View all
NAAC
AICTE
AP
JNTU

Mechanical Engineering

Mechanical Engineering

About Department

Mechanical Engineering department was started in the year 2005 with intake strength of 60 seats, this was increased to 120 students in 2012 and this was increased to 180 students in 2013. The department has well qualified and trained faculty members. It has well equipped laboratories and workshops and includes a CAD/CAM laboratory where students are imparted training in advanced production techniques and design and analysis of machine elements.

Over the years, the department has produced students who have gained recognition in Industry with their professional outlook and technical competence.

Vision & Mission

Vision:

“To maintain high standards of Mechanical Engineering education through outstanding innovative curricular research training that reflects the changing needs of society. “

Mission:

The Mission of the Department of Mechanical Engineering is:
1. Prepare effective and responsible graduate engineers for global requirements by providing quality education.
2. Constantly strike to improve pedagogical methods employed in delivering the academic programs.
3. Respond effectively to the needs of the industry and changing world.
4. Conduct basic and applied research and to generate intellectual property.

HOD Desk

HOD-MECH
Dr B AVINASH BEN
HOD-MECH

Dr. B Avinash Ben has graduated from KLCE (KLU), Masters from NIT CALICUT and did his Ph.D. from Andhra University (AU). Having an experience of 12 years in teaching field with reputed institutions. His area of research is Manufacturing and Material Science, SHM etc,. He has 18 international publications and bagged all India Ranks 354 and 509 in years 2011 and 2004 respectively in GATE.

Faculty Profile

Sl No. Name Designation Qualification
1 Dr. AVINASH BEN PROFESSOR Ph.D
2 Dr.TRIMOTHY PROFESSOR Ph.D
3 Miss MUTTAMSETTY LAKSHMI SRAMIKA ASSOCIATE PROFESSOR M.Tech
4 Mr. SHIEK HIDAYATULLA SHARIF ASSOCIATE PROFESSOR M.Tech
5 Mr. MADDA RAGHAVA RAO ASSOCIATE PROFESSOR M.Tech
6 Mr. VOMMI PRADEEP ASSOCIATE PROFESSOR M.Tech
7 Mr. VAMSI MUDEDLA ASSOCIATE PROFESSOR M.Tech
8 Mr. PURSHOTHAMA ANIL KUMAR ASSOCIATE PROFESSOR M.Tech
9 Mr.J.SUNIL KUMAR ASSOCIATE PROFESSOR M.Tech
10 Mr. VENKATA NAIDU BANKURU ASST PROFESSOR M.Tech
11 Mr. GARAGUBILLI RAMU ASST PROFESSOR M.Tech
12 Mr. B JAYA LAKSHMI ASST PROFESSOR M.Tech
13 Mr. POLAVARAPU VENKATESH ASST PROFESSOR M.Tech
14 Mr. HANUMANTHU KIRAN ASST PROFESSOR M.Tech
15 Mrs. DEEPTHI KAZA ASST PROFESSOR M.Tech
16 Miss PARIMALA KOTLA ASST PROFESSOR M.Tech
17 Mr. SARANTEJ VULLI ASST PROFESSOR M.Tech
18 Mrs. GANJA LAVANYA ASST PROFESSOR M.Tech
19 Mr. TEELLA MAHENDRA ASST PROFESSOR M.Tech
20 Ms. V VARA LAKSHMI ASST PROFESSOR M.Tech
21 Mr. B SRI HARI ASST PROFESSOR M.Tech
22 Mr. GAC RAMANJEEYALU ASST PROFESSOR M.Tech
23 Mr. R.ADITYA ASST PROFESSOR M.Tech
24 Mr. A M VENKATA PRAVEEN ASST PROFESSOR M.Tech
25 Mr. P SURESH ASST PROFESSOR M.Tech
26 Mr. KOTHA SRINU ASST PROFESSOR M.Tech
27 Mr. G.VENKATESWARA RAO ASST PROFESSOR M.Tech
28 P.RAMA KRISHNA ASST PROFESSOR M.Tech
29 K.L.V.PRASAD ASST PROFESSOR M.Tech
30 P.VENU GOPAL ASST PROFESSOR M.Tech
31 V.ABHILASH ASST PROFESSOR M.Tech
32 B.HARI KRISHNA YADAV ASST PROFESSOR M.Tech

