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SSIT Page 1
PREFACE Sri Siddhartha Institute of Technology (SSIT), Tumakuru, is one of the better
performing self financing Institutes, offering technical education in the state of Karnataka. The Institute was started in 1979 with an objective of 'Entrancing Education to reach the unreached'. Recognizing our potential to grow into a 'Centre of Excellence, World Bank has chosen our Institute under Technical Education Quality Improvement Programme (TEQIP). Financial assistance has been granted to the Institute for the advancement in academics, development of laboratories and other infrastructures required for carrying out research activities. In this direction the Institute has put-up solid foundation for education and research with highly qualified faculty with a vision to groom the leaders of tomorrow.
The Institute offers 09 undergraduate, 07 post graduate and MCA
programmes. The Institute has an annual intake of 790 students for undergraduate programme, 126 students for Post graduate and 60 students for MCA.
Considering our academic strength and infrastructure, Govt. of Karnataka,
through Visvesvaraya Technological University (VTU), has accorded us AUTONOMY.
Recognized as a better performing Autonomous institute, UGC conferred us the Deemed-to-be University Status in 2009. We are now a constituent college of Sri Siddhartha Academy of Higher Education (SSAHE), Tumakuru. Our university has been accredited by National Assessment and Accreditation Council (NAAC) with “A” grade.
Deemed University system provides flexibility to institutes to have their own
curriculum and syllabus. Taking this opportunity, the Institute has designed curriculum and syllabus in consultation with Industries and premier academic institutions to ensure that the young Engineers graduating from the Institute are industry ready.
The academic year is divided into two main semester (odd semester : August
to December, Even semester : January to May ) and a summer semester. The students are required to follow certain procedures and meet the academic requirements of each semester as stipulated from time to time by the Academic council.
Committees are formed at various levels for monitoring students’
performance. The Department Advisory Board (DAB) and Program Assessment Committee (PAC) examines the pace and the learning capabilities of the students based on their overall performance & academic record and counsels them.
SSIT, takes atmost care to ensure that students get the best and become
outstanding engineers.
This booklet gives comprehensive information on the suggested course work for the third year.
2018-19
Principal
SSIT Page 2
5/6 Industrial Engg. & Management
Theory Courses
Continuous \Internal Evaluation (CIE)
Component
Test 1
Midterm Exam
Test 2
Assignment / Practical Sessions
Surprise Test / Quiz / Seminar and submission
of Drawing sheets in case of CAED/CMD/
CAMD/ Electrical Machine Drawing
Total
Eligibility for writing SEE (40% of CIE)
Marks
10
20
10
5
5
50
20
Term End Examination
Semester End Exam (SEE)
Eligibility to pass SEE ( 40% + SEE)
Total marks consideration (CIE + 50% of SEE)
100 Marks
40 Marks
100 Marks
Practical Courses
Laboratory Reports
Test 1
Test 2
Continuous Internal Evaluation ( CIE)
Eligibility to Write SEE ( 40% of CIE )
Semester End Exam (SEE)
Eligibility to pass ( 40% of SEE )
Grand total (CIE+SEE)
30 Marks
10 Marks
10 Marks
50 Marks
20 Marks
50 Marks
20 Marks
100 Marks
SSIT Page 3
5/6 Industrial Engg. & Management
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY
TUMKUR
DEPARTMENT OF INDUSTRIAL ENGINEERING & MANAGEMENT
V SEM
SL NO CODE NAME OF THE SUBJECT L T P S C
1. IM5T01 ENGINEERING ECONOMICS 3 2 0 0 4
2. IM5T02 FACILITIES PLANNING AND DESING 3 0 0 0 3
3. IM5T03 STATISTICS FOR ENGINEERRS 3 2 0 0 4
4. IM5T04 CAD / CAM 3 0 0 0 3
5. IM5T05 DESIGN OF MACHINES ELEMENTS 3 2 0 0 4
6.
