First Year: Semester I

First Year: Semester II

Second Year: Semester I

Second Year: Semester II

Third Year: Semester I

Third Year: Semester II

Fourth Year: Semester I

Fourth Year: Semester II

NOTE: All Sessional courses, Industrial Training and semester final viva offered are compulsory to obtain the degree.

Basic concepts of Mechanics: Statics of particles and rigid bodies. Centroids of lines areas and volumes; Forces in truss, frames and cables; Friction; Moment of inertia of areas and masses; Relative motion. Kinetics of particles: Newton's second law of motion, Principles of work, energy, impulse, and momentum; System of particles: Kinematics of rigid bodies; Kinetics of plane motion of rigid bodies, forces, and acceleration; Principles of work and energy.

IPE 102 ENGINEERING DRAWING (for CEP)

Introduction, Instruments and their uses, First angle and third angle projections, Orthographic drawing, Sectional views. Isometric views, Missing lines and views.

Introduction to workshop tools. Study and operation of an Engine Lathe. Study and operation of Milling Machine. Study and operation of Radial Drilling Machine, Study and operation of Surface Grinding machine. Preparation of a hexagonal nut.

Introduction, Instruments and their uses, First angle and Third angle projections, Orthographic drawing, Sectional views, Isometric views.

Introduction to workshop tools. Study and operation of an Engine Lathe. Study and operation of Milling Machine. Study and operation of Radial Drilling Machine, Study and operation of Surface Grinding machine. Preparation of a hexagonal nut.

Classification of manufacturing processes, Casting: casting processes for ferrous and non ferrous metals, sand, die, centrifugal, slush, plaster mould, loam mould, precision investment casting etc., casting defects, design of moulds, riser, runner, gate spur and core, cost analysis. Joining Methods: soldering, brazing, welding, conventional welding processes, Gas, Arc, TIG, MIG, Termite, resistance, Friction, Electro slag etc. Special welding processes: LASER, Electron Beam, Submerged Arc welding etc., Precision and non-precision surface finishing operation. Hot and cold working processes: Hot and cold extrusion, press-working operations etc. rolling, cold drawing, deep drawing, forging, shearing, bending and press work.

Study and operation of hand tools that are used in the machine shop.Study of drilling process and different drilling machines.Study of an engine lathe and its accessories.Study of bench grinding and various types of grinding stones.Preparation of a hexagonal nut using taps and dies, and hand tools.

Introduction; Instruments and their uses; First and third angle projection; Orthographic drawing; Sectional views and conventional practices; Auxiliary views; Isometric views; Missing lines and views.

Introduction to Industrial Engineering, Its history, scope and application. Introduction to Production Engineering, Its history, scope and application.

The viva voce will be conducted on the basis of courses covered in the first year.

Basic concepts of Mechanics: Statics of particles and rigid bodies. Centroids of lines areas and volumes; Forces in truss, frames and cables; Friction; Moment of inertia of areas and masses; Relative motion. Kinetics of particles: Newton's second law of motion, Principles of work, energy, impulse, and momentum; System of particles: Kinematics of rigid bodies; Kinetics of plane motion of rigid bodies, forces, and acceleration; Principles of work and energy.

The sessional works will be compatible to Course No: IPE 111

Basic Terminology: Systems, Control volume, Processes etc., Properties of pure substances; First Law and Second law for system, First and Second Law for Control volume; Power cycles: Vapor power cycle; Psychrometry and its industrial applications. Study of Petrol & Diesel engines: Mechanical and Thermodynamic cycles, fuel systems, lubrication systems, cooling systems and performance measurements. Steam generating units: Different types, accessories, mountings, performance measurements. Steam turbines: Study of. Different types, Performance Study.

Study of various machining processes (turning, drilling, chamfering, knurling, thread cutting and parting) using engine lathe. Study and operation of turret lathe (including coolant & lubricating system). Study and operation of shaper machine and quick return motion mechanism (preparation of a V-block). Study and operation of radial machine and manufacturing an oil hole. Study and operation of a milling machine and different milling cutters.

