Established in the year 1999, the Mechanical Engineering department of MES College of Engineering, Pune with its team of dedicated, qualified and experienced faculty, offers sound programs at both UG and PG levels. The department aims at providing a valuable resource not only to the industries but also the society through excellence in technical education and research. To inculcate and foster the Research abilities of students through staff, the department always encourages departmental faculty for externally funded projects by Govt. agencies like BARC, BCUD, University of Pune, etc. and also by leading industries in and around Pune. MESCOE had exclusively signed MoU with ZF Steering India Ltd, BAKER Gauges Ltd, etc. for collaborative research work as well as the development of laboratories, etc. for the overall development of its students and departmental faculty. The recently renovated and modernized 'BAKER-MESCOE Metrology Laboratory that is fully equipped and designed as per industrial standards with modern and state of art equipment is now more in line with the industrial needs.
To keep abreast of the technological trends the departmental faculty undergoes a number of programs and refresher courses and participates actively in seminars and conferences. The Mechanical Engineering department always strives for Industry-Institution Interaction, Alumni interaction for industrial visits, campus placements, guest lectures, etc. for the best guidance for our students. With rich hardware and software resources and collaborative projects with the academia and industries, the department aims at providing an elite workforce of future leaders in myriad areas like manufacturing, designing, quality management and marketing. Many of its alumni occupy key positions in industries and institutions in India as well as abroad. The department is proud to collaborate with well-known industries in the sector.
To groom Motivated, Environmental friendly, Self-esteemed, Creative and Oriented Mechanical Engineers.
To Develop Industry Oriented Manpower to accept the challenges of Globalization by,
The following Program Educational Objectives are established for the Mechanical Engineering:
The Mechanical Engineering graduates will be able to:
A hearty welcome to the Mechanical Engineering Department (NBA Accredited till 30.06.2022) at MES College of Engineering, Pune. The Institute started its journey in the year 1999 with mechanical engineering as one of the mainstream since its inception. The department runs both Undergraduate program viz. Mechanical Engineering and PG program with Design Engineering as specialization. The department committed to its vision to educate students to excel in future career through value based education and interdisciplinary technical education.
Our students are well prepared to face challenges posed by social, technical and industrial needs. We always pay attention to our student’s research interests, hobbies, etc. and encourage them to be part of professionally active interdisciplinary groups or collegiate clubs viz. Designers club, RoboClub, SAE BAJA, MESA etc. Also, we facilitate them for internships, online training through platforms like ISRO-IIRS, Coursera, etc. Students can be part of professional body’s viz. ASME, ASHRAE/ISHRAE, SAE, Institute of Engineers, etc., activities of which are professionally managed by well qualified faculty members.
We are proud of our students and our alumnus are very well-placed and working in leading industries, Govt. organizations, successful entrepreneurs, universities & secured admissions in prominent universities across the globe. Mr. Ganesh Daphal, student of Mechanical Engineering Department had been awarded as best NSS volunteer with President’s Award and Chief Minister Award for exceptional work in NSS in 2011.
The department has very experienced, qualified, dedicated and research oriented faculty. Department faculty members are awarded with AICTE, UGC and SPPU BCUD Research Grants & funding. Students are imparted with technical skills through experiential learning in state of art laboratories developed in collaboration with leading industries. Department with help of MoU’s with leading industries viz. SUTF-C4i4 for Industry 4.0, Baker Gauges Ltd. for MQC lab, National Instruments (NI), KUKA Robotics, Industrial Tribology Lab, etc. The main objective of industrial liaison is to impart students training, projects, skill development, etc. Both students and faculty, are encouraged to participate in international competitions like RoboCon, SAE eBAJA (2021: AIR 1) & mBAJA (2021: AIR 34) since past 10 years.