ME5OE61X
OPEN ELECTIVE - I
3 0 0 0 3
7. IM5L01 MECHANICAL LAB 0 0 3 0 1.5
8. IM5L02 COMPUTER AIDED MACHINING LAB 0 0 3 0 1.5
9 IM5IV01 INDUSTRIAL VISIT 0 0 0 1 1
TOTAL contact hour 18 6 6 1 25
OPEN ELECTIVE - I
ME5OE611
ME5OE612
MECHATRONICS & MICROPROCESSER
INDUSTRIAL DESIGN AND ERGONOMICS
SSIT Page 4
5/6 Industrial Engg. & Management
Syllabus for the Academic Year 2019 - 20
Department: IEM
Subject Name: ENGINEERING ECONOMICS
Subject Code: IM5T01/5th Semester/ L-T-P-C: 3-2-0-0-4
Course Objectives:
Course Outcomes
Question paper Pattern:
There are five units, two choice questions from each unit. The student has to answer 5 full questions selecting one from each choice.
UNIT Description Hours
I
1.Introduction: Engineering and Economics, Decision
Makers and Decision making, Problems solving, Intuition
and Analysis, Tactics and Strategy.
2.Interest and Interest Factors: Interest rate, simple
8Hrs
Sl.No Course Objectives
1 To prepare engineering students to analyze cost/revenue data
2
To carry out or make economic analyses in the decision making
process
3 To justify or reject alternatives/projects on an economic basis
Course
outcome
Outcomes
CO1
Students will be able to describe the role of Economics in the decision making process and perform calculations in regard to interest formulae
CO2
Students will be able to estimate the present, annual and fiture worth comparisons of cash flows
CO3
Students will be able to calculate the rate of return, depreciation charges and income taxes
CO4
Students will be able to explain the importance of finance functions, financial ratios, solve related problems and enumerate different cost entities in estimation and costing
SSIT Page 5
5/6 Industrial Engg. & Management
interest, Compound interest, Cash-flow diagrams,
Exercises and problems.
II
3.Present Worth Comparisons: Condition for present
worth comparisons, Basic present worth comparisons,
present worth equivalence, Net Present worth, Assets with
unequal lives, Infinite lives, Future worth comparisons,
Pay- back comparisons, Exercises, Discussions and
problems.
7Hrs
III
4.Equivalent Annual Worth Comparisons: Equivalent Annual Worth Comparison methods, Situations for Equivalent Annual Worth Comparison, Consideration of asset life, Comparison of asset with equal and unequal lives, Use of shrinking fund method, Annuity contract for guaranteed income, exercises, problems. 5.Rate of Return: Minimum acceptable rate of return, IRR, IRR misconceptions,
8Hrs
IV
6. Depreciation and Effect of Inflation: Causes of depreciation, basic methods of computing depreciation charges, Causes, consequences and control of inflation. After tax actual cash flow comparisons, Lease/Buy decisions. 7.Estimating and Costing: Components of costs such as Direct Material Cost, Direct Labor Cost, Fixed Over-Heads, Factory Cost, Administrative Over- Heads, First Cost, Marginal Cost, Selling price, Estimation for simple components.
8Hrs
V
8. Replacement Analysis: Introduction, reasons for
replacement, Individual Replacement of machinery or
equipment, Group Replacement Policies, Problems
9. Break Even Analysis: Basic concepts, Linear and Non-
linear break even analysis.
8Hrs
Text Books:
Sl
No
Text Book title Author/Volume and Year of Edition
1
Engineering Economy Riggs J.L, , McGraw Hill, 2002
2
Engineering Economy THUESEN H.G,PHI,2002
Reference Book:
Sl Text Book title Author/Volume and Year of Edition
SSIT Page 6
5/6 Industrial Engg. & Management
No
1
Engineering Economy
Tarachand,
2
industrial engineering and management O.P Khanna, Dhanpat rai & sons
Syllabus for the Academic Year 2019 - 20
Department: IEM
Subject Name: FACILITY PLANNING AND DESIGN
Subject Code: IM5T02/5th Semester/ L-T-P-C: 3-0-0-3
Course Objectives:
Course Outcomes
Question paper Pattern:
There are five units, two choice questions from each unit. The student has to answer 5 full questions selecting one from each choice.
Sl.No Course Objectives
1
Exploring the basic concepts & fundamentals of facilities planning
and design.
2 Exposing the different types of facilities.
Exploring the different types of Planning and design.
3
Exploring the analysis and presentation of facilities planning and
design
Course
outcome
Outcomes
CO1
Students will be ready to apply the knowledge in different facilities planning and design.
CO2
Analyze various facilities planning and can prepare relevant facilities planning to meet the demands.
CO3
Students will be able to understand the implementation of facilities planning and design.
