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Engineering Management Courses
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Planning and Adjusting Business Strategies |
43 days |
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Overview: |
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Designed for all engineering managers responsible for planning, adjusting and implementing business strategies as well as essential preparation for the exams, the course primarily covers business strategies and equips students to formulate action plans, communicate recommendations, obtain information on competitor's method application, synthesize information and interpret results, apply technology assessment practices and techniques, establish outsourcing and partnering relationships. |
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Instructor Bio: |
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Atul Vij |
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Atul Vij is Vice President- Corporate Division at Minda Group of Industries, an OEM automotive- components major. He is responsible for planning and implementation of policy deployment initiatives; skill upgradation across the organisation on manufacturing practices, deploying improvement initiatives, process benchmarking and deployment of SAP at group level. He carries an experience of around 20 years in lean tools and Japanese manufacturing practices. In his past assignments with McKinsey & Co, COWI - Denmark, Iwaco BV and Dimensie of Netherlands, he has worked on various assignments like supply chain and distribution channel restructuring, cost reduction, business turnaround for Steel, chemicals, consumer durables, automotive and other engineering goods manufacturing sectors. His areas of specialization are change management and implementation, corporate market entry and growth strategy, policy deployment, strategy deployment and operational excellence, including profitability / productivity improvement and systems standardisation. He is a renowned trainer in the industry.
Atul holds a PGDBM from Institute of Management Technology (IMT), Ghaziabad. He is a gold medallist in B.Sc (Hons.) and M.Sc. in Organic Chemistry from Delhi University. |
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Developing Products and Services |
43 days |
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Designed for engineering managers who are responsible for new product development, services, or processes, the course also serves as an essential preparation for the exams. The purpose of the course is to provide skills and knowledge in managing the product planning, design, and manufacturing processes. It covers the project life cycle, determining resource requirements, detailed planning, and management of the design process. |
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Instructor Bio: |
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Ajay Shukla |
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Ajay Shukla is Head of Research Group at PMI and senior faculty at PMI/NTPC in the area of Project Design, Planning and Management. He has over 19 years experience in engineering management in the areas of business processes and systems. He is a specialist in developing business strategy for quick revival of troubled businesses and is a proven expert in innovative business solutions for high performance. He has led a group of middle level executives of taken over business plants.
An alumnus of IIT Delhi, he is a certified PMP from IPMA Switzerland and WIPO Geneva. He has guided 12 MBA and M. Tech projects and is an industry examiner for IIT project work. |
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Leading Individuals and Engineering Project Teams |
43 days |
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Designed for new managers wanting to develop leadership and project management skills, existing managers wanting to learn new techniques in remote working and group decision making, the course will also serve as preparation for the exams. Essential for anyone leading or participating in project management teams either locally or remotely. |
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Instructor Bio: |
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Gagandeep Singh |
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Gagandeep Singh is Director at New Horizons Engineering Service, an Engineering Design outsourcing firm for Oil, Gas and Petrochemicals industry. He has over 20 years of experience in product design and project management with Flour Daniel, an Engineering Design and Project Consulting organization of international repute. In the past, his work has involved managing large cross cultural, multidisciplinary teams in engineering design and training them in project management tools; besides this he has been responsible for sourcing, procurement, inspection, expediting, erection and commissioning of projects for refineries and petrochemical plants in various countries across the globe. Previously, he was with Larsen and Toubro Limited in the capacity of a design and product engineer for pressure vessels and special equipment business units. He carries with him an international project management experience with companies like Kuwait National Petroleum Corporation, Irving Oil refinery at Calgary, Canada and South Korea. He holds a B.S. in Mechanical Engineering from College of Engg. & Tech., AMU, Aligarh- India and possesses a Masters Degree in Financial Management from Mumbai (Bombay) University, India. He is also an ASME member. |
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Financial Resources for Engineers |
43 days |
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Overview: |
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One of the important components in the preparation for the exams, the course will enable students to interpret balance sheets and P&L, apply cash flow techniques, understand business plan fundamentals and key components, apply inventory control procedures and supply chain management, develop funding proposals and implement funding plans, apply ROI and NPV, develop financial projections, establish and monitor capital budget, understand contract procedures and regulations, prepare-interpret-manage contracts. |
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Instructor Bio: |
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Dr. Ambika Prasad Dash, Ph.D, FDPM, IIMA |
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Dr. Dash is a senior faculty member in the area of Finance & Strategy in the Power Management Institute of NTPC Ltd. He carries 27 years of experience in financial and strategic research and consulting. He was the Head of Finance at NTPC and NICM. His 17 years of academic experience covers areas of Finance and Strategy, Mergers and Acquisitions, Project Management and International Finance. He has functioned as a PhD guide for students on more than 150 MBA projects. Dr. Dash is also a visiting faculty at premier institutions like Symbiosis, FMS-Delhi, MDI-Gurgaon, IMT and IMI. He is widely renowned as a national expert in management for UGC in UGC-NET and has published more than four books and 30 articles on various topics at international conferences. |
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Marketing for Engineers |
43 days |