IPE 201Z ENGINEERING DRAWING (for PGE)

Introduction, Instruments and their uses, First angle and third angle projections, Orthographic drawing, Sectional views. Isometric views, Missing lines and views

Introduction to workshop tools. Study and operation of an Engine Lathe. Study and operation of Milling Machine. Study and operation of Radial Drilling Machine, Study and operation of Surface Grinding machine. Preparation of a hexagonal nut.

Industrial and Production Engineering: Concept and importance, Input- output model (Design, Fabrication, Finish Control, Marketing, Customer satisfaction), Production processes, Plant Location and Layout, Material Management, Industrial safety and safety rule. Maintenance: Objectives and different types. Production process: Chip forming and chipless forming processes Conventional Machines and machining processes: Lathe, Drill, Shaper, Milling, Grinding;

Introduction to workshop tools. Study and operation of an Engine Lathe. Study and operation of Milling Machine. Study and operation of Radial Drilling Machine, Study and operation of Surface Grinding machine. Preparation of a hexagonal nut.

Introduction to workshop tools. Study and operation of an Engine Lathe. Study and operation of Milling Machine. Study and operation of Radial Drilling Machine, Study and operation of Surface Grinding machine. Preparation of a hexagonal nut.

Study of various machining processes (turning, drilling, chamfering, knurling, thread cutting and parting) using engine lathe. Study and operation of turret lathe (including coolant & lubricating system). Study and operation of shaper machine and quick return motion mechanism (preparation of a V-block). Study and operation of radial machine and manufacturing an oil hole. Study and operation of a milling machine and different milling cutters.

Study of various machining processes (turning, drilling, chamfering, knurling, thread cutting and parting) using engine lathe. Study and operation of turret lathe (including coolant & lubricating system). Study and operation of shaper machine and quick return motion mechanism (preparation of a V-block). Study and operation of radial machine and manufacturing an oil hole. Study and operation of a milling machine and different milling cutters.

Basic concepts of Mechanics: Statics of particles and rigid bodies. Centroids of lines, areas and volumes; Forces in truss, frames and cables. Friction; Moment of inertia of areas and masses. Kinetics of particles: Newton's second law of motion; Principles of work, energy. System of particles: Kinematics of rigid bodies, forces, and acceleration, Principles of work and energy.

Stress Analysis: Statically intermediate axially loaded member, Axially loaded member, thermal and centrifugal stresses, Stresses in thin and thick walled cylinders and spheres. Beams: shear force and bending moment diagrams. Various types of stresses in beam, Flexure formula, Deflection of beams: integration and area moment methods, Introduction to reinforced concrete beams and slabs, Riveted and welded joints. Torsional formula: Angle of twist, Modulus of rapture, Helical springs, Combined Stresses; principal stress, Mohr's circle. Columns: Euler's formula, intermediate column formulas, the secant formula, Flexure of curved beams; Thick walled cylinders. Introduction to experimental stress analysis techniques. Strain energy; Failure theories.

Stress Analysis: Statically intermediate axially loaded member, Axially loaded member, thermal and centrifugal stresses, Stresses in thin and thick walled cylinders and spheres. Beams: shear force and bending moment diagrams. Various types of stresses in beam, Flexure formula, Deflection of beams: integration and area moment methods, Introduction to reinforced concrete beams and slabs; Riveted and welded Joints. Torsional formula: Angle of twist, Modules of rapture, Helical springs, Columns: Euler's formula, intermediate column formula, the secant formula; Thick walled cylinders. Introduction to experimental stress analysis techniques; strain energy, Failure theories.

Metallic Materials: Concept of malleability, ductility, toughness, fatigue resistance and other properties, mechanical and non destructive tests of metals. Pig iron: production and uses. Cast iron: production, types, uses and effects of impurities. Steels: Bessemer and open hearth steel production and uses; Plain carbon and different types of alloy steels. Bearing metals, light alloys, common metals and their alloys. The Fe-C equilibrium diagram. Different types of Heat treatment processes (annealing, normalizing quenching etc). Case hardening, carburizing and intruding and induction hardening. Inspection of metals. Powder Metallurgy. Composite Materials.

1.5 Hrs/week. 0.75 credit

This sessional course is compatible to Course No. IPE 211.

