About Course

Mechanical Engineering is mother of all engineering. It is the first step to learn that follow all other engineering. It provides a student to learn the design, analysis of complex problems, basic concepts of engineering fundamentals, energy and its generation and working of machinery, hence it is the most important branch of engineering.

PROGRAMME EDUCATIONAL OBJECTIVES

PROGRAMME OUTCOMES

1. To produce quality engineers who pursue careers as practicing mechanical engineers in core mechanical or allied industries worldwide.
2. To prepare graduates to meet the expectations of modern industries for catering the proliferating demand and rising quality standards.
3. To produce responsible engineers capable of conducting sustainable, environment-friendly, innovative research and development in advanced domains.
4. To prepare young engineering graduates to serve the society better by practicing professional leadership roles with a commitment to lifelong learning.
5. To produce engineering graduates with a strong will and attitude to excel through the challenges in all walks of life.

Program outcomes

Engineering Graduates will be able to:

1. Engineering knowledge: Apply the knowledge of mathematics, science, engineering fundamentals, and an engineering specialization to the solution of complex engineering problems.
2. 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.
3. 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.
4. 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.
5. 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.
6. 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.
7. 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.
8. Ethics: Apply ethical principles and commit to professional ethics and responsibilities and norms of the engineering practice.
9. Individual and team work: Function effectively as an individual, and as a member or leader in diverse teams, and in multidisciplinary settings.
10. 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.
11. 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.
12. 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.  

PSO (Program Specific Outcome)

1. PSO1: Apply their knowledge in real time applications and automation by using advanced engineering tools and multidisciplinary approaches.
2. PSO2: Implement new concepts on product design and development by using modern techniques, while ensuring the use of most appropriate manufacturing methods.
3. PSO3: Enhance the knowledge in different administrative and management skills through the use of appropriate software.

Faculty

Dr. SANJEEV KUMAR SHUKLA
Designation	Associate Professor and Head
Graduation	B.E. (M.E.)
Post graduation	M.TECH.(DESIGN OF PROCESS MACHINES) MNNIT‘ALLAHABAD
Doctorate	Ph.D.
Teaching experience	17 Years
Email id	sanjeev.shukla@miet.ac.in
Area of interest	Thermodynamics, Refrigeration & Air Conditioning
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Dr. AMITAVA BHATTARCHARYA
Designation	Professor
Graduation	BSc.ENGINEERING .(MECH. ENGG) IIT BHU
Doctorate	Ph.D. (IIT BHU)
Teaching experience	31 years
Industrial experience	5 years
Email id	amitava.bhattarcharya@miet.ac.in
Area of interest	-

