IP/IE- 701 Elective –I (701 (A) – Materials Management)
Unit-1
Purchasing: Functions, objectives of material management (MM); integration concept and production control; inspection; material classification and coding; importance of writing specifications in MM; standardization and variety reduction techniques; forecasting in purchasing, material planning importance and techniques; master and material budgets; organization of purchase department, qualities of materials manager; mass production purchasing, how much to buy at one time; methods ofpurchasing, purchasing procedures, purchasing problems; vendor evaluation and rating, computerized purchasing systems, purchasing in government organizations.
Unit-2
Stores management: Introduction, objective of store keeping, stores functions, stores organization, stores systems and procedures, stores accounting and verification systems, stores location and layout, factor affecting location, centralized and decentralized storing, automated/retrieval storage.
Unit-3
Material Handling: Planning and operating principles material handling equipments and classification; belt conveyer, chain conveyers, fork lifts, over head cranes, automated material handling in modern industries.
Unit 4
Inventory models: Necessity of inventory in process and safety stock, problem of excess inventory and cycle time (=WIP/ Throughput), JIT/ lean mfg; basic EOQ/ EPQ models for constant review Q-system(S,s); periodic review, base stock P-system; service level, lead time variance and safety stock;; ABC, VED and other analysis based on shelf life, movement, size, MRP technique and calculations, lot sizing in MRP, linking MRP with JIT; evolution of MRP to ERP
Unit-5
Miscellaneous: Make or buy decisions; outsourcing benefits and risks; dependency on capacity and knowledge; modular and integral products; framework for make/ buy decision based on dependency and modular/ integral products; buyer-seller relationships in conventional and JIT purchasing; negotiations and its planning; tactics and stages in negotiations; disposal of surplus and obsolete material; performance appraisal of MM department.
IP/IE- 701 Elective –I (701 (B) – Computer Aided engineering and FEM)
Unit-I
Introduction : Structural analysis, objectives, static, Dynamic and kinematics analyses, skeletal and continuum structures, Modeling of infinite d.o.f. system into finite d.o.f. system, Basic steps in finite element problem formulation, General applicability of the method.
Unit-II
Element Types and Characteristics : Discretization of the domain, Basic element shapes, Aspect ratio, Shape functions, Generalized co-ordinates and nodal shape functions; ID bar and beam elements, 2D rectangular and triangular elements; axis-symmetric elements.
Unit-III
Assembly of Elements and Matrices: Concept of element assembly, Global and local coordinate systems, Band width and its effects, Banded and skyline assembly, Boundary conditions, Solution of simultaneous equations, Gaussian elimination and Choleksy decomposition methods, Numerical integration, One and 2D applications.
Unit-IV
Higher Order and iso-parametric Elements: One dimensional quadratic and cubic elements, Use of natural co-ordinate system, Area co-ordinate system continuity and convergence requirements, 2D rectangular and triangular requirement.
Unit-V
Static Analysis: Analysis of trusses and frames, Analysis of machine subassemblies, Use commercial software packages, Advantages and limitations
Unit-VI
Dynamic Analysis: Hamilton's principle, Derivation of equilibrium, Consistent and lumped mass matrices, Derivation of mass matrices for ID elements, Determination of natural frequencies and mode shapes, Use of commercial software packages.
IP/IE- 702 Elective –II (702 (A) – Financial Management
Unit 1
Working capital management: Determination of level of current assets; sources for financing working capital; bank finance for working capital; working capital financing; short and long term financing of working capital; working capital leverages
Unit 2
Cash Management: Forecasting cash flows; cash budgets, long-term cash forecasting; monitoring collections and receivables, optimal cash balances; Baumol model, Miller- model, Stone model; strategies for managing surplus fund.
Unit 3
Capital structure decisions: Capital structure & market value of a firm; theories of capital
structure; NI approach, NOI approach, Modigliani Miller approach, traditional approach; arbitrage process in capital structure; planning the capital structure: EBIT and EPS analysis. ROI & ROE analysis; capital structure policy
Unit 4
Hybrid Financing: Preferred stock, warrants and convertibles, private equity; venture funds, angel financing; financial management in intangible-intensive companies; characteristics of intangibles, implications for financial managements, types and approaches to valuations of intangible assets.
