Mechanical Engineering, one of the oldest branches of Engineering, is a professional discipline that applies engineering, physics, mathematics, and materials science principles to design, analyze, manufacture, and maintain mechanical systems. As one of the oldest branches of engineering, Mechanical Engineering as a field of study is broad and diverse. With the need for skilled Mechanical graduates intensifying with every passing year, the Department of Mechanical Engineering has formulated the following objectives:
To facilitate students with real-time scenarios and hands-on training sessions through field trips.
To equip students with practical knowledge to formulate and solve challenging problems.
To enhance critical thinking and analytical skills of the students.
To provide equal opportunities to all the students to learn and grow as well-rounded individuals.
To facilitate the betterment of the students through state-of-the-art laboratories and qualified faculty.
To provide a platform to the students to exhibit their ideas.
The Department of Mechanical Engineering is equipped with state-of-the-art laboratories, seminar halls and smart classrooms towards fulfilling these objectives.
As the students of a branch that is perennial in terms of employment generation, the mechanical engineers find jobs in PSUs, defence and industries such as automotive, aerospace, R&D, construction. where they are required to design, test, manufacture, erection, operate and maintain a wide array of machines and mechanical systems.
Now a days the scope of mechanical engineering is expanding beyond its traditional boundaries. Mechanical engineers are focusing their attention towards new areas of research such as nanotechnology, development of composite materials, biomedical applications, environmental conservation, etc.
The graduates can opt either immediate employment through placements or higher education in advanced courses such as M.Tech or Masters of Science (MS) across India or abroad.
Engineering Workshop Laboratory
Engineering Graphics Laboratory
Material Science and Engineering Laboratory
Mechanics of Solids Laboratory
Manufacturing Technology Laboratory
Fluid Mechanics and Hydraulic Machinery Laboratory
Thermal Engineering Laboratory
Heat Transfer Laboratory
Machine Tools Laboratory
Metrology and Measurements Laboratory
CAD/CAE/CAM Laboratorry
Popular software’s in 3D experience center
CATIA
DELMIA
SIMULIA
3-D communication
Vision
To impart knowledge with global perspectives in pursuit of excellence in Mechanical Engineering Education, Entrepreneurship and Innovation.
Mission
To inculcate students with leadership skills with high level of integrity & ethical values for team building and team work.
To mold the young dynamic potential minds into full-fledged future professionals through effective teaching- learning techniques & industry – institute collaboration .
To serve the society through innovation and excellence in teaching and research.
PEO 1:
Graduates can demonstrate technical competence in Mechanical Engineering domain as they apply problem solving skills to conceive, analyze, design and develop products, processes and systems.
PEO 2:
Graduates can actively embrace leadership roles and strive hard to achieve professional and organizational goals with adherence to professional and ethical values, team expectations and sensitivities of cultural diversity.
PEO 3:
Graduates are committed to practice engineering strategies in industry and government organizations to meet the growing expectations of the stake holders and also contribute to the societal development.
PSO 1:
Ability to apply the knowledge in Thermal Sciences, Design and Manufacturing processes towards the improvement of engineering systems considering productivity, quality and cost.
PSO 2:
Ability to analyze and apply the acquired Mechanical Engineering Knowledge for the sustainable growth of society and self.
Program Outcome
Engineering knowledge: Apply the knowledge of mathematics, science, engineering fundamentals, and an engineering specialization to the solution of complex engineering problems.
.
Problem analysis: Identify, formulate, review research literature, and analyze complex engineering problems reaching substantiated conclusions using first principles of mathematics, natural sciences, and engineering sciences.
.
Design/development of solutions: Design solutions for complex engineering problems and design system components or processes that meet the specified needs with appropriate consideration for the public health and safety, and the cultural, societal, and environmental considerations.
.
Conduct investigations of complex problems: Use research-based knowledge and research methods including design of experiments, analysis and interpretation of data, and synthesis of the information to provide valid conclusions.
.
Modern tool usage: Create, select, and apply appropriate techniques, resources, and modern engineering and IT tools including prediction and modeling to complex engineering activities with an understanding of the limitations.
.
The engineer and society: Apply reasoning informed by the contextual knowledge to assess societal, health, safety, legal and cultural issues and the consequent responsibilities relevant to the professional engineering practice.
.
Environment and sustainability: Understand the impact of the professional engineering solutions in societal and environmental contexts, and demonstrate the knowledge of, and need for sustainable development.