Stress Analysis: Statically intermediate axially loaded member, Axially loaded member, thermal and centrifugal stresses, Stresses in thin and thick walled cylinders and spheres. Beams: shear force and bending moment diagrams. Various types of stresses in beam, Flexure formula, Deflection of beams: integration and area moment methods, Introduction to reinforced concrete beams and slabs; Riveted and welded Joints. Torsional formula: Angle of twist, Modules of rapture, Helical springs, Combined stresses, principal stress, Mohr's circle. Columns: Euler's formula, intermediate column formula, the secant formula; Flexure of curved beams; Thick walled cylinders. Introduction to experimental stress analysis techniques; strain energy, Failure theories.

Introduction to Computer Aided Design and Drafting, Introducing the AutoCAD2002 window, Planning and laying out a drawing, Drawing simple 2D objects, Creating Blocks, Organizing information with layers, Adding Text to Drawing, Using Dimensions, Storing and linking data with graphics, Getting and exchanging data from drawing, Printing and Plotting.

Set: Sets and their properties, Probability: Sample space event, probability of events, theorem of total and compound probability, conditional probability. Probability Distribution: Discrete, conditional and joint. Mathematical Expectation. Mean, Variance and covariance, properties of mean and variance. Discrete Probability distribution: Binomial and Multinomial, Negative Binomial, Poisson. Continuous Distribution: Normal with applications, Gamma, Exponential and Chi square, Weibull. Functions of Random variables: variables transformation, Moments and moment generating functions,, Random sampling, Sampling distribution. Regression and curve fitting: Linear and nonlinear regression, method of least squares, curve fitting. Correlation theory: Linear correlation, measures of correlation and its significance. Estimation Theory: Inference, methods of estimation estimating the mean Tolerance limits, Estimating the variance, Test of hypothesis: Definition of statistical Hypothesis, Type I and Type II error, Goodness of fit test, Test for independence.

Review of orthographic projections: Fasteners, gears, keys and springs, Sectional views and conventional practices. Auxiliary views, Detail drawing with bill of materials and assembly drawing.

The venue of the tour will be selected by the IPE Dept.

Mechanisms: Displacement, Velocity and Acceleration; Turning moment. Inertia and kinematics energy of reciprocating and rotating parts; Multi-cylinder in-line engines, Balancing machines. Study of Cams and cam followers. Power transmission by belts ropes and chains, Clutches and brakes; Study of gears and gear trains. Study of governors. Vibration: Undamped free vibrations with one and two degrees of freedom; Longitudinal, Transverse and Torsional vibrations, Damped free and forced vibrations with single degrees of freedom; Vibrations of geared systems.

Introduction to Computer Aided Engineering, 3D Modeling, Rendering, Printing and Plotting, Animation using 3D Studio Max.

Fluid properties; Fluid statics; Manometry; Force on submersed planes and curved surfaces; Buoyancy and floatation; One-dimensional flow of fluid: Equation of continuity; Energy equation, Impulse Momentum equation. Pipe flow. Bernoulli equation, Frictional losses in pipes and fittings (Moody diagram), Pipe Network, Dimensional analysis and Similitude.

Types of fluid machinery, Impulse and Reaction turbine: Centrifugal pumps, Radial and Axial flow pumps. Reciprocating pumps; Cavitation, Compressors.

The sessional works will be compatible to Course No. IPE 223.

Metal removing process: Chip formation and tool geometry; chip breakers. Theory of metal cutting: Cutting forces; Metal cutting dynamometers, Economics of metal cutting, Tool life, Different machining processes: Planning, Milling, Reaming, Boring, Broaching, etc. Manufacturing of threads and gears, Non-traditional machining process: Electro-discharge, electrochemical, LASER beam, electron beam, and abrasive jet machining. Plastics: Plastic products manufacturing processes: extrusion, injection molding, compression molding, blow molding, vacuum forming and hand lay-up.

The sessional works will be compatible to Course No: IPE - 213.

Introduction to engineering economy: Present Economy, The role of engineers in business and corporation. Engineering economic decisions: types of engineering economic decisions, material and process selection, equipment replacement, new product and product expansion, cost reduction, service improvement; Time value of money, present worth analysis, cash flow analysis and depreciation. Investment: Measuring the worth of investment, evaluation of multiple investment alternatives, probability concepts for inflation, sensitivity and risk analysis. Application of Engineering Economy: Aspects of Economy studies for governmental activities. Aspects of economy for Regulated Business, Case study.