We are committed to overall development of our students through training, experiential learning with experienced enthusiastic faculty members, on the cutting-edge technological development, to keep our students on the forefront of technological advancements.
|Sr. No.||Name||Designation||Profile Link|
|Dr. V. N. Chougule||Head of Department, Professor|
|Dr. V. N. Raibhole||Dean-Academics, Professor|
|Dr. S. H. Gawande||Professor|
|Dr. A. C. Mitra||Dean - Student Development & Placement, Professor|
|Dr. (Mrs) V. J. Sonawane||Associate Professor|
|Mr. S. P. Gadewar||Assistant Professor|
|Dr. A. R. Patil||Assistant Professor|
|Mr. S. D. Wankhede||Assistant Professor|
|Mr. Suhas. S. Jadhav||Assistant Professor|
|Dr. K.A. Mahajan||Assistant Professor|
|Dr. R. N. Yerrawar||Associate Professor|
|Mr. H. S. Salave||Assistant Professor|
|Dr. B. D. Nandre||Associate Professor|
|Mr. Sushant. S.Jadhav||Assistant Professor|
|Mr. B. R. Pujari||Assistant Professor|
|Dr. S. R. Kandharkar||Assistant Professor|
|Mr. V. R. Varude||Assistant Professor|
|Mr. V. S. Mane||Assistant Professor|
|Mr. A. A. Patil||Assistant Professor|
|Mr. A. A. Chaugule||Assistant Professor|
|Mr. D. R. Salunke||Assistant Professor|
|Mrs. P. R. Magdum||Assistant Professor|
|Mrs. A. A. Kulkarni||Assistant Professor|
|Mr. Shrikant R. Dhavale||Assistant Professor|
|Mr. Shaikh A. Ajij A. Hamid||Assistant Professor|
|1.||Machine Shop (007)||10.||Fluid Mechanics Lab (108)|
|2.||IC Engine Lab (013A)||11.||Basic Mechanical Engineering /Applied Thermodynamics (110)|
|3.||Fluid Machinery (013C)||12.||MQC (BAKER- MESCOE Metrology LAB) ( 113)|
|4.||Common Workshop (014)||13.||Theory of Machines / Dynamics of Machinery (114)|
|5.||Strength of Materials, (015)||14.||Heat Transfer (115)|
|6.||Advanced Manufacturing Lab (016)||15.||Refrigeration and Air Conditioning/ Industrial Fluid Power (116)|
|7.||Industrial Tribology Lab (017)||16.||Drawing Hall (117)|
|8.||PG lab (106)||17.||MESCOE - NI LabVIEW Academy (505)|
|9.||CAD/CAM (107)||18.||MESCOE- MECH VLab|
The department is heavily involved in carrying out the manufacturing activities with the help of following equipment for the research activities as well as for the training of the undergraduate students throughout the semester. With the assistance of qualified technical staff, undergraduate and postgraduate students are able to carry out the Turning operations, Milling operations, Grinding operations, Drilling operations and fabrication work for their B.E, M.E project & practical work
List of Equipment: • Lathe machines • Universal Milling machine • Radial drilling machine • Bench grinding machine • Horizontal Surface grinding machine • Power press machine
Laboratory In charge: A. A. Chaugule
Internal Combustion Engine Laboratory is a well-equipped laboratory which provides ideas on practice of handling IC engines and measuring the performance parameters. Our lab can be used to measure engine performance and gas emission from various types of engines at different operating conditions.
List of Equipment: 1. COMPUTERIZED PETROL ENGINE TEST RIG: On Computerized Petrol Engine Test rig Morse Test, P-Ɵ Test and Heat Balance sheet calculations are carried out. Computerized reports are generated by Engine-soft software interfaced with petrol engine test rig for all test. 2. DIESEL ENGINE TEST RIG: Diesel engine Test rig is a in-house project done by BE Mechanical students. On this test rig all efficiencies and Heat Balance sheet can be calculates. 3. EXHAUST GAS ANALYZER: Exhaust gas analyzer is ARAI approved and measures the % CO, CO2, NOx and HC from exhaust gases of petrol engine. 4. BATTERY CHARGER: This instrument is used to charge the different batteries. 5. BMW ENGINE AND TRANSMISSION UNIT: This unit is useful to understand the basic construction and working of I.C. Engine and transmission unit which is donated by BMW Company.