CO4
Students will Recognize problems, identify possible causes and solutions for facilty design
SSIT Page 7
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UNIT Description Hours
I
1. Plant location: Factors influencing plant location,
Theories of plant location and location economics. Plant
layout-Objectives of plant layout, Principles of plant
layout, types of plant layout, their merits and demerits,
2. Facilities design function: Objectives, Types of Layout
Problems, construction materials, floor covering, partition,
ventilation, air conditioning and lighting projection.
3. Plant Design: Layout procedures: Immer, Nadler,
Muther, Apple James and Reed's approaches.
10Hrs
II
4. Designing material flow: Factors for consideration in
planning material flow, conventional techniques for
analyzing material flow assembly chart, operation process
chart, multiproduct process chart, string diagram, flow
diagram, travel chart, critical path method.
5. Production and physical plant services: Receiving,
storage, storage planning, warehousing, shipping tool
room and tool crib, production supervision office, handling
equipment storage.
7Hrs
III
6.Quantitative techniques for analyzing material flow: Linear programming, assignment problem, transportation problem, traveling salesman problem, queuing theory, level curve technique, simulation.
7Hrs
IV
7. Space determination and area allocation :Factors for consideration in space planning, offices, receiving storage, production, shipping, other auxiliary service actions, establishing total space requirement, area allocation factors to be considered, expansion, flexibility, aisles, column, area allocation procedure, the plot plan.
7Hrs
V
8. Material handling: Objectives and principles of MH, Unit
load concept, classification of MH equipment basic
handling systems, different types of material handling
equipment.
9. Constructing the layout: Methods and constructing the
layout evaluating layout, efficiency indices, presenting
layout to management, implementing layout,
Computerized Layout Planning.
8Hrs
SSIT Page 8
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Text Books:
Sl
No
Text Book title Author/Volume and Year of Edition
1
Plant layout and material handling
James M Apple - John Wiely India Pvt
Ltd - 2nd Edition.
2
Facility Layout and location
Francies R.L and White J A - Mc Graw
Hill -2nd Edition.
Reference Book:
Sl
No Text Book title Author/Volume and Year of Edition
1 Facilities Design Sunderesh Heragu - PWS Publishing
Company- ISBN-534-95183
2 Plant Layout Design James M Moore - Mac Millon Co.
-1962 LCCCN61- 5204
Syllabus for the Academic Year 2019 - 20
Department: IEM
Subject Name: STATISTICS FOR ENGINEERS
Subject Code: IM5T03/5th Semester/ L-T-P-C: 3-0-0-0-3
Course Objectives:
Course Outcomes
Sl.No Course Objectives
1
To understand the data collection, representation and display
techniques
2
To understand graphical and numerical summary of data and
their importance
3
To learn discrete and continuous random variables,
probability distribution, measure of centre tendency and measure
of dispersion
SSIT Page 9
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Question paper Pattern:
There are five units, two choice questions from each unit. The student has to answer 5 full questions selecting one from each choice.
UNIT Description Hours
I
1. The Role of Statistics in Engineering (Data
Summary and Presentation): Statistical Thinking,
Collecting data, Statistical Modeling Frame work,
Designing experimental investigation, Importance of Data
summary and Display, Tabular and Graphical display:
Stem and Leaf Diagram, Frequency Distribution and
Histograms, Box plots and Time sequence plots.
2. Concepts of Probability: Sample spaces and
events, Interpretation of probability, Addition rules,
conditional probability, multiplication and total probability
rules, independence, Baye's theorem, Random variables.
8Hrs
II
3. Discrete Random Variables and Probability
Distribution: Discrete Random Variables, Probability
Distributions and Probability mass functions, Cumulative
Distribution functions, Mean and Variance of a Discrete
Random ,
Discrete Uniform distribution, Binomial distribution, Hyper
Geometric distribution, Poisson distribution and their
applications
8Hrs
III
Joint Probability Distributions: Two discrete random variables, Two continuous random variables, Covariance and Correlation, Estimation Theory: Statistical Inference, Random
9Hrs
Course outcome Outcomes
CO1
Collect, represent, display and analyse the data using statistical Techniques
CO2
Able to graphically and numerically summarise the data and analyse their importance
CO3
Able to indentify and apply discrete and continuous random variables, probability distribution, measure of centre tendency and measure of dispersion.
SSIT Page 10
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Sampling, Properties of Estimators, Method of Maximum of Likelihood, Sampling distribution, Sampling distribution of means, Introduction to confidence intervals.