Dr. TUSHAR JAIN
Designation	Associate Professor
Graduation	B.TECH (HONS) (VBS PURVANCHAL UNIVERSITY)
Post graduation	M.TECH (UPTU LUCKNOW CAMPUS)
Doctorate	Ph.D.
Teaching experience	17 Years
Email id	tushar.jain@miet.ac.in
Area of interest	MECHANICAL ENGG
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Mr.PIYUSH GUPTA
Designation	Associate Professor
Graduation	B.E.(Mech..Engg.)(NAGPUR UNIVERSITY.)
Post graduation	M.TECH (UPTU CAMPUS LUCKNOW)
Doctorate	Pursuing (DCRUST SONIPAT) THERMAL ENGG.
Teaching experience	17 Years
Industrial experience	2 Years
Email id	PIYUSH.GUPTA@MIET.AC.IN
Area of interest	FLUID ENGINEERING
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Mr. AMIT KUMAR
Designation	Associate Professor
Graduation	B.TECH. (GULBEERGA  UNIVERSITY)
Post graduation	M.TECH(GB PANT UNIVERSITY,PANT NAGAR)
Teaching experience	16 Years
Industrial experience	1 Year
Email id	amit.pundir@miet.ac.in
Area of interest	Design & Production
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Dr. PARDEEP KUMAR
Designation	Associate Professor
Graduation	B.TECH (KURUKSHETRA UNIVERSITY)
Post graduation	M.TECH(N.I.T. KURUKSHETRA)
Doctorate	Ph.D (N.I.T. KURUKSHETRA)
Teaching experience	8.5 Years
Industrial experience	1 Year
Email id	pardeep.kumar@miet.ac.in
Area of interest	INDUSTRIAL & THERMAL ENGINEERING
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Mr. DINESH KUMAR
Designation	Associate Professor
Graduation	B.E  MECHANICAL ENGG.(BIT SINDRI)
Post graduation	M.TECH ( NIT JAMSHEDPUR)
Doctorate	PURSUING PART TIME FROM IIT DELHI
Teaching experience	18.5 Years
Email id	dinesh.kumar@miet.ac.in
Area of interest	SOLID MECHANICS, TOM, M/C DESIGN,MECH. VIBRATIONS AND CONDITION MONITORING.
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Dr. Ansar Ali sk
Designation	Associate Professor
Graduation	BE ( Karnatak University
Post graduation	M.Tech ( UPTU, Lucknow)
Doctorate	SHUATS, Allahabad
Teaching experience	15 Years
Industrial experience	03  Years
Research experience	03  Years
Email id	ansar.ali@miet.ac.in
Area of interest	Thermal Engineering.
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Mr. HARISH CHAND BHATIA
Designation	Assistant Professor
Graduation	B. E. (University of Roorkee)
Teaching experience	18 Years
Industrial experience	20 Years
Email id	harish.bhatia@miet.ac.in
Area of interest	DESIGN
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Mr. ABHISHEK KUMAR YADAV
Designation	Assistant Professor
Graduation	B.TECH (UPTU Lucknow)
Post graduation	M.TECH (IIT Roorkee)
Teaching experience	6 Years
Email id	abhishek.yadav@miet.ac.in
Area of interest	Thermal, Welding Engineering
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Mr. SANTOSH KUMAR RAI
Designation	Assistant Professor
Graduation	B.Tech. Mechanical Engineering
Post graduation	M.Tech. (IIIT Jabalpur) (Mechanical Engineering)
Doctorate	Pursuing (IIIT Jabalpur) (Thermal and Fluid Engineering)
Teaching experience	3 year
Research experience	2 Years
Industrial experience	5 Months
Email id	santosh.kumar@miet.ac.in
Area of interest	Thermal and Fluid Engineering, CFD and Nuclear Reactor
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Ms. ANJU CHAUDHARY
Designation	Assistant Professor
Graduation	B.TECH. (UPTU,LUCKNOW)
Post graduation	M.TECH. (SITE MEERUT UNIVERSITY)
Teaching experience	7.6 Years
Email id	anju.chaudhary@miet.ac.in
Area of interest	Production Engineering
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Mr.RAHUL SHARMA
Designation	Assistant Professor
Graduation	B.TECH. (UPTU LUCKNOW)
Post graduation	M.TECH. (SITE MEERUT UNIVERSITY)
Teaching experience	7.5 Years
Email id	rahul.sharma@miet.ac.in
Area of interest	SOM, MECHANICAL VIBRATION, SAP, SOLID EDGE
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Mr. MOHD. MUSTAFA SAIFY
Designation	Assistant Professor
Graduation	B.TECH. (UPTU LUCKNOW)
Post graduation	M.TECH. (UPTU LUCKNOW)
Teaching experience	8 Years
Email id	mustufa.saify@miet.ac.in
Area of interest	Thermal, Hydraulics, FESTO Automation Trainer
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Mr. ANKUR VERMA
Designation	Assistant Professor
Graduation	B.TECH.(AUTOMOBILE ENGG.)
Post graduation	M.TECH (THERMAL ENGG.)
Teaching experience	6.5 Years
Email id	ankur.verma@miet.ac.in
Area of interest	e Automotive Technologies, NCER
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Mr. Mahendra Singh
Designation	Assistant Professor
Graduation	B.TECH. (UPTU LUCKNOW)
Post graduation	M.TECH. (KURUKSHETRA UNIVERSITY)
Teaching experience	5.6 Years
Email id	mahendra.singh@miet.ac.in
Area of interest	Thermal & Production Engineering
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Mr.MANISH KUMAR
Designation	Assistant Professor
Graduation	B.Tech (BBDNITM ,LUCKNOW)
Post graduation	M.Tech (N.C.COLLEGE OF ENGINEERING)
Teaching experience	8.5 Years
Email id	manish.kumar@miet.ac.in
Area of interest	Manufacturing Science, Engineering Mechanics
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Mr. ANKIT SHARMA
Designation	Assistant Professor
Graduation	B.Tech (UPTU LUCKNOW)
Post graduation	M.Tech (SUBHARTI UNIVERSITY)
Teaching experience	7 Years
Industrial experience	1 Year
Email id	ankit.sharma@miet.ac.in
Area of interest	Production Engineering, Material Science, Mechanical Vibrations
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Mr. ARUN UNIYAL
Designation	Assistant Professor
Graduation	B.TECH. (UTTARAKHAND TECHNICAL UNIVERSITY)
Post graduation	M. TECH (G.B.PANT UNIVERSITY)
Teaching experience	4 Years
Email id	arun.uniyal@miet.ac.in
Area of interest	RAC, Thermodynamics, Fluid Mechanics
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Mr.INDRAJIT KUMAR
Designation	Assistant Professor
Graduation	B.Tech(Ranchi University)
Post graduation	M.Tech( NITTTR, Chandigarh) (Pursuing)
Teaching experience	7.5 Years
Industrial experience	1 Year
Email id	indrajit.kumar@miet.ac.in
Area of interest	Production Technology, Fluid Mechanics, Fluid Machinery, HMT
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Mr. VIPIN KUMAR SHARMA
Designation	Assistant Professor
Graduation	B.Tech (MIET MEERUT UPTU)
Post graduation	M.Tech (KIET GHAZIABAD UPTU)
Doctorate	Ph.D PURSUING FROM THAPAR UNIVERSITY ,PATIALA
Teaching experience	7 years 6 months
Email id	vipin.k.sharma@miet.ac.in
Area of interest	Production Engineering (Hybid Composites & AFM)
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Mr. SHAILENDRA KUMAR
Designation	Assistant Professor
Graduation	B.E., (Malaviya National Institute of Technology, Jaipur)
Post graduation	M TECH (National Institute of Technology, Hamirpur)
Doctorate	Ph D (Pursuing from Jamia Millia Islamia, New Delhi)
Teaching experience	12 Years
Entrepreneurship Experience	3 Years
Email id	shailendra.kumar@miet.ac.in
Area of interest	FMS, CNC, Mechatronics, NCER, Automobile
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Ms. Neha Dixit
Designation	Assistant Professor
Graduation	B.tech (MIET MEERUT UPTU)
Post graduation	M.Tech(Kurukshetra University,kurukshetra) Pursuing
Teaching experience	2 Years 6 Months
Email id	nehamiet17@gmail.com
Area of interest	Production and industrial engineering
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Mr. Nishant Kumar
Designation	Assistant Professor
Graduation	B.Tech (GBTU Lucknow)
Post graduation	M.Tech. (NIT Agartala)
Teaching experience	2.5 Years
Industrial experience	1 Year
Email id	nishant.kumar@miet.ac.in
Area of interest	Automobile Engineering, I.C. Engines
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Mr. UDIT KUMAR DEVRA
Designation	Assistant Professor
Graduation	B.TECH.(MECHANICAL ENGG.)
Post graduation	M.TECH.(THERMAL ENGINEERING)
Teaching experience	3 Years
Email id	udit.devra@miet.ac.in
Area of interest	I.C. Engine , Power Plant Engineering
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Mr. SANDEEP KUMAR
Designation	Assistant Professor
Graduation	B.Tech.(Mechanical Engineering) UPTU
Post graduation	M.Tech.(Manufacturing Technology) NIT Jalandhar
Teaching experience	3 Years
Industrial experience	2 Years
Email id	sandeep.kumar@miet.ac.in
Area of interest	Manufacturing Technology
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Mr. RAHUL JOSHI
Designation	Assistant Professor
Graduation	B.TECH.(MECHANICAL ENGG.) (UTU)
Post graduation	M-TECH(DESIGN AND PRODUCTION) (GB PANT UNIVERSITY)
Teaching experience	2 Years
Industrial experience	5 Months
Email id	rahul.joshi.me@miet.ac.in
Area of interest	Fluid machinery, TOM, Topology Optimization, SOM
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Mr. KAPIL KUMAR
Designation	Assistant Professor
Graduation	B.TECH.(UPTU Lucknow)
Post graduation	M.Tech (IIT-BHU, Varanasi)
Teaching experience	3.6 YEARS
Email id	kapil.kumar@miet.ac.in
Area of interest	PRODUCTION ENGINEERING
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Mr.Vikrant Giri
Designation	Assistant Professor
Graduation	B.TECH.(SCRIET MEERUT, CCSU)
Post graduation	M.Tech (SLIET, PUNJAB)
Teaching experience	2 Years
Email id	vikrant.giri@miet.ac.in
Area of interest	Sustainable Manufacturing Technologies
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Mr. Mudit Sharma
Designation	Assistant Professor
Graduation	B.Tech (UPTU LUCKNOW)
Post graduation	M.Tech (MEWAR UNIVERSITY)
Teaching experience	8.5 years
Research experience	2 Years
Email id	mudit.sharma@miet.ac.in
Area of interest	Production Engineering
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Mr. Rahul Tyagi
Designation	Assistant Professor
Graduation	B.TECH (UPTU LUCKNOW)
Post graduation	M.Tech (MNIT JAIPUR)
Teaching experience	5 Years
Email id	rahul.tyagi@miet.ac.in
Area of interest	FLUID MECHANICS, PRODUCTION ENGINEERING
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Mr.Shwetanshu Gaurav
Designation	Assistant Professor
Graduation	B.TECH.(UPTU LUCKNOW)
Post graduation	ME Hear(Thermal) power engg
Teaching experience	2.5 Years
Email id	shwetanshu.gaurav@miet.ac.in
Area of interest	HMT ,RAC, Material Science