In charge: Dr B. D. Nandre
Fluid Machinery laboratory provides fundamental and practical knowledge about the principles of water turbines, the performance of hydraulic turbines and hydraulic pumps, and their application.
The Lab consists of the following equipment
List of Equipment
• 1 HP Pelton Wheel Turbine Test Rig • 5 HP Kaplan Turbine Test Rig • 5 HP Francis Wheel Turbine Test Rig • Impact of Jet Apparatus • Centrifugal Pump Test Rig • Reciprocating pump Test Rig • vertical axis wind turbine
Lab In charge: Mr. S. R. Kandharkar
Spread over 202 square meter area. This area is utilized for the subject Workshop Practices I of First Year Engineering. Students are encouraged to have hands on experience on different tools and equipment used in manufacturing processes. Department conducts various practical by which students get ample information on different materials & tools in engineering practices with respect to their workability, formability and machinability with power & hand tools and to develop skills through hands on experience.
List of Equipment: • Welding Inverters/Transformers • Gas Welding Setup • Chop Saw machine • Measuring tools • Marking tools • Wood working tools • Metal working tools
Laboratory In charge: A. A. Chaugule
Strength of Materials / Engineering Metallurgy
Strength of Materials laboratory consists of various material testing equipment’s to perform significant Destructive material tests for the measurement of various mechanical properties of the viz. Tensile strength, Hardness, Impact strength(Toughness), Shear strength, Compressive strength, sheet metal ductility. Microstructural study of various metal samples can be performed by using Optical metallurgical Microscope to ascertain the presence of different phases in the metals and its distribution and Grain structures for the correlation with the mechanical properties of materials.
List of Equipment: • UNIVERSAL TESTING MACHINE (UTE 40) 40 TONNES CAPACITY: UTM machine is used to measure Tensile strength, compressive strength and bending strength and Shear strength of the materials. • BRINELL HARDNESS TESTER (B-3000): BHT is used to measure Hardness of the material. • VICKERS HARDNESS TESTER (VM-50): VHT is used to measure Hardness of the material. • IMPACT TESTING MACHINE (IM-30): ITM is used to measure the impact strength and toughness of the material. Arrangement of IZOD & CHARPY impact test can be done. • ERICHSON CUPPING TESTER: ECT is used to test the formability of the sheet metal. • MICROSTRUCTURAL STUDY THROUGH MICROSCOPE: This is used to study the microstructure of different materials, its grain structure and Phases present
This laboratory is equipped with manufacturing grade CNC lathe machine. This machine is capable to produce large-scale production quantity with 0.007 mm accuracy. Bachelor’s and Master’s engineering students use this facility for project purpose or practical purpose.
List of Equipment: • Veriner height guage • Vernier caliper • Digital Vernier caliper • Surface plate • Pneumatic outlet for burr cleaning • Desktops with LAN • CNC Lathe Cutting tools
Laboratory In charge: A. A. Chaugule
List of Equipment: Industrial Tribology Laboratory consists of following equipment to perform different tests to measure the various tribological properties of the materials and oils. PIN-ON-DISC MACHINE: The Pin on Disc Friction & Wear Test Rig is primarily intended for determining the tribological characteristics of wide range of materials under various conditions of normal loads, speeds & temperatures under dry & lubricated conditions with different environmental conditions FOUR BALL TESTER: The Four Ball Tester can be used to determine Wear Preventive properties (WP), Extreme Pressure properties (EP) and friction behavior of lubricants. The wide acceptance of test results of the four ball tester make it an excellent choice to benchmark products. It is a good choice for R&D due to its relatively inexpensive samples and ability to produce quick and repeatable results. JOURNAL BEARING TESTER: The Journal Bearing Tester is used to demonstrate and study pressure distribution behavior of lubricants in various journal bearings. Pressure is plotted as a function of angular position of Cartesian or polar form to demonstrate the pressure distribution. Test variables are journal speed, radial load and lubricant viscosity. DRY ABRASION TESTER: The Dry Abrasion Tester allows users to test materials for their abrasion resistance properties in accordance with applicable standards. This test system is capable of testing materials in dry abrasive environments (ASTM G65 ). This system is suitable for evaluations in applications such as mining, drilling, ore transportation, agriculture, earth moving and others. Evaluation of materials and coatings using the Dry Abrasion Tester can provide valuable R&D data, bench-marking of products and reliable data for marketing.