Modes of heat transfer: Conduction: general conduction equation, thermal conductivity’s of solids, liquids and gases; Steady state conduction in composite structures, System with heat sources, heat transfer from finned surfaces, Transient heat conduction; Convection: convection heat transfer, forced convection, laminar and turbulent flow over flat plates and in pipes. Hydrodynamic and thermal boundary layer, free convection; Radiation: Radiation heat transfer; laws of radiation. Radiation from black body and real body. Net radiation exchanges between two surfaces, shape factor. Heat Exchanger: Heat exchange calculations, fouling.

The viva voce will be conducted on the basis of courses covered in the second year.

Industrial management: Defination, functions, managerial skills, levels of management, organization (formal and informal) Human Resource Management: Introduction, Renumeration programme, wage and incentive plans, motivation, job evaluation and enrichment Marketing Management: Introduction, marketing environment, consumer-buying behavior, marketing mix, market segmentation, positioning and targeting, product and product life cycle, advertising. Material Management: introduction, overview of material flow, Management of independent demand: the concept of inventory and its management (EOQ, P system and Q system). Project Management.

IPE 306A WORKSHOP PRACTICE, (for Arch. )

Introduction to hand tools, Study and opereation of different welding equipment and process, wood working and fittings, Sheet metal working.

Review of Baisc concepts and definations, Application of Air-conditiong, psychometry, cooling load calculation. Air conditioning system, air handling and distribution, Design of ducts, Air conditioning equipments. Fir hazards, Fire fighting methods. Vertical transportation; Types of elevators, Determination of size and quality of elevators, determination of size and quality of elevators, Incoming and outgoing traffic handling. Escalators and moving ramps.

Roots of polynomials and transcendental equations. Accuracy and errors, Determinants and matrices; Eigen values and Eigen vectors. Solution of linear and non-linear algebraic equations; Interpolation and curve fitting Interpolating Polynomials; Method of least squares, Curve fitting, Linear and nonlinear regression. Correlation theory: Linear correlation, measures of correlation and its significance. Numerical differentiation and integration. Solving equation by finite differences, Boundary value problem.

The sessional works will be compatible to course no IPE 311.

Basic concepts of product design and development: Characteristics, business needs, designing process, Product life cycle. Concept generation in product development, Customer needs and demands, Concept generation and selection, Product and estimation, QFD, Product Architecture: Attributes and Satisfactions, Design for Manufacturing (DFM), Design for assembly and disassembly, Rapid Prototyping, Development Process: Concurrent Engineering, Sequential Engineering. Involvement of ISO-9000 and ISO -14000 in product development.

The Sessional works will be compatible to course no IPE 313.

Ergonomics: Introduction to Ergonomics, Characteristic features of man-machine system, Man-machine-material interfaces in manufacturing, man vs machine- a comparative discussion. work place design principles, organization of workstations, Anthropometry in workstation design, Physical work and human muscular effort, Biomechanics and bioengineering. Manual lifting, Design of hand tools, Design of VDT workstations, human performance under heat, cold, illumination, noise, static and dynamic conditions. Safety Management: An introduction to safety and accident, Evolution of modern safety concepts. Industrial hazard, safety and risk management, Types of injuries and accidents occurred in industries, health rules, worker’s safety, accident investigation, protective management techniques for safety management, safety devices, safety standards and regulations for engineering works, understanding safety signs. Occupational Health and Safety management System.

The Sessional works will be compatible to course no IPE 225

Introduction to fundamentals of engineering measurements, study and use of instrumentation and control systems. Testing and calibration, Error analysis, Basic characteristics of measuring devices. Dimension measurement, Abbeys principles of measuring threads and gears. Ultrasonic measurement, measurement of light wave interference. Sensors and Transducers. Measurement of displacement, position, velocity and motion. Liquid level measurement. Force, pressure, torque measurement. Fluid flow measurement. Solid flow measurement systems. Temperature measuring systems. Signal conditioning processes, purpose, amplifying elements, filters, Wheatston bridge, analog to digital conversion, Multiplexers, digital signal processing. Analog and digital methods for data presentation.

The sessional works will be compatible to course no IPE 317.