IV
Statistical Inference for a Single sample: Hypothesis testing, inference on the mean of a populations (variance known and unknown), Inference on the variance of a normal population, Testing for Goodness of Fit, Contingency Table tests, Numerical problems
8Hrs
V
Statistical Inference for a Single sample: Hypothesis
testing, inference on the mean of a populations (variance
known and unknown), Inference on the variance of a
normal population, Testing for Goodness of Fit,
Contingency Table tests, Numerical problems
6Hrs
Text Books:
Sl
No
Text Book title Author/Volume and Year of Edition
1
Applied statistics and probability for engineers
Douglas C Montgomery. George C
Runger, 2nd Edn, John Wiley and
Sons,ISBN-0-471-17027-5
2
Statistics for management Richard I Levin, David S Rubin, 6th
Edn, Prentice hall India, ISBN-81-
203-0893-X
Reference Books:
Sl
No
Text Book title Author/Volume and Year of Edition
1
Probability and Statistics in Engineering, William W Hines, Douglas C
Montgomery, 2nd Edn, John Wiley
and sons.
2
Business Statistics for management and Economics,
Daniel, Terrell, 6th Edn, Houghton
Mifflin Company, ISBN-0-395-
62835-0
SSIT Page 11
5/6 Industrial Engg. & Management
Syllabus for the Academic Year 2019 - 20
Department: IEM
Subject Name: CAD/CAM
Subject Code: IM5T04/5th Semester/ L-T-P-C: 3-0-0-0-3
Course Objectives:
Course Outcomes
Question paper Pattern:
There are five units, two choice questions from each unit. The student has to answer 5 full questions selecting one from each choice.
UNIT Description Hours
I 1.Introduction: Role of computers in design and
manufacturing. Influence of computers in manufacturing
8Hrs
Sl.No Course Objectives
1
To sensitize the students with the basics of computer integrated
manufacturing systems
2
To gain insight into the various softwares used for modeling and
manufacturing simulation.
Course
outcome
Outcomes
CO1
Knowledge of various levels of the automation that can be implemented in different departments of medium and high volume production industry for better quality products at lower price.
CO2
Impart knowledge of the software used in all the stages of product manufacturing in an industry
CO3
Students will explain the fundamental and advance features of CNC Machines
CO4
Ability to use a robot for particular application in an industry
SSIT Page 12
5/6 Industrial Engg. & Management
environment product cycle in conventional and
computerized manufacturing environment. Introduction to
CAD and CAM, Advantages and disadvantages of CAD
and CAM
2.Hardware of CAD: Basic hardware structure, working
principles, usage and types of hardware for CAD-input
devices, output devices, memory, CPU, hardcopy and
storage devices.
II
3.Computer graphics: software configuration of a graphic
system, function of graphics package, construction of
geometry, wire frame and solid modeling, CAD/CAM
integration. Desirable modeling facilities, introduction to
exchange of modeling data, basic features of IGES, STEP,
DXF, DIMS
4.Introduction to finite element analysis:
Introduction, basic concepts, descretization, element
types, nodes and degrees of freedom mesh generation,
constraints, loads, preprocessing application to static
8Hrs
III
5.NC, CNC, DNC Technologies: NC, CNC, DNC, modes, NC elements, advantages and limitations of NC, CNC fundamental DNC. 6.CNC Tooling: turning tool geometry, milling tooling system, tool presetting, ATC holding. 7.CNC Machine Tools: overview of different CNC machining centers CNC turning centers, high speed machine tools, MCU
9Hrs
IV
8.CNC Programming: part program fundamentals-steps involved in development of a part program. Computer assisted part programming for milling, turning 9. Computer aided Process Planning: Planning functions, Approaches, benefits of CAPP, Machinability Data Systems
8Hrs
V
10.Introduction to Robotics: introduction, robot
configuration, robot motion, programming of robots, end
effectors work cell, control and interlock, robot sensor,
robot applications w r t industries.
6Hrs
Text Books:
Sl
No
Text Book title Author/Volume and Year of Edition
1
CAD\CAM M.P.Groover, Tata McGraw hill.
SSIT Page 13
5/6 Industrial Engg. & Management
2
CAD\CAM principles and application
by P.N.Rao TATA McGraw hill.