Laboratory In charge: Dr.S.H.Gawande
PG laboratory is the vital and fully equipped with latest 2D and 3D software and hardware along with experienced staff members to cope up the needs of our PG students from Designing (CAD), Analysis (CAE), Computational Fluid Dynamics (CFD) and Manufacturing (CAM). A special guidance is provided to PG and UG students of Mechanical engineering for subjects like Advance Stress Analysis, Finite Element Analysis, Analysis & Synthesis of Mechanism, Optimization Technique etc. It also provides computation facility for all staff and students for their research work through software like MATLAB, ANSYS etc.
List of Equipment: MATLAB ANSYS 19 Hypermesh Software MASTERCAM HP Design Jet T120 Plotter MARKFORGED ONYX 3D Printer
Lab In charge: Dr R N Yerrawar
(AICTE Funded Research Laboratory under MODROBS for Biomedical Applications)
List of Equipment: CAD CAM laboratory is the vital and fully equipped with latest 2D and 3D software and hardware along with experienced staff members to cope up the needs of our UG students from Designing (CAD), Analysis (FEM), Manufacturing (CAM), Numerical Methods and Optimization (NMO). A special guidance is provided to PG and UG students of Mechanical engineering for subjects like Computer Aided Machine Drawing, Finite Element Analysis, Numerical Methods and Optimization etc. It also provides computation facility for all staff and students for their research work through software like AIP, MATLAB, ANSYS etc.
List of Major Softwares / Equipment: | MATLAB | ANSYS 19.0 | Hypermesh Software | MASTERCAM | Autodesk Inventor Professional
Links : Video 1
Links : Video 2
Laboratory In charge: Dr. V. N. Chougule
List of Equipment: Fluid Mechanics Laboratory consists of following equipment to perform various experiments in the lab to study and understand the properties of fluid, verification of fundamental fluid flow theorems, and study the different flow meters for measurement and analysis of fluid flow.
• PRESSURE MEASURING DEVICES: Pressure Measuring Devices is used to study the application & comparison of various pressure measuring devices. • REYNOLDS APPARATUS: Reynolds apparatus is used to observe & differentiate the type of flow for variation of discharge. Also to determine laminar , turbulent & transition flow. • REDWOOD VISCOMTER: Redwood Viscometer is used to determine kinematic viscosity of oil and study the variation of viscosity with temperature. • METACENTRIC HEIGHT: Metacentric height apparatus is use to determine experimentally the metacentric height of ship model. • BERNOULLI'S APPARATUS: Bernoulli's Apparatus is used to study the Bernoulli's theorem and verify Bernoulli's equation. • ORIFICE METER TEST RIG: Orifice meter is used to determine co-efficient of discharge and plot the characteristics for different rates of flow. • VENTURIMETER TEST RIG: Venturimeter is used to study the specification and calibration of venturimeter and determine co-efficient of discharge. • V-NOTCH TEST RIG: V-Notch is used to study the classification & applications of notches and calculate co-efficient of discharge. • MAJOR LOSSES DUE TO FRICTION: Major Losses Apparatus is used to determine friction factor for flow through pipes of different materials & compare friction factor. • MINOR LOSSES DUE TO PIPE FITTINGS: Manor Losses Apparatus is used to study the losses of head due to various fittings in pipeline and to determine loss of head in the fittings at various flow rates. Also to determine loss coefficient for the pipe fittings. • ELECTRICAL ANALOGY APPARATUS: Electrical Analogy Apparatus is used to study the electrical analogy method and draw flow net. • HALLSHAW'S APPARATUS: Hallshaw's apparatus is used to observed the flow patterns for different shape of the bodies and compare observed flow with Reynold's Number.