Mr. HEMANT KUMAR
Designation	Assistant Professor
Graduation	B.E. (IIT Roorkee ) (HONS.)
Post graduation	M.E. (IIT Roorkee)
Teaching experience	11.5 Year
Industrial experience	23 Years
Email id	hemant.kumar@miet.ac.in
Area of interest	Quality Management and Production Engineering
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Mr. MADHUR KUMAR DUBEY
Designation	Assistant Professor
Graduation	B.Tech (Mechanical Engineering)
Post graduation	M.Tech (Mechanical Technology)
Teaching experience	8.5 years
Email id	madhur.dubey@miet.ac.in
Area of interest	Production Engineering
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Mr. NITESH KUMAR
Designation	Assistant Professor
Graduation	B.Tech. (UTU)
Post graduation	M.Tech. (GBPEC)
Teaching experience	4.6 years
Email id	nitesh.kumar@miet.ac.in
Area of interest	RAC, Fluid Mechanics,EDP,TQM,Basic Mechanical Engineering
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Mr. NOMENDRA TOMAR
Designation	Assistant Professor
Graduation	B.Tech. (Mechanical Engineering) UPTU Lucknow
Post graduation	M.Tech. (Thermal Engineering.) SVUMP
Teaching experience	8 Years
Industrial experience	2 Years
Email id	nomendra.tomar@miet.ac.in
Area of interest	Cryogenics
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Mr. GAURANG DEEP
Designation	Assistant Professor
Graduation	B.Tech (UPTU, Lucknow)
Post graduation	M.Tech (Punjab University, Chandigarh)
Teaching experience	8 Years
Industrial experience	2 Years
Email id	gaurang.deep@miet.ac.in
Area of interest	Manufacturing and Design
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Mr. AMIT KUMAR
Designation	Assistant Professor
Graduation	B.Tech. (GBTU LUCKNOW)
Post graduation	M.Tech. (MNIT JAIPUR)
Teaching experience	2.5 Years
Email id	amit.kumar@miet.ac.in
Area of interest	Thermal Engineering, Renewable energy, KOM