.
Ethics: Apply ethical principles and commit to professional ethics and responsibilities and norms of the engineering practice.
.
Individual and team work: Function effectively as an individual, and as a member or leader in diverse teams, and in multidisciplinary settings.
.
Communication: Communicate effectively on complex engineering activities with the engineering community and with society at large, such as, being able to comprehend and write effective reports and design documentation, make effective presentations, and give and receive
.
Project management and finance: Demonstrate knowledge and understanding of the engineering and management principles and apply these to one’s own work, as a member and leader in a team, to manage projects and in multidisciplinary environments.
.
Life-long learning: Recognize the need for, and have the preparation and ability to engage in independent and life-long learning in the broadest context of technological change.
.
S.NO | NAME OF THE FACULTY | QUALIFICATION | DESIGNATION |
---|---|---|---|
1 | Dr. M. Chandra Sekhara Reddy | Ph.D | Professor & Head |
2 | Dr. M. Vamsi Krishna | Ph.D | Associate Professor |
3 | Dr. K. Madhivanan | Ph.D | Associate Professor |
4 | Dr. E. Venkata Kondaiah | Ph.D | Associate Professor |
5 | Dr. N. Rajesh | Ph.D | Associate Professor |
6 | Dr. K. Jagath | Ph.D | Associate Professor |
7 | K. Renuga Devi | ME (Ph.D) | Assistant Professor |
8 | V. Ajay | M.Tech (Ph.D) | Assistant Professor |
9 | D. Anjan Kumar Reddy | M.Tech (Ph.D) | Assistant Professor |
10 | G. Guru Mahesh | M.Tech (Ph.D) | Assistant Professor |
11 | S. Jaya Kishore | M.Tech (Ph.D) | Assistant Professor |
12 | M. Gopala Krishna | M.Tech (Ph.D) | Assistant Professor |
13 | P. Charan Theja | M.Tech (Ph.D) | Assistant Professor |
14 | K. Arun | ME (Ph.D) | Assistant Professor |
15 | K. Harshavardhan Reddy | M.Tech | Assistant Professor |
16 | T. Pratheep Reddy | M.Tech (Ph.D) | Assistant Professor |
17 | B. Eswaraiah | M.Tech | Assistant Professor |
18 | P. Punna Rao | M.Tech | Assistant Professor |
19 | G. Guru Sai Prasad | M.Tech | Assistant Professor |
20 | D. Raju | M.Tech | Assistant Professor |
21 | G. Nomu Kumar | M.Tech | Assistant Professor |
22 | B. Yashwanth | M.Tech | Assistant Professor |
23 | M. Bhupal | M.Tech | Assistant Professor |
24 | R. Pio Massimo Fabbri | M.Tech | Assistant Professor |
Faculty Development Program
Professional Society Membership: SAE Collegiate Club, ISTE
Professional Society activities
Professional Society Activites 2019-2020
Professional Society Activites 2018-2019
Professional Society Activites 2017-2018
TECHNICAL-MAGZINE-SVCE(2020 JAN-JUN)
TECHNICAL-MAGZINE-SVCE(2019 JUL-DEC)
TECHNICAL-MAGZINE-SVCE(2019 JAN-JUN)
TECHNICAL-MAGZINE-SVCE(2018 JUL-DEC)
TECHNICAL-MAGZINE-SVCE(2018 JAN-JUN)
TECHNICAL-MAGZINE-SVCE(2017 JUL-DEC)
I YEAR | II YEAR | III YEAR | IV YEAR |
---|---|---|---|
Algebra and Calculus | Mathematics III | Fluid Mechanics and Hydraulic Machines | Management Science |
Engineering Chemistry | Managerial Economics & Financial Analysis | Thermal Engineering - II | Automobile Engineering |
Problem Solving & Programming | Mechanics of Solids | Dynamics of Machinery | CAD/CAM |
Engineering Drawing for Mechanical Engineers | Machine Tools | Metrology and Measurements | |
Engineering Mechanics | Design of Machine Members - I |
CBCC-IIa. Refrigeration and Air – Conditioning b. Tool Design c. Modern Manufacturing Methods |
|
Thermodynamics | MOOCS-Ia. Entrepreneurship b. Nano Technology c. Micro Electro Mechanical Systems |
||
Engineering Graphics Lab | Mechanics of Solids Lab | CAD/ CAM Laboratory | |
Engineering Workshop | Computer Aided Drafting Lab | Metrology and Measurements Laboratory | |
Engineering Chemistry Lab | |||
Problem Solving & Programming Lab | |||
Audit course – Social Values & Ethics |