Basic mechanical engineering lab provides fundamental understanding of basic mechanical engineering concepts and working of mechanical components like gears, bearing, power consuming and producing devices. The Thermal Engineering lab provide facility for understanding of thermodynamic concepts like laws of thermodynamics, concept relate to Phase Change, Construction and working of boiler and calculation of performance parameter etc.
List of Equipment: • Working models of Mechanical device like, turbine, gear drives, IC Engine etc • Model of Power consuming devices like Refrigerator, AC, Boiler etc. • Jouls Paddle Wheel Experiments • Semi-automated Boiler Test Rig with condenser • Two stage Reciprocating compressor test rig • Bomb Calorimeter, Gas Calorimeter
In charge: Dr. A. R. Patil
BAKER-MESCOE Metrology lab is a joint venture between BAKER GAUGES INDIA PVT.LTD. PUNE and MESCOE, PUNE. The aim of the Metrology Lab is to learn current trend in industrial measurement. The lab is maintained according to the NABL standards and students will get feel of industry. The lab is divided in to two-part one part is for instruction delivery and second for practical. The lab is air locked, open access see through and having 4-ton AC to control temperature, 800 lux light effect and special flooring to avoid dust. Separate gauging stations are arranged in the lab so that similar kind of measurement can be done in small students’ group.
List of Equipment: COMPUTERIZED STATISTICAL GAUGING STATION (Pneumatic and LVDT comparator): Statistical Gauging Station consisting Pneumatic Gauge probe for diameter measurement and LVDT for length measurement. Set of 20 jobs is kept on gauging station and after measurement data is transfer to the software for statistical analysis. The results obtained in terms of X-chart, R-chart, Normal Distribution, Histogram, Pie chart, S-chart. SURFACE ROUGHNESS TESTER: Surface roughness tester is to test surface characteristic in the form of roughness (Ra). TOOL MAKERS MICROSCOPE: Tool makers microscope is used to measure the dimensions of small products, tool tips, threads in two ways i.e. one is shadow and other is microscope. OPTICAL INTERFEROMETER (Optical Flat set up): The setup is used to measure flatness of reflective surface in terms of fringes. SLIP GAUGE SET WITH SINE BAR: Slip gauge set is referred as END standard and in the lab two types of slip gauge set one is workshop grade and another calibration set. The Slip gauge is used in the sine bar experiment to find out height of sine bar lifting (opposite side sin angle). GEAR TOOTH VERNIER CALLIPER & SPAN MICROMETER: It is used to measure the gear tooth thickness of given gear. LINEAR AND ANGULAR MEASUREMENT INSTRUMENTS: The linear measurement is measuring the linear dimensions like length, diameter, height, thickness etc. and the instruments available in lab like vernier calipers, digital vernier calipers, micrometer, digital micrometer, dial bore gauge, height gauge, point micrometer, blade micrometer. The angular measurement is measurement of angles of any component. The instruments available in lab are industrial protractor, bevel protractor, sine bar with dial gauge. • FLOATING CARRIAGE MICROMETER: The floating carriage micrometer is used to measure different thread parameters. The main parameter is effective diameter of thread.
In charge: Mr. K. A. Mahajan
Mechanisms form the basis of any machine and it is an assemblage of rigid bodies so that they move upon each other with definite relative motion. Objectives of this Theory of Machines lab are to impart practical knowledge on design and analysis of mechanisms for the specified type of motion in a machine. With the study of rigid bodies motions and forces for the transmission systems, machine kinematics and dynamics can be well understood.
Demonstration exercises are provided with varieties of transmission element models to understand machine kinematics. Various experiments with gyroscopes, balancing machines and universal vibration, Critical speed of shaft test rig facilities are available to understand machine dynamics.