Mr. ANKIT SAXENA
Designation	Assistant Professor
Graduation	B. Tech. (UPTU Lucknow)
Post graduation	M. Tech. (NIT Kurukshetra)
Doctorate	N/A
Teaching experience	0.6 Year
Industrial experience	1 Year
Email id	ankit.saxena@miet.ac.in
Area of interest	Machine Design
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Ms. ARUSHI KUMAR
Designation	Assistant Professor
Graduation	B.TECH (UPTU Lucknow)
Post graduation	M.Tech ( G.B.Pant University, Pantnagar)
Teaching experience	0.6 Year
Email id	arushi.kumar@miet.ac.in
Area of interest	Design and Production
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Ms. MEGHA VERMA
Designation	Assistant Professor
Graduation	B.TECH.(UPTU Lucknow)
Post graduation	M.TECH. (MDU,Rohtak)
Teaching experience	4 Years
Email id	megha.verma@miet.ac.in
Area of interest	Production
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Ms. NUPUR MEHTA
Designation	Assistant Professor
Graduation	B.TECH.(UPTU)
Post graduation	M.TECH(GALGOTIAS UNIVERSITY)
Teaching experience	2 Years
Email id	nupur.mehta@miet.ac.in
Area of interest	Design, Production
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Pankaj Niranjan
Designation	Assistant Professor
Graduation	B.Tech, Mechanical Engineering (KIET Ghaziabad)
Post graduation	M.Tech, Thermal Engineering (NIT Kurukshetra)
Email id	pankaj.niranjan@miet.ac.in
Area of interest	Thermal Engineering
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SAURABH SACHAN
Designation	Assistant Professor
Graduation	B.Tech. (Hons.),Mechanical Engineering (UPTU, Lucknow)
Post graduation	M.Tech. (Gold Medalist), Machine Design (NIT, Kurukshetra)
Email id	saurabh.sachan@miet.ac.in
Area of interest	Machine Design, Design of Mechanisms, TOM, HMT, Operations Research, SolidWorks, CATIA.
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Laboratories

Fluid Mechanics lab (RCE 353)

After completing student will be able to:

1. Develop procedure for standardization of experiments
2. Calibrate flow discharge measuring device used in pipes channels and tanks.
3. Determine fluid and flow properties.
4. Study the Characteristic behavior of fluid flow i.e. laminar flow and turbulent flows.
5. Compute coefficient of discharge and coefficient of velocity.
6. Study the boundary layer concept over a flat plate.

Material Science & Testing Lab (RME 351)

After completing:

1. Students will be able to design basic experiments and prepare laboratory reports describing the processes and results of experiments.
2. Students will be able to determine various parameters and attributes related to mechanical properties of materials through both destructive and non-destructive techniques.
3. Students will be able to conduct experiments on standard equipment themselves and to quantitatively determine various properties of materials through such experiments.
4. Students will be able to classify and eventually select an engineering material on the basis of properties desired and applications.

Element of Mechanical Engineering Lab (RME 151)

After completing:

1. Students will be able to design basic experiments and prepare laboratory reports describing the processes and results of experiments.
2. Students will be able to determine various parameters and attributes related to mechanical properties of materials through destructive techniques.
3. Students will be able to conduct experiments on standard equipment themselves and to quantitatively determine various properties of materials through such experiments.
4. Students will be able to understand the operation and working of boiler and also the working of internal combustion engine.

Thermodynamics Lab (RME 352)

After completing student will be able:

1. To understand the working of Fire tube and Water tube boilers.
2. To explain the working of Two stroke Petrol/Diesel engines.
3. To explain the working of Four stroke Petrol/Diesel engines.
4. To understand the working of Steam Engine.
5. To analyze heat balance sheet for Petrol test rig.
6. To explain the working of Impulse and Reaction turbine.

