-solving techniques. Form study groups for collaborative learning and conceptual clarity.
Tools & Resources
NPTEL video lectures, Standard textbooks by Punmia, Wang, Rao, Solution manuals, peer discussions
Career Connection
A robust theoretical foundation is indispensable for advanced design work and excelling in challenging technical interviews, setting the stage for specialist roles in structural engineering.
Hands-on with Basic CAD & Analysis Software- (Semester 1)
Gain proficiency in fundamental CAD software like AutoCAD for drafting and begin familiarizing with structural analysis tools like STAAD.Pro through lab exercises and self-driven tutorials. Focus on understanding input/output and basic model creation and interpretation.
Tools & Resources
Lab sessions, Software tutorials, YouTube guides, Trial versions of software
Career Connection
Early exposure to these tools makes subsequent learning easier and provides practical skills immediately applicable in junior engineer roles, improving employability.
Engage in Technical Discussions and Seminars- (Semester 1)
Actively participate in departmental seminars, workshops, and guest lectures on topics related to concrete technology, substructures, and analysis. Ask questions and engage with speakers to broaden perspective beyond coursework and understand industry trends.
Tools & Resources
Department events calendar, Professional body student chapters (e.g., ICI Student Chapter), Technical journals
Career Connection
Develops communication skills, fosters critical thinking, and provides insights into industry practices, which are vital for future professional interactions and career growth.
Intermediate Stage
Deepen Software Expertise for Design & Detailing- (Semester 2)
Advance skills in FEM software like ANSYS/ABAQUS and design software like ETABS/SAP2000 for complex structural analysis and design. Integrate these tools for solving practical problems related to tall structures and earthquake-resistant design.
Tools & Resources
Advanced software workshops, Online courses from edX/Coursera specific to structural software applications, Industry case studies
Career Connection
Essential for becoming a competent structural engineer, as proficiency in these tools directly translates to higher efficiency and accuracy in professional design tasks, leading to better career opportunities.
Strategic Elective Choices for Specialization- (Semester 2)
Based on emerging interests, carefully select electives (Professional Elective-II & III) that align with desired career paths, such as industrial structures, composite materials, or rehabilitation. Utilize these courses to build a specialized knowledge base and competitive edge.
Tools & Resources
Consult with faculty mentors, Industry experts and alumni, Research papers and industry journals
Career Connection
Tailors the academic profile towards specific industry segments, enhancing attractiveness for roles requiring specialized knowledge, potentially in high-growth areas of civil engineering.
Initiate Industry Exposure through Mini-Projects/Technical Tours- (Semester 2)
Seek opportunities for mini-projects or industrial visits to construction sites, precast yards, or design offices. Observe real-world challenges in structural engineering and understand project execution and management practices.
Tools & Resources
Department industry liaison, Local construction firms, Alumni network for opportunities
Career Connection
Bridges the gap between academic learning and industry practice, providing valuable context and helping to identify practical skill gaps to be addressed for future roles.
Advanced Stage
High-Impact Internship and Networking- (Semester 3)
Pursue a substantive internship (Semester 3) at a reputable structural design firm or a major construction company. Actively seek mentorship, contribute meaningfully to ongoing projects, and build a strong professional network for future collaborations.
Tools & Resources
College placement cell, Professional networking events, LinkedIn outreach to industry leaders
Career Connection
Often leads to pre-placement offers, provides critical practical experience, and establishes professional relationships that are vital for long-term career growth in the Indian infrastructure sector.
Exemplary Master''''s Project and Research- (Semester 3-4)
Dedicate significant effort to the Project Work Phase-I (Sem 3) and Phase-II (Sem 4). Choose a research problem with industry relevance or a novel design challenge. Aim for high-quality analysis, rigorous design, and a well-documented thesis that potentially leads to a publication.
Tools & Resources
Advanced simulation software, Research grants, Access to university library databases, Guidance from experienced supervisors
Career Connection
A strong project acts as a powerful portfolio piece, demonstrating problem-solving, analytical, and research capabilities, crucial for R&D roles, consulting, or higher studies.
Placement Preparation and Professional Development- (Semester 4)
Actively prepare for campus placements by honing interview skills, practicing aptitude tests, and updating resumes with project details and software proficiencies. Attend workshops on professional ethics and career planning to ensure holistic readiness.