Unit 5
Corporate financial modeling: Agency problem and consideration; effect of inflation on; asset value, firm value, returns; financial planning; basis of financial planning, sales forecast method, proforma P & L account method, pro-forma balance sheet method, determination of External Financing Requirement (EFR).
Unit 6
Financial Management of sick units: Definition of sickness, causes, symptoms, predictions, revival strategies, institutions for revival of sick units; Economic Value Added (EVA) concept, components of EVA; Market Value Added (MVA).
IP/IE- 702 Elective –II (702 (B)– MIS, ERP and e- Business
UNIT 1
Management Information System (MIS) definition, Objectives and benefits, MIS as strategic tool, obstacles and challenges for MIS, functional and cross functional systems, hierarchical view of CBIS, structured and unstructured decision, Operation and mgt support, Decision process and MIS, info system components and activities, Value chain and MIS support.
UNIT 2
System concepts: types, definition, characteristics, feedback (Pull) and feed-forward (Push) control, system stress and entropy, computer as closed system, law of requisite variety, open and flexible (Adaptive) systems, work system model and comparison with input-process- output model, five views of work system: structure, performance, infrastructure, context and risk and their effect on product performance.
UNIT 3
Info concepts: define data, info, knowledge, intelligence and wisdom, Information characteristics and attributes, info measurement and probability, characteristics of human as info processor.
UNIT 4
Planning and control Concepts: terminologies, difficulties in planning, system analysis and development plan-purpose and participants, info planning, (SDLC) system development life cycle for inhouse and licensed sw, system investigation, analysis of needs, design and implementation phases, training of Operational personnel, evaluation, Control and Maintenance of Information Systems.
UNIT 5
E-business components and interrelationship, Evolution of Enterprise Resource Planning (ERP) from MRP, Supply chain management (SCM) and Customer relationship management (CRM), Integrated data model, strategic and operational issues in ERP, Business Process Re-Engineering (BPR), significance and functions, information technology and computer NW support to MIS.
IP- 703 – Welding and Non- Destructive Testing
UNIT I
Arc welding: Arcing phenomenon, metal transfer in arc welding, arc blow, types of electrode & their coating, electrodes for SMAW/ MIG, TIG, SAW,PAW & their specification. Gas welding: Welding techniques; left ward and right ward welding, filler metals and rods; oxy hydrogen and other fuel gas welding; air acetylene welding.
UNIT II
Special welding process: Cold pressure welding; diffusion welding, ultra sonic welding explosive welding friction welding and inertia welding; forge welding, electron beam welding; laser beam welding; atomic hydrogen welding; thermit welding, under water welding process, thermal spraying & metal-addition
UNIT III
Weld-ability and Weld-ability testing: Weld-ability of cast iron, effect of alloying elements in Weld-ability; steel, stainless steel, aluminum & copper welding; welding of plastics. Distortion & discontinuities in weld-jobs: Weld-jobs distortion and its control, various discontinuities in welds, residual stresses in weld-jobs; trouble shooting.
UNIT IV
Non Destructive Testing and inspection of weld-jobs: Non destructive methods of testing weld-jobs; stages of weld inspection and testing, visual inspection ,leak test; stethoscopes test; X-ray and -ray radiography, magnetic particle inspection; liquid(dye) penetrate test; fluorescent penetrate inspection; ultrasonic inspection and Eddy current testing.
UNIT V
Testing: Pipe, plate, boiler, drum, tank testing. Case-studies weld thermal cycle- residual stresses-distortion-relieving of stresses. Automation in welding: Structure analysis; basic operations, robotic welding, types of welding robots.