Manufacturing Science & Technology I Lab (RME 452)

After completing:

1. Students will be able to explain metal forming operation like Forging and rolling.
2. Students will be able to design and prepare pattern, carry out moulding and casting process in order to make a component.
3. Students will be able to differentiate Blanking and Piercing operation by performing these operations on press machine.
4. Students will be able to understand the application of Jigs and fixtures in machining, welding and other operations.

Measurement and Metrology Lab (RME 451)

After completing student will be able to:

1. To understand the basic measurement units and able to calibrate various measuring devices.
2. To express error and correction factors of various measuring devices.
3. To use measuring tools such as Sine Bar, Slip Gauges, Bevel Protractor, Stroboscope, Dial Indicator.
4. Understand the basic principles of measurement instrumentation, working of transducers Tachometers.
5. Understand the Limits, Fits, Interchange ability and Selective assembly.

Design and Simulation I Lab (RME 551)

After completing student will be able:

1. To design various types of joints like cotter and knuckle.
2. To know the design process for components subjected to different types of static loads.
3. To know how to design a mechanical component subjected to fluctuating load.
4. To the process to design different types of couplings.
5. To how to design springs for various uses.

Heat & Mass Transfer Lab(RME 552)

After completing student will be able to:

1. Learn the basic concept of conduction, convection and radiation heat transfer.
2. Understand how to heat flow in solid and fluid medium.
3. Developed empirical correlations for both forced and free convection for determine the value of convection heat transfer coefficient.
4. Experimental recognize basic concept of the radiation heat transfer for black and grey body
5. Experimental analyze the thermal analysis and sizing of Heat exchangers and to understand the mode of mass transfer.

Manufacturing Science& Technology-II Lab (RME 553)

After completing:

1. Students will be able to explain basic principle, constructional details and types of operations performed on lathe, milling, shaper and drilling machine.
2. Students will be able to describe and differentiate arc welding, gas welding and resistance welding and their applications.
3. Students will be able to apply single point and multi point cutting tools in making different jobs like threaded bolt and spur gear in various machine tools.
4. Student will be able to select a suitable machining operation and welding process in order to make a component

Automobile Engineering & I C Engine Lab (NME 752)

After completing student will be able to:

1. Describe, and demonstrate various Automobile components and system which include Engine components and lighting system.
2. Understand and explain the automobile suspension system & different type of steering system.
3. Describe the principle and working of fuel injection system and Ignition system, cooling and lubrication system.
4. Differentiate between clutch, gear box, rear axle drives, fluid flywheel, and torque converter, of differential gear box in automobile.
5. Describe the various types of braking system and its component in automobile vehicle.

Fluid Machinery Lab (RME 651)

After completing student will be able to:

1. Learn concept of momentum equation.
2. Develop procedure for standardization of experiments.
3. Determine fluid flow rate and pressure.
4. Check the performance of pumps and turbines under variable conditions.
5. Provide the students knowledge in calculating performance analysis in turbines and pumps.

Design and Simulation II Lab (RME 653)

After completing student will be able to:

1. To become familiar with the basics of C and C++ programming languages.
2. To know how to write the simple programme for various machine components.
3. They are able to know how to run and validate the design output of a machine component.
4. Through mini project, the students come to know how to design IC Engines parts
5. The students get the overall exposure to design process of various mechanical components

Refrigeration & Air-conditioning Lab (RME 654)

After completing student will be able to:

1. Understand the principles and applications of refrigeration systems.
2. Understand vapor compression refrigeration system and identify methods for performance improvement.
3. Study the working principles of Simple vapor compression refrigeration systems.
4. Analyze air-conditioning processes using the principles of psychometric
5. Study the working principles of Hermetically sealed compressor

CAD/CAM Lab (NME 751)

After completing student will be able to:

1. To find the roots of a polynomial by using Newton-Raphson methods with programming language C++.
2. To find various design sizes by using design formulae with the help of computer program..
3. To generate line and curves using various line/curve drawing algorithm
4. To transform various geometric identities
5. To be familiar with various features, compatibilities benefits of CNC machines over ordinary machine.
6. To simulate and validate job profiles on CNC simulation software
7. To make simple programs and jobs on SIMURIC controlled CNC turning machine.
8. To perform operations on FANUC controlled CNC drilling milling turning machines.

Computer Aided Engg. graphics Lab (RCE 151)

After completing, student will be able to:

1. Understanding of the visual aspects of engineering design.
2. Understanding of engineering graphics standards and solid modelling
3. Effective communication through graphics.
4. Applying modern engineering tools necessary for engineering practice
5. Applying computer- aided geometric design
6. Analysis of Isometric views
7. Creating working drawings

COMPUTER AIDED MACHINE DRAWING-I Lab (RME 353)

1. The student should understand the meaning of various lines and symbols used in drawings.
2. The student can produce the orthographic projections of the parts.
3. The student should be able to reproduce the drawings, sizes and shapes of mechanical components
4. The student should capable of put his ideas to others by producing drawings using AutoCAD Software.