Plant Location: Factors, Objectives, Mathematical models of plant location (Dimension analysis, Brown-Gibson Model, Transportation Model) Plant Layout: Objectives of Facility layout design, Principles of plant layout, The layout function, Classic plant layouts, Hybrid and Fixed layouts, Manufacturing Cells and Group Technology, Analysis of plant layout problems (Line Balancing) , Analysis of process layout problems, Computerized process layout analysis, CRAFT, CORELAP, ALDEP. Material handling: Introduction to Material Handling: definition, factors, principles, load concept (unit load, bulk load) importance of material handling, manual handling. General theories for conveyors: Belt conveyor. Apron conveyor, Bucket conveyor, Flight conveyor, Pneumatic Conveyor. Auxiliary equipment for material handling- chute, hopper, ladder, gravity chute, industrial trucks, pallets, skids, etc. Lifting and Hoisting, Cranes and cableways. Automated guided vehicles and Industrial Robots.

Industrial training will be selected by IPE department. It includes training, presentation, report writing and viva.

Business and management process. Managerial functions. Managerial skills and role. Scientefic management. Modern operational management theory, Human behavioural school of management. Management and society: the external environment. Organization theory, structures and organizing practices.

The sessional works will be compatible to IPE 315.

Stress Analysis: Steady and Variable loads, Stress Concentration, Failure Prevention, Combined Stress Screw fastening and power screw; Design of Welded Joints; Springs; Bearing: Rolling contact ball bearing and Journal bearing, Gears: Spur, Helical, Bevel, Worm gear. Design of Shafts.Flexible power transmiting device.

The sessional works will be compatible to IPE 323.

Definition, Elements of PPC, Importance, The concept of integrated purchase – production –marketing system, different production systems. The concept of forecasting and forecasting models. Management of independent demand and the concept of inventory, EOQ, different types of inventory models (P and Q), ABC analysis. Aggregate planning. Scheduling in different situations and sequencing, Management of dependent lumpy demands - MRP (including MPS and BOM) and MRP - II, The concept of JIT and its accplication, OPT. Method and Motion Study. Work measurement. The concept of productivity.

The sessional works will be compatible to IPE 325.

Reliability Theory: Mathematical definition. Factors influencing system reliability, Hazard rate, Distributions for Failure, Reliability and Hazard rate: Normal distribution, Exponential distribution, Gamma distribution and Weibull distribution, Reliability Prediction: Series Configuration, Parallel configuration and mixed configurations, Application to a specific hazard model, An r-out-of-n structure, Methods solving the complex systems: Reduction to series element method, Path-tracing method and Composite method. Systems not reducible to mixed configuration: Methods of decomposition or conditional probability approach, cut-set method, Tie-set method. Logic diagram. Reliability Design: Reliability allocation, Reliability Improvement- Element redundancy, Unit redundancy and Standby redundancy. Failure Theory: Patterns of Failure, Bathtub Curve, Mean time to failure (MTTF) for various distributions, Fault Tree Analysis (FTA). Maintenance Management: Concepts, Types of maintenance and their applications to different situation. Probability thories applied to maitencane management.

The students on a given topic will have to prepare and present a seminar. The students will be divided into different groups under the supervision of teachers. Each group will be assigned with different topics. A viva-voce examination will be conducted on the seminar.

Introduction and scope of operations research, Introduction to linear programming, Graphical method, Simplex algorithm, special cases in simplex algorithm; Duality theory and sensitivity analysis. Transportation model and its variances; Assignment algorithms, Dynamic programming, Integer Linear programming – B & B algorithm, Additive algorithm. Decision making under certainty, Risk analysis, Game theory, Queuing model, Markov Chain. Applications of operation research in industrial and production engineering field.

The viva voce will be conducted on the basis of courses covered in the third year.

3 Hrs/week 3.00 credit

Concept of Quality: Modern concept of quality and its measurement, quality redefined, identification of quality characteristics: quality of design conformance and performance, Demings principle on quality and productivity, Quality costs and their interpretation. Statistical Quality Control: Control and measurement of quality, Elementary SPC tools: Control charts, Process capability analysis, Design of experiments, Acceptance sampling plans: OC curves, single and double sampling plane, AOQ. Quality Management: Fundamentals of Quality Management, Quality planning, QFD, House of quality, Total Quality Management: origin, concept and implementation, QCC, TQC, Quality Standards – ISO 9000 and 14000.