Tools & Resources
Placement cell services, Online mock interview platforms, Industry guest lectures on career guidance, Professional body memberships
Career Connection
Ensures readiness for the job market, maximizing opportunities for securing desirable positions in core structural engineering companies immediately after graduation in a competitive Indian market.
Program Structure and Curriculum
Eligibility:
- Candidates with B.E / B.Tech or equivalent degree in relevant fields (Civil Engineering) from any recognized university with not less than 50% aggregate marks (45% in case of SC / ST & Cat-I candidates) are eligible to apply.
Duration: 4 semesters / 2 years
Credits: 88 Credits
Assessment: Internal: 50%, External: 50%
Semester-wise Curriculum Table
Semester 1
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| PCC22MCAC1 | Advanced Concrete Technology | Core | 4 | Cement types and properties, Aggregates and admixtures, Fresh concrete properties, Hardened concrete behavior, Special concretes, Durability of concrete |
| PCC22MCAC2 | Analysis and Design of Substructures | Core | 4 | Soil exploration methods, Shallow foundations design, Deep foundations design, Retaining structures, Piles and well foundations, Soil structure interaction |
| PCC22MCAC3 | Advanced Structural Analysis | Core | 4 | Matrix methods of analysis, Flexibility method, Stiffness method, Finite element concepts, Energy methods, Non-linear analysis concepts |
| PCC22MCAC4 | Structural Dynamics | Core | 4 | Single degree of freedom systems, Multi degree of freedom systems, Free and forced vibrations, Damping effects, Earthquake response, Vibration control |
| PEC22MC01 | Professional Elective-I (Advanced Design of Concrete Structures) | Elective | 3 | Advanced RC member design, Prestressed concrete basics, Plate and shell structures, Yield line theory, Flat slabs design, Water tanks design |
| PEC22MC02 | Professional Elective-I (Bridge Engineering) | Elective | 3 | Bridge types and components, Loads on bridges (IRC codes), Design of culverts and arch bridges, Prestressed concrete bridges, Bridge foundations, Superstructure analysis |
| PEC22MC03 | Professional Elective-I (Mechanics of Deformable Bodies) | Elective | 3 | Stress and strain analysis, Torsion of non-circular sections, Unsymmetrical bending, Shear centre concept, Theories of failure, Elasticity theory fundamentals |
| PEC22MC04 | Professional Elective-I (Pre-stressed Concrete Structures) | Elective | 3 | Prestressing systems, Losses in prestress, Design of PSC beams, End blocks design, Deflections of PSC members, Circular prestressing |
| AUD22MCRMI | Research Methodology and IPR | Audit | 0 | Research problem formulation, Data collection and analysis, Statistical methods, Report writing, Intellectual property rights, Ethics in research |
| PCC22MCACL | Advanced Concrete Technology Lab | Lab | 1 | Tests on fresh concrete, Tests on hardened concrete, Non-destructive testing (NDT), Concrete mix design, Effect of admixtures, Quality control procedures |
| PCC22MCIAL | Computer Aided Structural Analysis Lab | Lab | 1 | Introduction to STAAD.Pro, Analysis of trusses and frames, Introduction to ETABS/SAP2000, Modeling of structural elements, Load application and combinations, Interpretation of analysis results |
Semester 2
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| PCC22MCFE1 | Finite Element Method for Structures | Core | 4 | Basic concepts of FEM, One dimensional elements, Two dimensional elements, Isoparametric formulation, Plate bending elements, Dynamic analysis using FEM |
| PCC22MCTS2 | Design of Tall Structures | Core | 4 | Loads on tall buildings, Lateral load resisting systems, Analysis of tall buildings, Shear walls and core systems, Outrigger and belt trusses, P-Delta effects |
| PCC22MCER3 | Earthquake Resistant Design of Structures | Core | 4 | Engineering seismology, Seismic codes (IS 1893, IS 13920), Design philosophy, Ductile detailing of RC structures, Response spectrum analysis, Base isolation and dampers |
| PEC22MC05 | Professional Elective-II (Design of Masonry Structures) | Elective | 3 | Masonry materials and types, Code provisions for masonry, Design of masonry walls, Composite masonry, Arches and domes in masonry, Lateral load design of masonry |
| PEC22MC06 | Professional Elective-II (Mechanics of Composite Materials) | Elective | 3 | Introduction to composite materials, Micro mechanics of composites, Macro mechanics of composites, Laminate theory, Failure theories for composites, Applications of composites in structures |