Reference Book:
Sl
No
Text Book title Author/Volume and Year of Edition
1
Introduction to the design an dialysis of Algorithms S.E. Goodman, S.T Headetmiemi, McGraw
Hill Book Company- 1988
2
Principles of Interactive Computer Graphics Newman and Sproull, Tata McGraw
Hill, 1955.
3
NC Machine Programming and Software Design Chno-Hwachang, Michel.A.Melanoff,
Prentice Hall, 1989.
Syllabus for the Academic Year 2019 - 20
Department: IEM
Subject Name: DESIGN OF MACHIME ELEMENTS
Subject Code: IM5T05/5th Semester/ L-T-P-C: 3-2-0-0-4
Course Objectives:
Course Outcomes
Sl.No Course Objectives
1
To develop an ability to apply knowledge of mathematics, science
and engineering in the design of machine design
2
To develop an ability to design a system and components to meet
desired needs within realistic constraints.
3 To develop an ability to identify, formulate and solve engineering
problems.
4
To develop an ability to use the techniques, skills and
modern engineering tools in design.
Course
outcome
Outcomes
SSIT Page 14
5/6 Industrial Engg. & Management
Question paper Pattern:
There are five units, two choice questions from each unit. The student has to answer 5 full questions selecting one from each choice.
UNIT Description Hours
I
1. Design for Static Strength: Design considerations;
Codes and Standards, static loads and factor of safety.
Theories of failure: Maximum Normal Stress Theory,
Maximum Shear Stress Theory, Distortion energy theory.
Failure of Brittle and Ductile materials. Stress
concentration. Determination of stress concentration
factor.
8Hrs
II
2. Design for Fatigue Strength: S-N Diagram, low cycle
and High cycle fatigue. Endurance limit. Modifying factors:
Load, Size and Surface finish effects. Fatigue stress
concentration factor. Repeated, Reverse, Alternate and
Fluctuating stresses. Goodman and Soderberg
Relationship and combined problems.
8 Hrs
III
3. Design of Shafts: Design of shafts subjected to torsion,
bending moment and combined torsion moment and axial
loading. ASME and BIS Codes for design of transmission
shafting. Design for strength and rigidity. Shafts under
fluctuating loads and combined loads.
8Hrs
IV
4. Riveted Joints and Welded Joints: Types of riveted joints, failures of riveted joints, Boiler joint, Efficiency. Types of welded joints, Strength of butt and fillet welds. Eccentrically loaded welds.
7Hrs
V 7. Lubrication and Bearings: Mechanism of lubrication,
Viscosity, Classifications of bearings, Bearing Modulus,
8Hrs
CO1
Students are able define and demonstrate the knowledge on basic machine elements used in machine design and design machine elements to withstand the loads and deformations for a given application (L1,L2)
CO2
Students are able to analyze the stress and strain on mechanical components and understand, identify and quantify failure modes for mechanical parts (L4).
CO3
Students are able to solve a design problem successfully by taking the decisions when there is not a unique answer(L3)
CO4
Students are able to apply the empirical relations to design the machine elements (L3).
SSIT Page 15
5/6 Industrial Engg. & Management
Coefficient of friction, minimum oil film thickness. Heat
generated and Heat dissipated. Examples of journal
bearing.
8. Ball and Roller Bearings: Types of ball and roller
bearings, Bearing life, Equivalent bearing load, loading
ratio, dynamic capacity Selection of Deep groove ball
bearings.
Text Books:
Sl
No
Text Book title Author/Volume and Year of Edition
1
Mechanical Engineering Design
Edward Shigley Tata McGraw Hill,
New Delhi - 1986.
2
Machine Design VL. Maleev and Hartman CBS
Publishers and Distributors, Delhi -
1983.
3
Design of Machine Elements V. B. Bahandari Tata McGraw Hill,
New Delhi - 2000.
Reference Book:
Sl
No
Text Book title Author/Volume and Year of Edition
1
Machine Design
Robert. L. Norton Pearson
Education Asia, New Delhi - 2001.
2
Theory and Problems of Machine Design Hall, Holowinko, Laughlin Schaums -
Outline Series -
3
Elements of Machine Design
N. C. Pandey and C. S. Shah
Chorotar ,Publishing house 2002
Syllabus for the Academic Year 2019 - 20
Department: IEM
Subject Name: MECHATRONICS & MICROPROCESSOR
Subject Code: IM5T01E611/5th Semester/ L-T-P-C: 3-0-0-0-3
SSIT Page 16
5/6 Industrial Engg. & Management
Course Objectives:
Course Outcomes
Sl.No Course Objectives
1
Learn about basics of mechatronic systems including transducers
and sensors. Learn about signal conditioning.