Department laboratories

Instrumentation & Control system lab:

Rotameter Experiment


lab photo

Heat Transfer lab :

lab photo

Parallel flow and counter flow 

Drop wise and film wise condensation
pin fin apparatus

Enginnering Drawing Lab

With  an occupancy of 115 students, we are having two Drawing Halls with a capacity of 70 students in one hall and 45 students in another hall.


lab photo

Production Technology lab:

lab photo

Well Equipped Production Technology Lab, with all the required Machineries and Equipment to establish a strong knowledge in the basic production techniques.


CNC Lab:

After safe design of components, the parts are to be manufactured. In order to cope up with the industrial needs, the students will also be trained (addition to Conventional Mfg. Processes) over sophisticated machines in the CAM lab. Production equipment with computer numerical control is a major component of CIM. CAM Express software is used, for the simulation of machining process runs in computer, through a programing code. The generated code can run on the CNC tuning and CNC milling machines. The following simulation software and Machinery are available in the lab. Manufacturing: CAM Express, CNC Turning Machine and CNC FLEXMILL
 

lab photo

Metal cutting and machine tools lab:

lab photo

 Lathe machine threading experiment work

Radial  drilling machine for making holes 

Machinery

Shaper machine  Experiment


Mechanics of solids lab:

 Torsion Testing machine experiment

Universal testing machine Experiment


lab photo

Thermal Engineering Lab:

lab photo

 4 stroke Petrol Engine experiment


Fuels & Lubricants Lab:

 Quality of fuel and lubricant is very essential for the smooth running of the engine and efficiency of the engine under various conditions. Viscosity, flash and fire points are some of the characteristics which are essential for a good lubricant. Evaluations of these parameters for various lubricants are estimated in this laboratory. Calorific value and carbon residue are the other two important parameters for the fuel. 

 

lab photo

Fluid Mechanics & Hydraulic Machinary Laboratory:

lab photo

 Fluid mechanics and hydraulic lab provides basic idea about fundamental of fluid mechanics with a hand on experience on principles like venturimeter, Bernoulli's etc it also deals with experiments on friction factor, power production machinery like turbines, pumps. The well-equipped lab has been providing sound knowledge to the students of mechanical, mechatronics, automobile, civil and chemical engineering departments

 

Workshops

AUTOCAD CERTIFICATION COURSE FOR 2ND YEAR STUDENTS

 AutoCAD can be defined as the use of computer systems to assist in the creation, modification, optimization of a design. In this, we can create both 2D and 3D drawings used in construction and manufacturing. It was developed by John Walker in the year 1982 with the help of AUTODESK and maintain it successfully.


workshop photo

SOLID EDGE WORKSHOP FOR 4TH YEAR STUDENTS

workshop photo

 Solid Edge is a 3D CADparametric feature (history based) and synchronous technology solid modeling software. It runs on Microsoft Windows and provides solid modelingassembly modelling and 2D orthographic view functionality for mechanical designers. Through third party applications it has links to many other Product Lifecycle Management (PLM) technologies.


CATIA CERTIFICATION COURSE FOR 3RD YEAR STUDENTS

 CATIA enables the creation of 3D parts, from 2D sketches, sheetmetalcomposites, molded, forged or tooling parts up to the definition of mechanical assemblies. The software provides advanced technologies for mechanical surfacing & BIW. It provides tools to complete product definition, including functional tolerances as well as kinematics definition. CATIA provides a wide range of applications for tooling design, for both generic tooling and mold & die. In the case of Aerospace engineering an additional module named the aerospace sheetmetal design offers the user combine the capabilities of generative sheetmetal design and generative surface design


workshop photo

APSRTC ZONAL WORKSHOP FOR 3RD YEAR STUDENTS

workshop photo

 APSRTC ZONAL WORKSHOP ATTENDED BY OUR 3RD YEAR STUDENTS


NDT WORKSHOP FOR FINAL YEAR STUDENTS

 NON DESTRUCTIVE TESTING WORSHOP FOR FINAL YEAR STUDENTS


workshop photo

Automobile Engineering and Motor Sports:

workshop photo

 Four Day Workshop on Automobile Engineering and Motor Sports


Latest Trends In Mechanics:

 Sri G. Yoganand M.E, IISC – Bangalore, Scientist –(E), DRDL, Hyderabad,  addressed our students regarding latest trends in Mechanical Engineering.


workshop photo

Ocean Engineering and Green Engineering Technology:

workshop photo

 Dr. Srinivas Reddy, Associate Professor, IIT Chennai, giving a seminar to the students on

Ocean Engineering and Green Engineering Technology.

I.C. Engines

 Workshop on I.C. Engines


workshop photo

Space Technology and its applications:

workshop photo

 Professor A. Narayana Swamy , Chairman, 

International Space Science Organisation, giving a seminar to Mechanical students regarding Space Technology and its applications.

Events

TEACHERS DAY CELEBRATIONS

 2019-20 TEACHERS DAY CELEBRATIONS


event photo

Technical Fest

event photo

 .


Spiritual Events:

 Spiritual Events


event photo

Farewell parties:

event photo

 Farewell parties


Dusshera Celebrations:

 Dusshera Celebrations


event photo

Industrial Visits

HPCL INDUSTRIAL VISIT FOR 3RD YEAR STUDENTS

 HINDUSTAN  PETROLEUM CORPORATION LIMITED VISITED BY OUR 3RD YEAR STUDENTS


event photo

NTPC VISIT 11/6/2019

event photo

 NTPC INDUSTRIAL VISIT BY OUR THIRD YEAR STUDENTS DURING 2019-20 ACADEMIC YEAR


NTPC 2019 INDUSTRIAL VISIT

 NTPC


event photo

FACOR ALLOYS LIMITED GARIVIDI VZM

event photo

 FACOR ALLOYS LIMITED

GARIVIDI 

VZM


FACOR ALLOYS LIMITED GARIVIDI VZM

  FACOR ALLOYS LIMITED

GARIVIDI 

VZM


event photo

Vizag Steel Plant:

event photo

 Vizag Steel Plant


APSRTC Zonal Workshop:

APSRTC Zonal Workshop


event photo

Hindustan Shipyard Limited:

event photo

 Hindustan Shipyard Limited


RINL Steel plant :

 Blast furnace 

coke oven battery


event photo

Paper Cutting

PaperCutting:

 Battery Cycle


event photo

PaperCutting:

event photo

 Motor Cycle


Foldable E-bike:

 Foldable E-bike


event photo

PEO's & PO's

 PROGRAM EDUCATIONAL OBJECTIVES

“PEOs are broad statements that describe the career and professional accomplishments that the program is preparing graduates to achieve”.

PEO 1:

Graduates with a strong foundation in the field of Basic Sciences, Mathematics, Electrical Engineering and ability to provide solutions for real time industrial problems.

PEO 2:

Graduates with ability to apply technical knowledge and take on higher responsibilities in industry, academics and diverse fields of Electrical Engineering.

PEO 3:

Graduates with ability to operate generating stations, transformers, electrical machines, transmission lines and switch gear in an appropriate manner to improve efficiency & economics.

PEO 4:

Graduates with profession attitude, communication, technical and leadership skills to become successful engineers.

 PROGRAM OUTCOMES

The following are the Program Outcomes of Engineering Graduates:

PO1: Engineering knowledge : Apply the knowledge of mathematics, science, engineering fundamentals, and an engineering specialization to the solution of complex engineering problems.

PO2: 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.

PO3: 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.

PO4: 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.

PO5: 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.

PO6: 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.

PO7: 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.

PO8: Ethics : Apply ethical principles and commit to professional ethics and responsibilities and norms of the engineering practice.

PO9: Individual and team work : Function effectively as an individual, and as a member or leader in diverse teams, and in multidisciplinary settings.

PO10: 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 clear instructions.

PO11: 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.

PO12: 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.

Avanthi Institute of Engineering & Technology