CAD: Introduction: Conventional vs computer aided manufacturing, geometric modeling, curves, surface, finite element analysis, design of optimization, introduction to a commercial modeling software.

CAM: Computer aided process planning, CNC machine hardware, CNC part programming, control system, implementation of CAM (economic aspect).

In this course, students are required to undertake a major project. The objective is to provide an opportunity to develop initiative, self-reliance, creative ability and engineering judgement. The results must be submitted in a comprehensive report with appropriate drawing, bibliography etc. along with the products if any. Use of locally available materials in manufacturing and feasibility study of local industrial units will be emphasized.

This is a continuation of the project/thesis started in the 7^th semester.

Fundamental Concepts: Properties of gases and vapors, Laws of Thermodynamic and theirs corollaries; Non-flow and flow processes, Ideal gases and their cycles; Power cycles, refrigeration cycles, Second low Thermodynamic; Entropy. Mixtures of gases and vapors; Fuels and Combustion. Sources of energy, types of power plants; power plants in Bangladesh.

Characteristics of machine tool, recent development in the design of machine tools, Drive system -of machine tools, design- of mechanical drive, speed gear boxes, feed gear boxes, infinity variables drives, PIV and other mechanical stepless drive, electrical drives, Bearings; spindles, slide ways of machine tools, machine tool structure, Locating principles and locators, clamps. Detailed case study of engine lathe, turret and automatic lathes, drilling machines, shaper machines, planer machines, milling machines, grinding machines, forging machine, Numerical Control of Machines.

This sessional work is compatible to course no 411.

Robotics: Introduction to Robotics, History, Present status and future trends, Robot geometries: Degrees of freedom; Robot configurations: kinematics; power sources, Actuators; Anatomy of a robots, Robot end effectors, Robot sensors, drives, control system, robot cell design and control; Industrial application of Robots.

Introduction: Definition of project, program, project objectives, why project management, the project management process, project life cycle. Project initiation: project manager, project organization structure, Matrix organizational design, project planning, conflict resolution and project negotiation. Project implementation: pricing and cost estimation, project scheduling- CPM, PERT, project management information system, project monitoring, evaluation and control. Project termination: terminating the project, project audit, project final report. Case study.

Introduction to Simulation; Types of Simulation, Its advantages and shortcoming, objectives of simulation in industrial and service organizations, Systems and Models, Simulation models: Input distribution specification; Generating random numbers and random variates; Stochastic processes. Different Queuing Systems: Comparing alternative system configuration, Output analysis of Simulation models. Experimental design and optimization; Simulation using programming language and software.

Organizational Behavior: Introduction to Organizational Behavior; The Nature of Organization: Purpose & Mission, Organization as open systems; Organizational Structure; Challenges and Opportunities for Organizational Behavior; Organizational Culture; The Nature of Managerial Work: Managerial Roles & Networks, Managerial Skills and Competencies, Effective Vs Successful Managerial Activities; Behavior and Norms; Value & Attitude; Learning; Personality and Emotion; Motivation & Job Satisfaction; Reward and Punishment Performance Appraisal; Communication; Groups in Organization and Inter-group conflict; Leadership & Trust; Power and Politics; Work design and Technology; Innovation and Stress.

Human Resource Management: Introduction to HRM; Motivation and leadership; recruitment, selection, wages and incentives; Job evaluation and enrichment, performance appraisal, training and development.

Industrial training selected by IPE department. It includes training, presentation, report writing and viva.

Introduction to Automation: Definition, Environment for automation, Cost Justification; Components of Automation: Actuators, Controllers, Sensors, vision system; Control of Automation: Servo system, Digital computers as controller of automated manufacturing system, programmable logic controller(PLC); Business data processing system for automated manufacturing system; Interfacing ;Flexible Automation Technology: Introduction, Flexible Automation – A new tool: Flexible Manufacturing Systems, Function of' Robot in FMM , FMC, FMS; Computer Aided Inspection and Test Equipment; Decision support system(DSS) and Expert system; Computer integrated Manufacturing: definition, Technology Issues, Fundamentals of Networking, Developing a successful CIM Strategy, An example of CIM environment.

The sessional works will be compatible to course no IPE 421.