List Of Experiments (Please Expand it):
1. Prepare job of lap and butt joint by electric arc welding
2. Study/ make job on special welding methods like TIG, MIG, laser welding
3. Find welding defects on weld jobs by cutting welded joints
4. Non destructive die penetration testing of weld jobs
5. Experiments on various NDT methods contained in the theory
IP/IE- 704 – Industrial Robotics
Unit I
Introduction: Need and importance, basic concepts, structure and classification of industrial robots, terminology of robot motion, motion characteristics, resolution, accuracy, repeatability, robot applications.
Unit II
End Effectors and Drive systems: Drive systems for robots, salient features and comparison, different types of end effectors, design, applications.
Unit III
Sensors: Sensor evaluation and selection Piezoelectric sensors linear position and displacement sensing, revolvers, encoders, velocity measurement, proximity, tactile, compliance and range sensing. Image Processing and object recognition.
Unit IV
Robot Programming: Teaching of robots, manual, walk through, teach pendant, off line programming concepts and languages, applications.
Unit V
Safety and Economy of Robots: Work cycle time analysis, economics and effectiveness of robots, safety systems and devices, concepts of testing methods and acceptance rule for industrial robots.
List Of Experiments (Please Expand it):
1. Study of different types of robots
2. Study of different robot arm motions
3. Study of sensors used in robots
4. Experiments on robot programming
5. Modeling of robots
IP/IE- 705 – Logistics and Supply Chain Management
Unit 1
Introduction: Definition, importance, expenditure and opportunities in SCM; integration of inbound, outbound logistics and manufacturing to SCM, flow of material money and information, difficulties in SCM due to local v/s system wide (global) optimization and uncertainties in demand and transportation; Bull-whip effect; customer value; IT, info-sharing and strategic partnerships;
Unit 2
Design of Logistics & SC network: Plant and warehouse-network configuration; data collection and aggregation; transportation and mileage costs; warehouse capacity, costs and potential locations; service level requirements; variance reduction by pooling demands; cross docking and transshipments distribution. Distribution channels, elements of logistics, Integrated logistics, organizing for effective logistics lean logistics, reverse logistics, business & marketing logistics value creation in logistics.
Unit 3
Inventory models: Necessity of inventory in process and safety stock, problem of excess inventory and cycle time (=WIP/ Throughput), JIT/ lean mfg; basic EOQ/ EPQ models for constant review Q-system(S,s); periodic review, base stock P-system; service level, lead time variance and safety stock;; ABC, VED and other analysis based on shelf life, movement, size, MRP technique and calculations, lot sizing in MRP, linking MRP with JIT; evolution of MRP to ERP to SCM and e-business.
Unit 4
Strategic alliance and integration: Outsourcing benefits and risks; dependency on capacity and knowledge; modular and integral products; framework for make/ buy decision based on dependency and modular/ integral products; issues to be addressed in strategic alliance; use and merit/ demerit of third party (3PL) logistic; push, pull and push-pull based supply chains; push-pull boundary, appropriate strategy on matrix of demand uncertainty and economy of scale; coordination and leadership issues; change of purchasing role and vendor rating, variability from multiple suppliers; supply contracts and revenue sharing;
Unit 5
Role of IT: Value and impact of centralized information on Bullwhip effect; effective forecasts; locating products in SC; lead time reduction; dimensions of customer value; relationship and customer satisfaction; strategic pricing; IT infrastructure;; standardization and compatibility; interface devices, communication and databases; performance measurement in supply chain management; Decision Support Systems for SCM
List Of Experiments (Please Expand it):
1. Case studies and problems related to the theory
2. Design of network configurations using computer
IP/IE- 706 – Minor Project
Provision of Minor project is made as preparation phase-I for major project or to take it as an independent small project. For details of project see ME-805- Major project
Grading System 2013 - 14
IP/IE- 707 – Industrial Training
Objective of Industrial Training The objective of undertaking industrial training is to provide work experience so that student’s engineering knowledge is enhanced and employment prospects are improved. The student should take this course as a window to the real World and should try to learn as much as possible from real life experiences by involving and interacting with industry staff. Industrial training also provides an opportunity to students to select an engineering problem and possibly an industry guide for their Major Project in final semester.