2 Learn about electrical Pneumatic, Hydraulic, Mechanical &
Electrical actuation systems.
3
Learn about basic mathematical system for mechanical fluid and
thermal system.
Learn about binary number system, logic gates and
8051 microcontroller
Course
outcome
Outcomes
CO1
To understand the concept of Mechatronics & principles of Transducers and sensors in mechatronics systems. To understand the principles of signal conditioning.
CO2
To understand the basics of pneumatic & hydraulic, mechanical and electrical actuation system. To build the mathematical equations for mechanical, fluid and hydraulic system.
CO3
To understand the number system, solve logic gates and 8051 microcontroller Architecture.
SSIT Page 17
5/6 Industrial Engg. & Management
Question paper Pattern:
There are five units, two choice questions from each unit. The student has to answer 5 full questions selecting one from each choice.
UNIT Description Hours
I
Mechatronic Systems:-Measurement and control systems.
Their elements and functions, Microprocessor based
controllers.
Transducers and Sensors:-Definition and classification of
transducers. Definition and classification of sensors.
Principle of working and applications of light sensors,
proximity sensors and hall effect sensors.
8Hrs
II
Signal Conditioning:-Introduction to signal conditioning.
The operational amplifier, Protection, Filtering,
Wheatstone bridge, Digital signals Multiplexers, Data
acquisition.
7Hrs
III
Pneumatic & Hydraulic Actuation System:-Direction control valves, Pressure control valves and Process control valves. Mechanical Actuation System:- Cams, Ratchet and pawl, belt and chain drives, Gears and Gear Trains.
8Hrs
IV
Electrical Actuation Systems:-Electrical systems, Mechanical switches, solid-state switches, solenoids, DC & AC motors, Stepper motors Basic System Models:- Mathematical systems, mechanical system building blocks, Fluid system building blocks, Thermal system building blocks.
8Hrs
V
Digital Logic:-Number system, Logic Gates, AND gate, OR
gate, NOT gate, NAND gate, NOR gate, De Morgans Law.
Microprocessor & Microcontrollers: Microprocessor,
Microcontroller, Z80 & 8051 comparison, Pin
configuration, Architecture, microcontroller survey 4bit,
8bit, 16bit & 32 bit. 8051 architecture.
8Hrs
SSIT Page 18
5/6 Industrial Engg. & Management
Text Books:
Sl
No
Text Book title Author/Volume and Year of Edition
1
Mechatronics W.Bolton, Longman,
2Ed, Pearson Publications,2007
2
The 8051 microcontroller, Architecture, Programing and Applications
Kenneth J Ayala, West Publishing
Company, 1991, ISBN: 0-314-
77278-1/2
Reference Books:
Sl
No
Text Book title Author/Volume and Year of Edition
1
Mechatronics Principles, Concepts & applications Nitaigour & Premchand, McGraw Hill
2003.
2
Introduction Mechatronics & Measurement systems
David.G. Aliciatore & amp;
Michael.B.Bihistaned, Tata McGraw
Hill, 2000.
Syllabus for the Academic Year 2019 - 20
Department: IEM
Subject Name: INDUSTRIAL DESIGN AND ERGONOMICS
Subject Code: ME50E612/5th Semester/L-T-P-C: 3-0-0-0-3
Course Objectives:
Course Outcomes
Sl.No Course Objectives
1 To understand the methods and procedures of designing the
industrial products
2
To design the man machine systems ergonomically.
To eliminate unnecessary work for effective utilization of men &
machines
3
To study the most effective procedures of Industrial Design in practice
SSIT Page 19
5/6 Industrial Engg. & Management
Question paper Pattern:
There are five units, two choice questions from each unit. The student has to answer 5 full questions selecting one from each choice.
UNIT Description Hours
I
1. Introduction: An approach to industrial design -
elements of design structure for industrial design in
engineering application in modern manufacturing
systems.
2. Ergonomics and Industrial Design: Introduction -
general approach to the man- machine relationships,
workstation design, working position.