List of Equipment: • Motorised Gyroscope • Cam Analysis Machine • Universal Governor Apparatus • Static & Dynamic Balancing Apparatus • Expt. Set-Up - Hooke's Joint • Gear Tooth Profile • Epicyclic Gear Train • Rope Brake Dynamometer Test Rig • Vibration Test Rig • Modified Shock Absorber Test Rig As Quarter Car Suspension Test Rig • Sliding Mesh Gear box Model • Constant Mesh Gear box Model • Synchro Mesh Gear box Model • Differential Mesh Gear box Model • Stroboscope • PMDC Motor • Triaxial Accelerometer • Quarter Car Model Test Rig • Coupling Wheel of Locomotive (Double Crank Mechanism • Gnome- Radial Engine (Six Piston) model • With-Worth Quick Return Mechanism model • Beam Engine (Crank And Lever) model • Indexing Mechanism (Geneva Mechanism) model • Davis Steering Mechanism model • Ackermann Steering Mechanism model • Pantograph model • Elliptical Trammel model • Oldham’s Coupling, Split Muff Coupling, Pin bush Type Coupling model • Peaucellier Mechanism (Straight Line Mechanism) model • Hart Mechanism model • Different Types of CAM And Follower model • Single And Multiplate Clutch Models • Involute Gear Tooth Profile Generator Equipment • Dynamic Vibration Shock Absorber Experimental Set-Up • Hoist And Lift Working Model for Gear Box model • Dam Gate Working Model for Gear Box model • V-Belt, Flat Belt, Chain Sprocket, Timing Belt & Pully Working Model • Universal Coupling Experimental Set-Up • Dc Power Supply, 50-300vdc 30amp • Torsional System model • Spring Mass Undamped System Model • Forced Vibration Model And Base Excitation model • Multi Degree Spring Mass System model • Slider Crank Spring Mechanism model • Motor Cycle Model (3m, 4s, 2d) • Forced Vibration Model and Base Excitation model • Spring Mass Pulley System model • Spring Mass Pendulum System model • Mode Shape Model • Application Of Mechanism Using Linkage, Gear model • Natural Frequency Using Spring Rod Mass System model • Spring Stiffness Measurement Test Rig • Critical Speed Experimental Setup • Logarithm Decrement Setup • Two Rotor System Set Up • C V T Set Up • Clutch Plate Set Up
Laboratory In charge: Mr. S. S. Jadhav
Heat and Mass Transfer laboratory provides fundamental and industrial knowledge about modes of heat transfer, like conduction, convection and radiation, 1-D Heat conduction equation and their application. The Lab consists of the following equipment’s
List of Equipment: • Thermal conductivity of insulating powder apparatus • Thermal conductivity of composite wall apparatus • Thermal conductivity of metal rod • Heat Transfer in Natural convection • Temperature distribution and pin fin efficiency in natural and forced convection • Emissivity measurement of a given disc surface • Stefan Boltzmann apparatus • Critical heat flux in pool boiling • Trial on parallel flow and counter flow heat exchanger • Heat pipe demonstrator. • Computerized Pin Fin Setup
Lab In charge: Mr. H. S. Salave
List of Equipment: Refrigeration and Air Conditioning lab consists of following system to perform various experiments to calculate Cooling Capacity, Energy Input, COP, etc. Refrigeration Test Rig: Refrigeration Test Rig is used to Calculate Cooling Capacity, Energy Input, COP of refrigeration system with R290 as a refrigerant.
Split Air conditioning Test Rig: There are three Split Air Conditioning System in the lab with R22, R32 and a blend of R290 as a refrigerant. The Air Conditioning test Rigs with a blend of R290 is used to Calculate Cooling Capacity, Energy Input, COP of the air conditioning system.
Ice Plant Test Rig: Ice Plant Test Rig with R134A as a refrigerant is used to Calculate Cooling Capacity, Energy Input, COP of the Ice Plant. Vapour Absorption System : This is used to explain working and its different parts of Vapour Absorption System.