Unit-1
Purchasing: Functions, objectives of material management (MM); integration concept and production control; inspection; material classification and coding; importance of writing specifications in MM; standardization and variety reduction techniques; forecasting in purchasing, material planning importance and techniques; master and material budgets; organization of purchase department, qualities of materials manager; mass production purchasing, how much to buy at one time; methods ofpurchasing, purchasing procedures, purchasing problems; vendor evaluation and rating, computerized purchasing systems, purchasing in government organizations.
Unit-2
Stores management: Introduction, objective of store keeping, stores functions, stores organization, stores systems and procedures, stores accounting and verification systems, stores location and layout, factor affecting location, centralized and decentralized storing, automated/retrieval storage.
Unit-3
Material Handling: Planning and operating principles material handling equipments and classification; belt conveyer, chain conveyers, fork lifts, over head cranes, automated material handling in modern industries.
Unit 4
Inventory models: Necessity of inventory in process and safety stock, problem of excess inventory and cycle time (=WIP/ Throughput), JIT/ lean mfg; basic EOQ/ EPQ models for constant review Q-system(S,s); periodic review, base stock P-system; service level, lead time variance and safety stock;; ABC, VED and other analysis based on shelf life, movement, size, MRP technique and calculations, lot sizing in MRP, linking MRP with JIT; evolution of MRP to ERP
Unit-5
Miscellaneous: Make or buy decisions; outsourcing benefits and risks; dependency on capacity and knowledge; modular and integral products; framework for make/ buy decision based on dependency and modular/ integral products; buyer-seller relationships in conventional and JIT purchasing; negotiations and its planning; tactics and stages in negotiations; disposal of surplus and obsolete material; performance appraisal of MM department.
IP/IE- 701 Elective –I (701 (B) – Computer Aided engineering and FEM)
Unit-I
Introduction : Structural analysis, objectives, static, Dynamic and kinematics analyses, skeletal and continuum structures, Modeling of infinite d.o.f. system into finite d.o.f. system, Basic steps in finite element problem formulation, General applicability of the method.
Unit-II
Element Types and Characteristics : Discretization of the domain, Basic element shapes, Aspect ratio, Shape functions, Generalized co-ordinates and nodal shape functions; ID bar and beam elements, 2D rectangular and triangular elements; axis-symmetric elements.
Unit-III
Assembly of Elements and Matrices: Concept of element assembly, Global and local coordinate systems, Band width and its effects, Banded and skyline assembly, Boundary conditions, Solution of simultaneous equations, Gaussian elimination and Choleksy decomposition methods, Numerical integration, One and 2D applications.
Unit-IV
Higher Order and iso-parametric Elements: One dimensional quadratic and cubic elements, Use of natural co-ordinate system, Area co-ordinate system continuity and convergence requirements, 2D rectangular and triangular requirement.
Unit-V
Static Analysis: Analysis of trusses and frames, Analysis of machine subassemblies, Use commercial software packages, Advantages and limitations
Unit-VI
Dynamic Analysis: Hamilton's principle, Derivation of equilibrium, Consistent and lumped mass matrices, Derivation of mass matrices for ID elements, Determination of natural frequencies and mode shapes, Use of commercial software packages.
IP/IE- 702 Elective –II (702 (A) – Financial Management
Unit 1
Working capital management: Determination of level of current assets; sources for financing working capital; bank finance for working capital; working capital financing; short and long term financing of working capital; working capital leverages
Unit 2
Cash Management: Forecasting cash flows; cash budgets, long-term cash forecasting; monitoring collections and receivables, optimal cash balances; Baumol model, Miller- model, Stone model; strategies for managing surplus fund.
Unit 3
Capital structure decisions: Capital structure & market value of a firm; theories of capital
structure; NI approach, NOI approach, Modigliani Miller approach, traditional approach; arbitrage process in capital structure; planning the capital structure: EBIT and EPS analysis. ROI & ROE analysis; capital structure policy
Unit 4
Hybrid Financing: Preferred stock, warrants and convertibles, private equity; venture funds, angel financing; financial management in intangible-intensive companies; characteristics of intangibles, implications for financial managements, types and approaches to valuations of intangible assets.