Introduction to virtual reality-past, present and future; Virtual environment- definition and application in different areas; components of virtual reality system- hardware and software system; different types of virtual reality system; virtual reality software – Superscape, VRT, 3D studio MAX, JACK, World tool Kit/ Sense 8; virtual reality application case studies: military, airforce, Navy, medicine industry, engineering, education and entertainment.

The sessional works will be compatible to course no IPE-417 and IPE-423

Introduction, Factory acts, Employee's insurance act, Workmen’s compensation act, Trade union act. Payment of wages act, Industrial dispute act, Minimum wages act, Bangladesh labor agreement.

Concepts of the logistics systems competitive gains through logistics, Customer service and service driven logistics, Industrial Management functions and logistics, Measuring logistics costs and performance, Benchmarking and managing the, supply chain: (Functions, Scopes and Applications), Logistics pipeline management, quick response logistics and leading edge logistics.

Introduction to industrial marketing; Marketing concepts; Marketing environment; Consumer-buying behavior; Marketing mix; Product management concept; Product life cycles and its implication; Current marketing practices of manufacturing companies; Market research techniques; Market forecasting; Advertising; Marketing in modern world; Government regulations relating to marketing in Bangladesh; and Case studies.

The viva voce will be conducted on the basis of all the courses covered in the curriculum.

Introduction: Introduction of plastics, properties of plastics, testing of properties, characteristics, classification of plastics, identification of common plastics, currently used plastics, uses; flow behavior, processing parameter, degradation, fillers, additives, mixing and compounding, mills, Manufacture of Plastics: Intermittent and continuous processing of plastic materials, Extrusion, Injection molding, Thermoforming, Blow molding, film blowing, Compression molding and transfer molding; reinforcement of plastics, calandering and laminating; Plastic Machining.

Introduction: Needs for non-conventional machining processes; Classification of non-conventional machining processes; Electrical Discharge Machining: Process; Operating Principles; Dielectric Fluids; Electrode Material; Equipments; Process Parameters; Application; and Wire EDM; Electrochemical Machining: Process; Operating Principles; Power Supply and Control; Equipments; Process Parameters; and Application; Electron Beam Machining: Process; Operating Principles; Power Supply and Control; Equipments; Process Parameters; and Application; Ultrasonic Machining: Process; Operating Principles; Power Supply and Control; Equipments; Process Parameters; Application and limitations; Abrasive Jet Machining: Process; Operating Principles; Equipments; Process Parameters; Applications and Limitations; Water jet Machining: Process; Operating Principles; Equipments; Process Parameters; Applications and Limitations; Laser Beam Machining: Process; Lasing Process; Lasing Materials; Operating Principles; Equipments; Process Parameters; Applications and Limitations

Introduction to automatic control system and their representation by differential equations and Laplace transformation, block diagram and transfer function, analogue computer solution of system equations, system response, control action and system types, frequency response, hydraulic and pneumatic control systems, elements of Electro-mechanical control, introduction to digital computer control, sensors and actuators, data acquisition and conversion, signal processing.

Introduction to MIS: concept, definition, role of MIS, approaches of MIS; MIS and Computer: computer hardware and software for information system, data communication system, data base concept, data base management technology, client server architecture; Decision support systems: introduction, evolution of DSS, objectives of DSS, classifications of DSS, components of DSS, functions of DSS, development of DSS, group decision of DSS, relation between MIS and DSS. Applications of MIS: applications in manufacturing and service sector; Case study.

Concept of Entrepreneurship: theories, development factors, Process of developing Entrepreneurship; profile of an Entrepreneur, High-tech Entrepreneurship: characteristics, technology transfer and transfer risk, Entrepreneurial failure. Technological innovations and technology strategy, strategic attitudes and competitiveness, Planning Technology: forecasting, assessment, etc, implementing technology in product and services, technology substitution. Case studies.

Introduction: General consideration in tool design, degrees of freedom, locating principles and locators, clamping methods, clamping forces developed by different types of clamps. Jigs / Fixtures: Types, design and production. Dies: Types, die parts, design of dies blanks, shearing, bending, drawing, piercing, and other operations; Design and production of cutting tools: single point- turning, drilling, threading, milling, gear cutting tools. Simulation for designing machine tools.