Industrial Fluid Power: List of Equipment : Industrial Fluid Power Lab consists of various equipment to study different practical applications related to fluid. Also automation studio software is used to design different hydraulic and pneumatic systems. , Gear Pump Test Rig: Gear Pump Testrig is used to study performance characteristics of a Gear pump. It is coupled to three phase AC electric motor. The curves of efficiency, input power, output power and discharge are studied for various range of pressures. Hydraulic Trainer: Hydraulic trainer is used to build number of hydraulic circuit such as meter in circuit, meter out circuit, bleed off circuit, synchronizing of two cylinders, sequencing circuit etc. Pressure relief valve, 4/2, 4/3 lever operated Direction control valve, roller operated direction control valve are mounted on Hydraulic Trainer. Flow control valves like unidirectional, bidirectional. Needle valve are used to study speed control circuits.Double acting cylinders are mounted to facilitate hydraulic power. The Hydraulic trainer is a powerpack of different hydraulic components. Automation Studio software: Automation studio software is used to study animations of different hydraulic and pneumatic components. Inbuilt library provides variety of hydraulic and pneumatic components to study hydraulic and pneumatic circuits. Design of some practical applications in the area of hydraulic and pneumatics can be built and simulations are studied for different value of pressures and discharge with wide range of actuations of control valves.
List of Equipment:
Drawing Hall consists of the following equipment to fulfill the requirements of Engineering Graphics. Engineering graphics models: The engineering graphics model develops the accurate perspective required for engineering drawing. In every model, each view is painted with different colours leading to a clear understanding of different views.
Adjustable drawing tables and boards: Adjustable drawing table which is specially designed to adjust the height of the board from ground level as per the requirement ensures a steady platform required for a hassle-free drawing experience for every student. With this facility students are well able to gain practical knowledge of Engineering graphics- which is important to develop the imagination of physical objects to be represented on paper for Engineering communication, also develop manual drawing skills, drawing interpretation skills and to develop the physical realization of the dimension of objects.
Laboratory In charge: V. R. Varude
|Sr. No.||Year||Name of Student||Percentage (%) / CGPA|
|1||2021||Kadam Prasad Dilip||9.62 CGPA|
|2||2020||Kench Rushikesh||9.33 CGPA|
|3||2019||Jain Shubham||9.41 CGPA|
|4||2018||Gogate Kaustubh||83.07 %|
|5||2017||Pravanjan Malwadkar||78.47 %|
|6||2016||Amarnath Worty||80.33 %|
|7||2015||Gaurav Desai||77.07 %|
|8||2014||Shreyash Joshi||81.33 %|
|9||2013||Sahil Dange||77.66 %|
|10||2012||Tushar Tayade||80.07 %|
|11||2011||Khushroo Mistry||79.00 %|
|12||2010||Stefan Sangale||73.93 %|
|13||2009||Tanay Bankar||75.46 %|
|14||2008||Kaustubh Bhinge||75.40 %|
|18||2004||Amol Kshirsagar||71.40 %|
|19||2003||Niranjan Kolhe||71.10 %|
Collaboration From : 07-09-2020
Collaboration From : 05-07-2019
Collaboration From : 23-01-2019
Collaboration From : 23-08-2017
Collaboration From : 15-09-2017
Collaboration From : 12-08-2016
Collaboration From : 10-07-2015
Collaboration From : 01-06-2015
Collaboration From 30-09-2014
|Sr. No.||Name of the Faculty||Patents / Copyright Details||Details / Date of Publish|
|1||Dr. V. N. Chougule||A system and method for development of patient specific path guidance tool||201621034738|
|2||Dr. V. N. Chougule||A system and method for pre-surgical planning using non-invasive imaging techniques||201621034740|
|3||Dr. V. N. Chougule||A generalized path guidance tool to assist in minimum invasive surgery of lumbar spine||201621042698|
|4||Dr. B. D. Nandre and Mr. A. A. Chaugule||"Design And Development Of 360 Degree Welding Turntable With Scissor Height Adjuste||202221016223|
|5||Dr. B. D. Nandre and Dr. A. R. Patil||Design And Development Of Semi-Automated Sugar Cane Cultivation Machine For Farmers||202221021775|
|6||Dr. B. D. Nandre and Dr. A. R. Patil||“Artificial Intelligent Based Smart Electric Vehicle System With Improved Performance”||202221018849|