Unit 5
Corporate financial modeling: Agency problem and consideration; effect of inflation on; asset value, firm value, returns; financial planning; basis of financial planning, sales forecast method, proforma P & L account method, pro-forma balance sheet method, determination of External Financing Requirement (EFR).
Unit 6
Financial Management of sick units: Definition of sickness, causes, symptoms, predictions, revival strategies, institutions for revival of sick units; Economic Value Added (EVA) concept, components of EVA; Market Value Added (MVA).
IP/IE- 702 Elective –II (702 (B)– MIS, ERP and e- Business
UNIT 1
Management Information System (MIS) definition, Objectives and benefits, MIS as strategic tool, obstacles and challenges for MIS, functional and cross functional systems, hierarchical view of CBIS, structured and unstructured decision, Operation and mgt support, Decision process and MIS, info system components and activities, Value chain and MIS support.
UNIT 2
System concepts: types, definition, characteristics, feedback (Pull) and feed-forward (Push) control, system stress and entropy, computer as closed system, law of requisite variety, open and flexible (Adaptive) systems, work system model and comparison with input-process- output model, five views of work system: structure, performance, infrastructure, context and risk and their effect on product performance.
UNIT 3
Info concepts: define data, info, knowledge, intelligence and wisdom, Information characteristics and attributes, info measurement and probability, characteristics of human as info processor.
UNIT 4
Planning and control Concepts: terminologies, difficulties in planning, system analysis and development plan-purpose and participants, info planning, (SDLC) system development life cycle for inhouse and licensed sw, system investigation, analysis of needs, design and implementation phases, training of Operational personnel, evaluation, Control and Maintenance of Information Systems.
UNIT 5
E-business components and interrelationship, Evolution of Enterprise Resource Planning (ERP) from MRP, Supply chain management (SCM) and Customer relationship management (CRM), Integrated data model, strategic and operational issues in ERP, Business Process Re-Engineering (BPR), significance and functions, information technology and computer NW support to MIS.
IP- 703 – Welding and Non- Destructive Testing
UNIT I
Arc welding: Arcing phenomenon, metal transfer in arc welding, arc blow, types of electrode & their coating, electrodes for SMAW/ MIG, TIG, SAW,PAW & their specification. Gas welding: Welding techniques; left ward and right ward welding, filler metals and rods; oxy hydrogen and other fuel gas welding; air acetylene welding.
UNIT II
Special welding process: Cold pressure welding; diffusion welding, ultra sonic welding explosive welding friction welding and inertia welding; forge welding, electron beam welding; laser beam welding; atomic hydrogen welding; thermit welding, under water welding process, thermal spraying & metal-addition
UNIT III
Weld-ability and Weld-ability testing: Weld-ability of cast iron, effect of alloying elements in Weld-ability; steel, stainless steel, aluminum & copper welding; welding of plastics. Distortion & discontinuities in weld-jobs: Weld-jobs distortion and its control, various discontinuities in welds, residual stresses in weld-jobs; trouble shooting.
UNIT IV
Non Destructive Testing and inspection of weld-jobs: Non destructive methods of testing weld-jobs; stages of weld inspection and testing, visual inspection ,leak test; stethoscopes test; X-ray and -ray radiography, magnetic particle inspection; liquid(dye) penetrate test; fluorescent penetrate inspection; ultrasonic inspection and Eddy current testing.
UNIT V
Testing: Pipe, plate, boiler, drum, tank testing. Case-studies weld thermal cycle- residual stresses-distortion-relieving of stresses. Automation in welding: Structure analysis; basic operations, robotic welding, types of welding robots.