| PEC22MC07 | Professional Elective-II (Optimum Design of Structures) | Elective | 3 | Introduction to optimization, Classical optimization techniques, Linear programming, Non-linear programming, Genetic algorithms in design, Applications in structural design |
| PEC22MC08 | Professional Elective-II (Maintenance and Rehabilitation of Structures) | Elective | 3 | Deterioration of structures, Inspection and assessment, Repair materials and techniques, Strengthening of RC members, Non-destructive evaluation (NDE), Retrofitting strategies |
| PEC22MC09 | Professional Elective-III (Stability of Structures) | Elective | 3 | Buckling of columns, Beam-columns analysis, Lateral torsional buckling, Plate buckling, Shell buckling, Introduction to non-linear stability |
| PEC22MC10 | Professional Elective-III (Industrial Structures) | Elective | 3 | Types of industrial buildings, Design of trusses and portals, Gantry girders design, Chimneys and towers, Bunkers and silos, Pre-engineered buildings |
| PEC22MC11 | Professional Elective-III (Design of Steel Concrete Composite Structures) | Elective | 3 | Introduction to composite construction, Composite beams design, Composite columns design, Shear connectors, Fire resistance of composites, Case studies and applications |
| PEC22MC12 | Professional Elective-III (Water Retaining Structures) | Elective | 3 | Types of water retaining structures, Design of concrete tanks, Design of dams, Water towers, Crack control in liquid retaining structures, Earth pressures on retaining walls |
| AUD22MCUH | Universal Human Values | Audit | 0 | Self-exploration and harmony, Understanding human aspirations, Relationship harmony, Societal harmony, Harmony in nature, Ethical conduct and values |
| PCC22MCSDL | Computer Aided Structural Detailing Lab | Lab | 1 | Introduction to Revit/BIM software, Structural drawing standards, Reinforcement detailing principles, Preparation of structural drawings, Concrete and steel detailing, Coordination with architectural drawings |
| PCC22MCFEL | Finite Element Analysis Lab | Lab | 1 | Introduction to ANSYS/ABAQUS, Meshing techniques, Static analysis of structures, Dynamic analysis of structures, Modal analysis, Post-processing and result interpretation |
Semester 3
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| PEC22MC13 | Professional Elective-IV (Earthquake Geotechnical Engineering) | Elective | 3 | Seismic waves and ground motion, Site response analysis, Soil liquefaction, Seismic slope stability, Seismic design of retaining structures, Foundation response under seismic loads |
| PEC22MC14 | Professional Elective-IV (Advanced Pre-stressed Concrete Structures) | Elective | 3 | Continuous PSC beams, Segmental construction, Prestressed concrete bridges, Cable stayed structures, Shear and torsion in PSC members, Advanced anchorage systems |
| PEC22MC15 | Professional Elective-IV (Risk and Reliability Analysis in Civil Engineering) | Elective | 3 | Probability theory in engineering, Structural reliability concepts, First and second order reliability methods, Risk assessment in civil projects, Monte Carlo simulation, Decision making under uncertainty |
| PEC22MC16 | Professional Elective-IV (Advanced Concrete Technology and Quality Control) | Elective | 3 | High performance concrete (HPC), Fiber reinforced concrete (FRC), Self compacting concrete (SCC), Quality control in concrete production, Statistical quality control, Sustainable concrete materials |
| INT22MC01 | Internship | Internship | 3 | Industry exposure, Practical application of knowledge, Professional skill development, Report writing, Presentation skills, Project implementation observation |
| PCC22MCPWP | Project Work Phase - 1 | Project | 8 | Problem identification, Literature review, Methodology development, Preliminary analysis/design, Data collection and analysis, Progress report preparation |
| SEM22MC01 | Technical Seminar | Seminar | 1 | Technical topic selection, Research and content development, Presentation skills, Question and answer session, Report submission, Current trends in civil engineering |
Semester 4
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| PCC22MCPW2 | Project Work Phase - 2 | Project | 20 | Detailed analysis and design, Experimental/numerical studies, Result interpretation and discussion, Thesis writing, Final presentation and defense, Innovation and application of knowledge |