COMPUTER AIDED MACHINE DRAWING-II Lab (RME 453)

After completing, student will be able to:

1. Capable of using the various engineering drafting and modeling software’s.
2. Understand various types of fits, tolerances and surface finish etc.
3. Produce assembly drawings and showing relationship in mating parts.
4. Understand various symbols and marking on drawing for welded, riveted and bolted joints,
5. Produce parts models of mechanical components like plumber block, vice, screw jack, tailstock, valves etc.

Workshop (RME 152)

After completing, student will be able to:

1. Study and practice on machine tools and their operations
2. Practice on manufacturing of components using workshop trades including fitting, carpentry, foundry and welding
3. Identify and apply suitable tools for machining processes including turning,facing, thread cutting and tapping
4. Welding and soldering operations
5. Apply basic electrical engineering knowledge for house wiring practice

Theory of Machine Lab (RME 653)

After completing :

1. Students will be able to grasp the working principle of gyroscope.
2. Students will be able to understand the dynamic analysis of slider crank mechanism.
3. Students will be able to perform the static and dynamic balancing
4. Students will be able to study the cam analysis machine
5. Students will be able to understand the universal governor and universal vibration apparatus.

SAP ERP Lab

After completing:

1. Students will be able to understand the fundamental of SAP ERP software.
2. Students will be able to learn navigation of SAP ERP.
3. Students will be able to develop the reports of various modules of SAP ERP.
4. Students will be able to develop and analyze the DBMS.
5. Students will be able to create data and enhance the business.

SIEMENS PLM

After completing:

1. Trainee will be able to design basic models through utilization of SOLIDEDGE and NX CAD
2. Trainee will be able to design and construct complicated and intricate details of a 3D model.
3. Trainee will be able to work in all environments of SOLIDEDGE with an expertise in Graphic User Interface
4. Trainee will be able to analyze and simulate the 3D model constructed in SOLIEDGE using simulation tools such as FEMAP and NASTRAN
5. Trainee will be able to take a real life project and complete it all aspects

FESTO

After completing:

1. Trainee will be able to design basic pneumatic circuits through utilization of FESTO Trainer Kit.
2. Trainee will be able to design and construct complicated and intricate details of a pneumatic circuits using FluidSim Software
3. Trainee will be able to work in all environments of Simatic Manager PLC Software with pneumatic components with an expertise.
4. Trainee will be able to analyze and simulate the Industrial application model constructed on MPS Station using CIROS Software.
5. Trainee will be able to take a real life project and complete it all aspects

Achievements

AICTE funded projects

1. An AICTE project on MODROBS (grant of Rs. 15 Lac) is completed.

Students qualified in GATE Exam

1. 23 students in 2012
2. 14 students in 2011

Research

Syllabus

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Course Outcomes

Third Semester

FLUID MECHANICS (RCE 303)

After completing the course student will be able to:

1. Outline the Newton’s law of viscosity & Explain the mechanics of fluids at rest and in motion by observing the the fluid phenomenon and Know the concept of laminar and turbulent flow
2. Estimate force of buoyancy on a partially or fully submerged body and Examine the stability of a floating body and Describe the concept of laminar and turbulent flow
3. Derive Euler’s Equation of motion and Apply it to deduce Bernoulli’s equation
4. Analyze energy losses in pipe transitions and sketch energy gradient lines
5. "Evaluate pressure drop in pipe flow using Hagen-Poiseuille’s equation for laminar flow in a pipe

Material Science (RME 301)

After completing the course student will be able to:

1. Analyze the Structure of materials at different levels, basic concepts of crystalline materials like unit cell, FCC, BCC, HCP, APF ,Co-ordination Number etc.
2. Understand concept of mechanical behavior of materials and calculations of same using appropriate equations.
3. Explain the concept of phase & phase diagram & understand the basic terminologies associated with metallurgy. Construction and identification of phase diagrams and reactions.
4. Understand and suggest the heat treatment process & types. Significance of properties Vs microstructure, Surface hardening & its types.
5. Explain features, classification, applications of newer class materials like smart materials, piezoelectric materials, biomaterials, composite materials etc

Mechanics of Solids (RME 303)

After completing the course:

1. Recognize the concept of 3 – D stress & strain and determine the principal stresses and strains in structural members
2. Understand the concept of strain energy and its practical applications.
3. Critically analyze and solve practical problems related to the safety of various mechanical components under different types of loads.
4. Understand the concept of stability and buckling of columns and struts..
5. Apply the concepts to calculate the deformation behavior of simple mechanical elements such as beams, shafts, columns and springs etc.
6. Identify the application of discrete mathematics in various fields.

Thermodynamics (RME-302)

After completing the course student will be able to:

1. Apply the basic concepts and first law of thermodynamics.
2. Understand the conversion of energy and feasibility of thermodynamic processes.
3. Understand the thermodynamic relations and quality of energy.
4. Understand the concepts related to properties of steam and Rankine cycle.
5. Understand the different refrigeration cycles and classification of refrigerants.