List Of Experiments (Please Expand it):
1. Prepare job of lap and butt joint by electric arc welding
2. Study/ make job on special welding methods like TIG, MIG, laser welding
3. Find welding defects on weld jobs by cutting welded joints
4. Non destructive die penetration testing of weld jobs
5. Experiments on various NDT methods contained in the theory
IP/IE- 704 – Industrial Robotics
Unit I
Introduction: Need and importance, basic concepts, structure and classification of industrial robots, terminology of robot motion, motion characteristics, resolution, accuracy, repeatability, robot applications.
Unit II
End Effectors and Drive systems: Drive systems for robots, salient features and comparison, different types of end effectors, design, applications.
Unit III
Sensors: Sensor evaluation and selection Piezoelectric sensors linear position and displacement sensing, revolvers, encoders, velocity measurement, proximity, tactile, compliance and range sensing. Image Processing and object recognition.
Unit IV
Robot Programming: Teaching of robots, manual, walk through, teach pendant, off line programming concepts and languages, applications.
Unit V
Safety and Economy of Robots: Work cycle time analysis, economics and effectiveness of robots, safety systems and devices, concepts of testing methods and acceptance rule for industrial robots.
List Of Experiments (Please Expand it):
1. Study of different types of robots
2. Study of different robot arm motions
3. Study of sensors used in robots
4. Experiments on robot programming
5. Modeling of robots
IP/IE- 705 – Logistics and Supply Chain Management
Unit 1
Introduction: Definition, importance, expenditure and opportunities in SCM; integration of inbound, outbound logistics and manufacturing to SCM, flow of material money and information, difficulties in SCM due to local v/s system wide (global) optimization and uncertainties in demand and transportation; Bull-whip effect; customer value; IT, info-sharing and strategic partnerships;
Unit 2
Design of Logistics & SC network: Plant and warehouse-network configuration; data collection and aggregation; transportation and mileage costs; warehouse capacity, costs and potential locations; service level requirements; variance reduction by pooling demands; cross docking and transshipments distribution. Distribution channels, elements of logistics, Integrated logistics, organizing for effective logistics lean logistics, reverse logistics, business & marketing logistics value creation in logistics.
Unit 3
Inventory models: Necessity of inventory in process and safety stock, problem of excess inventory and cycle time (=WIP/ Throughput), JIT/ lean mfg; basic EOQ/ EPQ models for constant review Q-system(S,s); periodic review, base stock P-system; service level, lead time variance and safety stock;; ABC, VED and other analysis based on shelf life, movement, size, MRP technique and calculations, lot sizing in MRP, linking MRP with JIT; evolution of MRP to ERP to SCM and e-business.
Unit 4
Strategic alliance and integration: Outsourcing benefits and risks; dependency on capacity and knowledge; modular and integral products; framework for make/ buy decision based on dependency and modular/ integral products; issues to be addressed in strategic alliance; use and merit/ demerit of third party (3PL) logistic; push, pull and push-pull based supply chains; push-pull boundary, appropriate strategy on matrix of demand uncertainty and economy of scale; coordination and leadership issues; change of purchasing role and vendor rating, variability from multiple suppliers; supply contracts and revenue sharing;
Unit 5
Role of IT: Value and impact of centralized information on Bullwhip effect; effective forecasts; locating products in SC; lead time reduction; dimensions of customer value; relationship and customer satisfaction; strategic pricing; IT infrastructure;; standardization and compatibility; interface devices, communication and databases; performance measurement in supply chain management; Decision Support Systems for SCM
List Of Experiments (Please Expand it):
1. Case studies and problems related to the theory
2. Design of network configurations using computer
IP/IE- 706 – Minor Project
Provision of Minor project is made as preparation phase-I for major project or to take it as an independent small project. For details of project see ME-805- Major project
Grading System 2013 - 14
IP/IE- 707 – Industrial Training
Objective of Industrial Training The objective of undertaking industrial training is to provide work experience so that student’s engineering knowledge is enhanced and employment prospects are improved. The student should take this course as a window to the real World and should try to learn as much as possible from real life experiences by involving and interacting with industry staff. Industrial training also provides an opportunity to students to select an engineering problem and possibly an industry guide for their Major Project in final semester.
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