8Hrs
II
3.Control and Displays: Shapes and sizes of various
controls and displays, multiple displays and control
situations, design of major controls in automobiles,
machine tools etc.,
4.Applied Anthropometry and Work Space:
Anthropometry, Use of anthropometric data, work space
and its design, science of seating, work place design,
8Hrs
III 5.Visual Effects of Line and Form: The mechanics of seeing- psychology of seeing, general influences of line and form, elements of visual design,
7Hrs
IV
6.Colour: Colour and light, colour and objects, colour and the eye, colour consistency, colour terms, reactions to colour and colour continuation, colour on engineering equipments.
7Hrs
Course
outcome
Outcomes
CO1
Learn the concept of industrial design and the ergonomics. Design the various controls and displays by knowing the anthropometric data's.
CO2
To learn the psychology of visuals effects. Learning the different colour combinations for optimal design of engineering equipments.
CO3
Realize the importance of environmental factors aesthetics in industrial design.
CO4
Learn the concept of aesthetics in industrial design.
SSIT Page 20
5/6 Industrial Engg. & Management
V
7. Aesthetic Concepts: Concept of unity-concept of order
with variety, concept of purpose style and
environment, Aesthetic expressions. Style components
of style- house style, style in capital goods.
8.Industrial Design in Practice: General design -specifying
design equipments, rating the importance of industrial
design, industrial design in the design process, working
with specialists, ways of using industrial engineers.
9Hrs
Text Books:
Sl
No
Text Book title Author/Volume and Year of Edition
1
Industrial Design for Engineers
Mayall W.H. - London Hiffee books
Ltd. -1988
2
Human Factors in Engineering design
Sanders & McCormick
McGraw Hill Publications 6th Edition,
2012
Reference Books:
Sl
No
Text Book title Author/Volume and Year of Edition
1
Applied Ergonomics Hand Book Brain Shakel (Edited) - Butterworth
scientific. London - 1988.
2
“Work study and ergonomics” S.Dalela and Sourabh- standard
book house.
SSIT Page 21
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Syllabus for the Academic Year 2019 - 20
Department: IEM
Subject Name: MECHANICAL LAB
Subject Code: IM5L01/5th Semester/ L-T-P-C: 0-0-3-0-1.5
Part A 1. Determination of flash and fire point of lubricating oil using Abel
Pensky and Pensky Martens Apparatus.
2. Determination of Calorific value of liquid, gaseous and solid fuels
3. Determination of viscosity of oil using red wood, Saybolt and torsion viscometers
4. Valve timing/Port opening diagram for I.C. Engine (4 Stroke/ 2 Stroke)
5. Use of Planimeter
Part B 1. Performance test on IC Engines, Calculations of IP, BP,
Thermal efficiencies, SFC, and FP for-
Four stroke diesel engine
Four stroke petrol engine
Two stroke petrol engine 2. Acceptance tests on a lathe.
3. Acceptance tests on a milling machine
4. Determination of cutting forces using Milling, Drilling & Lathe tool Dynamometers
5. Measurement of cutting tool temperature
6. Determination of chip-reduction co-efficient during metal cutting on a lathe
Scheme of Examination:
One Question from Part A : 15 arks One Question from Part B : 25 Marks Viva Voce : 10 Marks
SSIT Page 22
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Syllabus for the Academic Year 2019 - 20
Department: IEM
Subject Name: COMPUTER AIDED MACHINING LAB
Subject Code: IM5L02/5th Semester/ L-T-P-C: 0-0-3-0-1.5
Part - A Writing and execution of manual part programming using ISO codes for machining of simple parts- turning, taper turning, form turning and thread cutting. Use of radius compensation, canned cycles, macros and etc.
Part- B 1. CNC milling- Writing and execution of part program for contour
milling and etc.
2. Simulation of Cutting / Milling operations on a computer using CAM packages
Note: Minimum 10 part programs from
each part. Scheme of Examination: One Question from Part A : 20 Marks One Question from Part B : 20 Marks Viva Voce : 10 Marks
Syllabus for the Academic Year 2019 - 20
Department: IEM
Subject Name: INDUSTRIAL VISIT
Subject Code: IM5IV01/5th Semester/ L-T-P-C: 0-0-0-1-1
The students has to visit power generation plant to understand the
working of power generation with respect to Hydel / Thermal / Nuclear
power plant and any two of the following industries.
SSIT Page 23
5/6 Industrial Engg. & Management
Process industry,
Engineering industry
Manufacturing industry
Assessment on the basis of comprehensive report
submission.