The SRES’S College of Engineering, Kopargaon was established in the year 1983, and the Structural Engineering Department is part of the institute since 2020-2021. The Department has 7 qualified faculty members and 4 well-equipped laboratories and is recognized as one of the prominent departments known for academic excellence in the Pune University area.

Besides high quality teaching and instruction at PG level, the department is actively involved in basic and applied research and consultancy services. The department provides quality technical and advisory consultancy support to various private construction agencies, State Government and Central Government projects.

Structural Engineering

Structural Engineering is a specialization within Civil Engineering that focuses on the analysis and design of engineering structures such as bridges, flyovers, dams, buildings, stadiums, tunnels, marine and offshore structures. These structures are designed to withstand loads and remain safe, stable and secure throughout their service life.

Infrastructure development is a key measure of a nation’s growth. In a developing country like India, Structural Engineering plays a vital role in national development and provides excellent career opportunities. Structural Engineers can also work independently as entrepreneurs and contribute to shaping the built environment.

To achieve National and International recognition in Structural Engineering Education.

• To maintain a healthy environment that encourages students and faculty to achieve excellence in education and research.
• To nurture students as problem solvers who develop innovative solutions for engineering problems.
• To create technocrats in the Structural Engineering profession.
• To develop engineers with knowledge and skills to face future challenges and engage in lifelong learning.

1. Engineering Knowledge: Apply knowledge of mathematics, science and engineering fundamentals to solve complex engineering problems.
2. Problem Analysis: Identify, formulate and analyze complex engineering problems using first principles of mathematics and engineering sciences.
3. Design/Development of Solutions: Design safe and sustainable structural systems considering societal and environmental factors.
4. Conduct Investigations of Complex Problems: Use research-based knowledge including experiment design, data analysis and interpretation.
5. Modern Tool Usage: Apply modern engineering and IT tools for structural analysis and design with understanding of limitations.
6. The Engineer and Society: Assess societal, health, safety, legal and cultural issues related to structural engineering practice.
7. Environment and Sustainability: Understand environmental impact and demonstrate need for sustainable development.
8. Ethics: Apply ethical principles and professional responsibilities in engineering practice.
9. Individual and Team Work: Function effectively as an individual and as a team member or leader in multidisciplinary settings.
10. Communication: Communicate effectively through technical reports, documentation and presentations.
11. Project Management and Finance: Apply engineering management principles in structural projects.
12. Life-long Learning: Engage in independent and lifelong learning in the context of technological advancements.

• PSO 1: Provide effective solutions for analysis and design problems using conventional and modern engineering tools for sustainable structural development.
• PSO 2: Identify societal and industrial needs through allied courses such as planning and drawing, infrastructural engineering, project management, materials and mechanics.

1. PEO 1: Impart basic and advanced knowledge of Structural Engineering to analyze and solve industrial problems.
2. PEO 2: Provide hands-on training on latest equipment and software tools to make graduates industry ready.
3. PEO 3: Equip graduates with professional skills to work as team members or leaders for socio-economic growth.
4. PEO 4: Motivate graduates to pursue research, higher education and entrepreneurship in Structural Engineering.