I YEAR | II YEAR | III YEAR | IV YEAR |
---|---|---|---|
Basic Electrical & Electronics Engineering | Probability and Statistics | Operations Research |
MOOCS-IIa. Industrial Engineering b. Product Design c. Composite Materials |
Differential Equations and Vector Calculus | Basic Electrical and Electronics Engineering | Design of Machine Members – II |
MOOCS-IIIa. Power Plant Engineering b. Gas Turbines and Jet Propulsion c. Energy Management |
Engineering Physics | Machine Drawing | Heat Transfer | |
Data Structures | Kinematics of Machines | Finite Element Method | |
Communicative English 1 | Thermal Engineering – 1 | Metal forming Process | |
Manufacturing Technology | CBCC-Ia. Non Conventional Source of Energy b. Total Quality Management c. Mechatronics d. Intellectual Property Rights |
||
Communicative English 1 Lab | Thermal Engineering Laboratory | Heat Transfer Laboratory | Technical Seminar |
Mechanical Engineering Workshop | Manufacturing Technology Laboratory | Computer Aided Engineering Laboratory | Project Work |
Basic Electrical & Electronics Engineering Lab | |||
Engineering Physics Lab | |||
Data Structures Lab | |||
Advanced English Language Communication (AELCS) Laboratory (Audit Course) | |||
Comprehensive Online Examination-I | Comprehensive Online Examination-II | Comprehensive Viva Voce |
Quick Links
Why SVCE?
Placements
Campus Tour
Life at Campus
I YEAR | II YEAR | III YEAR | IV YEAR |
---|---|---|---|
Algebra and Calculus | Mathematics III | Fluid Mechanics and Hydraulic Machines | Management Science |
Engineering Chemistry | Managerial Economics & Financial Analysis | Thermal Engineering - II | Automobile Engineering |
Problem Solving & Programming | Mechanics of Solids | Dynamics of Machinery | CAD/CAM |
Engineering Drawing for Mechanical Engineers | Machine Tools | Metrology and Measurements | |
Engineering Mechanics | Design of Machine Members - I |
CBCC-IIa. Refrigeration and Air – Conditioning b. Tool Design c. Modern Manufacturing Methods |
|
Thermodynamics | MOOCS-Ia. Entrepreneurship b. Nano Technology c. Micro Electro Mechanical Systems |
CBCC-IIIa. Computational Fluid dynamics b. Automation and Robotics c. Production & Operations Management |
|
Engineering Graphics Lab | Mechanics of Solids Lab | CAD/ CAM Laboratory | |
Engineering Workshop | Computer Aided Drafting Lab | Metrology and Measurements Laboratory | |
Engineering Chemistry Lab | |||
Problem Solving & Programming Lab | |||
Audit course – Social Values & Ethics |
I YEAR | II YEAR | III YEAR | IV YEAR |
---|---|---|---|
Basic Electrical & Electronics Engineering | Probability and Statistics | Operations Research |
MOOCS-IIa. Industrial Engineering b. Product Design c. Composite Materials |
Differential Equations and Vector Calculus | Basic Electrical and Electronics Engineering | Design of Machine Members – II |
MOOCS-IIIa. Power Plant Engineering b. Gas Turbines and Jet Propulsion c. Energy Management |
Engineering Physics | Machine Drawing | Heat Transfer | |
Data Structures | Kinematics of Machines | Finite Element Method | |
Communicative English 1 | Thermal Engineering – 1 | Metal forming Process | |
Manufacturing Technology | CBCC-Ia. Non Conventional Source of Energy b. Total Quality Management c. Mechatronics d. Intellectual Property Rights |
||
Communicative English 1 Lab | Thermal Engineering Laboratory | Heat Transfer Laboratory | Technical Seminar |
Mechanical Engineering Workshop | Manufacturing Technology Laboratory | Computer Aided Engineering Laboratory | Project Work |
Basic Electrical & Electronics Engineering Lab | |||
Engineering Physics Lab | |||
Data Structures Lab | |||
Advanced English Language Communication (AELCS) Laboratory (Audit Course) | |||
Comprehensive Online Examination-I | Comprehensive Online Examination-II | Comprehensive Viva Voce |