Fourth Semester

Applied Thermodynamics (RME-403)

After completing the course:

1. Apply the basic concepts and first law of thermodynamics
2. Understand the conversion of energy and feasibility of thermodynamic processes.
3. Understand the thermodynamic relations and quality of energy
4. Understand the concepts related to properties of steam and Rankine cycle
5. Understand the different refrigeration cycles and classification of refrigerants.

Manufacturing Science & Technology I (RME 402)

After completing the course:

1. Students will be able to Understand metal working processes, effects of parameters, types of stresses and mechanics of metal working.
2. Understand, classify the primary forming processes like forging , rolling, drawing, extrusion and sheet metal forming processes , equipment used, calculation of load, process variables, defect encountered and numerical problems.
3. Ability to describe and discuss appropriate manufacturing processes, pattern selection, casting methods, identify appropriate sand molds, binders, additives. Choose and classify core types, gating, and riser system, for solving engineering problems. Special molding process, CO2mould, Investment mold. Metal molds, centrifugal casting.
4. Understand the principles and applications and limitations of different types of high energy rate forming processes, powder metallurgy and plastic technology.

Measurement and Metrology (RME 401 )

After completing the course:

1. Explain the basics of standards of measurement, limits, fits & tolerances industrial applications.
2. Identify the uses of gauges and comparators
3. Understand the significance of measurement system, errors, transducers, intermediate modifying and terminating devices
4. Interpret measurement of field variables like force, torque and pressure
5. Comprehend the fundamentals of thermocouple and strain measurement

Fifth Semester

Machine Design I (RME-501)

After completing the course student will be able to:

1. Learn about the basic concepts of machine design
2. Understand the technical data of machine elements
3. Explain and select springs, keys, joints, fasteners etc available in market.
4. Develop the concept of design for variable loadings.
5. Learn the standards for design of boilers joints.

Heat & Mass Transfer (RME 502)

After completing the course student will be able to:

1. Learn the basic concept of conduction, convection and radiation heat transfer.
2. Understand how to formulate and be able to one dimension conduction problems.
3. Apply empirical correlations for both forced and free convection for determine the value of convection heat transfer coefficient.
4. Recognize basic concept of the radiation heat transfer for black and grey body.
5. Analyze the thermal analysis and sizing of Heat exchangers and to understand the mode of mass transfer

Manufacturing Science& Technology-II (RME 503)

After completing the course:

1. Students will be able to acquire fundamental knowledge and understanding of machining and welding processes.
2. Students will be able to acquire abilities and capabilities in the areas of advanced manufacturing methods (unconventional manufacturing processes).
3. Students will be able to formulate relevant problems, conduct experimental and/or analytical work and analyze results using modern mathematical and scientific methods.
4. Students will be able to review and document the knowledge developed by scholarly predecessors and critically assess the relevant technological issues.
5. Students will be able to design and validate technological solutions to defined problems and write clearly and effectively, for the practical utilization of their work.

IC Engines and Compressors (RME 051)

After completing the course student will be able to:

1. Understand working and performance of IC Engines through thermodynamic cycles.
2. Understand working and performance of Compressors.
3. Understand combustion phenomena in SI and CI engines and factors influencing combustion chamber design.
4. Evaluate methods for improving the IC engine performance.
5. Analyze the working principles of lubrication and cooling of IC engine and latest developments in alternate fuels.

Sixth Semester

Fluid Machinery (RME 601)

After completing the course student will be able to:

1. Apply Euler equation and momentum equation for understanding the behavior of jet.
2. Understand construction and working details of impulse and reaction turbine.
3. Evaluate performance parameters and performance characteristics of impulse and reaction turbine.
4. Understand and evaluate performance parameters and performance characteristics of Centrifugal and Reciprocating pump.

Kinemetics of Machines (NME 502)

After completing the course student will be able to:

1. Develop the design concepts of different types of mechanism with lower pairs
2. Analyze the velocity and acceleration of links of different mechanisms.
3. Study and analyze the gear profiles and gear trains.
4. Study and analyze the cam profiles.
5. Synthesis of the different mechanisms.

Dynamics of machines (NME 603)

After completing the course student will be able to:

1. Ability to understand the basic concepts of static and dynamic force in various mechanisms
2. Ability to explain the concepts of Dynamics and motions of Bodies.
3. Ability to explain the working of Governors, Flywheel, and Gyroscope etc.
4. Ability to explain the process of balancing of machines at different condition of vibrations.
5. Ability to explain the working of friction devices like friction clutches, breaks and dynamometers etc.
6. Ability to explain the basic functions of complex machinery like i.c. engines, and steam engines.

Machine Design-II (RME 603)

After completing the course student will be able to:

1. Learn about the basic concepts of various gears and their design.
2. Understand the technical data of Gears and Bearings.
3. Explain and select the suitable ball bearings available in market
4. Develop the concept lubrication and various oils
5. Learn the designing of engines and its parts.

Refrigeration & Air-conditioning (RME 061)

After completing the course student will be able to:

1. Understand the air refrigeration, vapour compression refrigeration, different type of refrigerants, vapour absorption and steam jet refrigeration system.
2. Learn the working of single stage, multistage and cascade refrigeration.
3. Apply the knowledge of psychrometry to various psychrometric processes.
4. Evaluate cooling and heating load and design of HVAC system.
5. Develop and design RAC system and evaluate different expansion and control devices.

Mechanical Vibration (RME 063)

After completing the course student will be able to:

1. Learn the basic causes and effects of mechanical vibrations.
2. Understand the Fourier series and Harmonic Analysis and application it in problems in Mechanical Vibrations.
3. Understand and apply the concept of Damped and Undamped mechanical vibrations and to analyze the system with such an arrangement.
4. Understand the concept of free and forced vibrations and to solve the problems involving such configurations and concept of One, Two and Several Degrees of freedom and to solve the system of all such attributes.
5. Analyze the performance of various types of vibration models and solve them for increasing their effectiveness and devise the methods of reducing the mechanical vibrations.

Seventh Semester

Total Quality Management (NME 041)

After completing the course student will be able to:

1. Understanding quality control & its role in design , manufacturing and sales
2. Understanding about organizational structure, economics of quality & human factor in quality
3. Analysis of data with tools and techniques and control charts
4. Understanding reliability, maintainability, zero defect and quality circles
5. Understanding about ISO 9000/14000, Taguchi method and JIT

Operations Research. (NOE 073)

After completing the course:

1. Students will be able to Classify operation research modeling approaches.
2. Students will be able to Formulate and solve engineering and managerial situations as LPP.
3. Students will be able to Formulate and optimize transportation and assignment problems.
4. Students will be able to Solve project management networks.
5. Students will be able to Solve queuing models
6. Students will be able to Solve inventory models

Computer Aided Manufacturing (NME 031)

After completing the course:

1. Students will be able to explain the fundamental knowledge of CAM.
2. Students will be able to Understand the elements of an automated manufacturing environment.
3. Students will be able to classify and distinguish NC, CNC and DNC systems.
4. Students will be able to Create CNC programs to manufacture industrial components.
5. Students will be able to Understandf techniques used in industry ex: FMS ,group technology,CIM,Cellular manufacturing

CAD (NME 701)

After completing the course student will be able to:

1. Understand the basic fundamental of computer aided design.
2. Understand geometric transformation techniques in CAD.
3. Model engineering components using solid modeling techniques.
4. To learn at least one high end design software.
5. Design and analysis of Engineering components through FEM

Automobile Engineering (NME 702)

After completing the course student will be able to:

1. Explain the construction of an automobile, working and numerical analysis of transmission system.
2. Describe the principle and working of clutches, fluid flywheel, torque converter and steering system of vehicle.
3. Differentiate between braking system, suspension system and their types.
4. Identify different types of electrical systems of an automobile and describe the principle of fuel feed system such as carburettors, CRDI and MPFI.

Eigth Semester

NCER (NOE 081)

After completing the course student will be able to:

1. Understand about the need of non-conventional sources and their importance.
2. Know the global challenges of power crisis and their alternatives.
3. Analyze the power statistics of India and compare with other developed countries.
4. Understand the solar system and the various techniques to trap solar radiation.
5. Know about the different locations in India enriched with availability of various non-conventional resources

Advance Welding Technology (NME 055)

After completing the course student will be able to:

1. Explain the process of welding, physics of arc formation and select welding power sources.
2. Identify and explain different welding processes such as MMAW, TIG, MIG, Resistance, Friction welding and other non conventional welding processes.
3. Solve various problems on peak temperatures, width of HAZ, solidification rates, residual stresses measurement and weld distortion.
4. Analyze various repair and maintenance required in welding; understand weld ability of cast iron, aluminium and steel.

Plant Layout and Material Handling (NME 062)

After completing the course student will be able to:

1. Basic knowledge of Different types of Plant Layout their alternative arrangements, selection of plant location, Plant space utilization
2. Understanding of unit load, containers, conveyors, material handling design and strategies,and knowledge of material flow analysis
3. Understanding of various layout construction techniques,and algorithms, and knowledge of material handling principles
4. Basic knowledge of computerized layout and analytical methods, and differentwarehouse operations,AS/RS systems
5. Assessment and evaluation of different layout alternatives, cost estimation and the use of spiral software for plantlayout design

Power Plant (NME 801)

After completing the course student will be able to:

1. Understand about the need of non-conventional sources and their importance.
2. Know the global challenges of power crisis and their alternatives.
3. Analyze the power statistics of India and compare with other developed countries.
4. Understand the solar system and the various techniques to trap solar radiation.
5. Know about the different locations in India enriched with availability of various non-conventional resources
6. Understood about the different power plants run from inexhaustible sources of energy with their capacity in MW.