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This course is directed at engineering managers who have little to no exposure to marketing, whether on the college level or in practical application to their work environment. The purpose of this course is to provide skills, knowledge and appreciation of marketing and its interaction with the operations and technical arenas of a firm and is excellent preparation for the exams. It covers a broad range of topics including communication skills, market research and analysis, benchmarking, trends, the impact of the environment, technology assessment forecasting, risk analysis, sales and consumer satisfaction, advertising and integrated marketing communications, pricing, products and branding. |
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Instructor Bio: |
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Gurinder Singh Ahluwalia |
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Mr. Ahluwalia is Principal consultant at Anahad Marketing Communications. His role involves providing advisory services to SMEs in north India for reengineering of their programs. His expertise domains include packaging and product innovations, marketing strategy, sales management and sales force training and branding. Mr. Ahluwalia is also a renowned academician in the areas of international marketing, marketing, advertising & sales management and executive communication. He has over 22 years of experience in market research and new market development, product planning, and sales management in the international and domestic markets in various business sectors such as Pharma, Industry export promotion organisation, and Media. He holds an MBA from University Business School, Punjab University and is a gold medallist in MJMC from Punjabi University, Patiala. |
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Engineering Maintenance Operation and Change |
43 days |
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Overview: |
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Designed primarily for all engineering managers responsible for planning, adjusting and implementing business strategies and one of the essential preparation for the exams, the course will equip students in learning how to define the scope of a project, apply project planning concepts and tools, delineate appropriate scheduling techniques, assess project risk through financial risk assessment use techniques like FEM, Stat Modeling, Monte Carlo Simulation, Transform Methods, obtain customer feedback, use root cause analysis techniques. |
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Instructor Bio: |
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Jha Jai Chandra |
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Mr. Jha is Executive Director – Operations and Manufacturing Excellence, Bajaj Motors Ltd. An operations management and turnaround specialist, he has 27 years of experience in automobile and industrial (capital goods) sectors with companies like Kirloskar Oil Engines Ltd, LML Ltd, Shriram Bearings Ltd, Roto Pumps Ltd etc. He has led his teams win many international awards and competitions on operational and quality excellence and also has to his credit many books and publications on 5S,TPM and Lean Manufacturing, Six Sigma subjects and change management. He is a Guest faculty to many corporates and Schools like YKK, YAMAHA MOTORs, Hero Honda, QCFI, GAIL Training Institute and Amity International on subjects like Lean Thinking, Process Mapping and Value Stream Analysis, Theory of Constraints, TQM, TPS, BPR, BENCH MARKING, QMS, MOTIVATION, LEADERSHIP. He is a Life member of the Quality Circle Forum of India, and Governing Council member of QCFI – Delhi Chapter. He has a Bachelor’s Degree in Mechanical Engineering from REC, Surat (now SVNIT). |
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Engineering Design
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Drawing Interpretation |
43 days |
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This course covers the majority of information required to understand basic mechanical two-dimensional engineering drawings. It is designed for those entering or beginning as designers, drafters, quality, procurement, tooling, production, manufacturing and shop personnel as well as those involved with tooling, production, inspection, routing in the shop; others involved with purchasing, costing and management; vendors and suppliers. |
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Instructor Bio: |
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Raj Verma |
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Raj Verma is Dimensional Management Group Lead at Hawker Beechcraft, an aerospace company based in Kansas, US. He has a broad product development experience of 15 years in automotive, aerospace, and biomedical industry. Raj is also recognized as a Certified Quality Engineer (CQE) by the ASQ Group and has conducted trainings in GD&T and Variation Analysis to design, tooling, manufacturing, and quality personnel. He has led several Six Sigma design optimization and quality improvements projects at Hawker Beech craft, Spirit Aero systems, Johnson Controls, and other Tier II suppliers in the automotive industry. Raj has extensively used DM (Vis-VSA and Sigmund) software to conduct up-front assembly build analysis to eliminate build issues in manufacturing environment including variation models for Boeing 787 sub-assemblies to predict the assembly build variation. He has also been a member of the design team for the development of Sigmund products and is a co-patent holder in Tolerance Simulation Analysis.
Raj earned his MS in Industrial Engineering from University of Oklahoma, US and holds certifications in Six Sigma Black Belt (SSBB). |
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Geometric Dimensioning & Tolerancing (GD&T) using ASME Y14.5 Online Course |
43 days |
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Overview: |
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This course covers most of the geometric dimensioning controls used on mechanical engineering drawings. The theoretical and practical concepts of each of the geometric controls are explained relative to the areas of design, tooling, production, and inspection. The parts of a directional-change gear box are used as platforms for the geometric controls. The assembly includes shafts, gears, bearings, keys, lip seals, castings, and threaded fasteners. Possession of the ASME Y14.5 Dimensioning and Tolerancing standard is required. |
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Instructor Bio: |
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Raj Verma |
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Raj Verma is Dimensional Management Group Lead at Hawker Beechcraft, an aerospace company based in Kansas, US. He has a broad product development experience of 15 years in automotive, aerospace, and biomedical industry. Raj is also recognized as a Certified Quality Engineer (CQE) by the ASQ Group and has conducted trainings in GD&T and Variation Analysis to design, tooling, manufacturing, and quality personnel. He has led several Six Sigma design optimization and quality improvements projects at Hawker Beech craft, Spirit Aero systems, Johnson Controls, and other Tier II suppliers in the automotive industry. Raj has extensively used DM (Vis-VSA and Sigmund) software to conduct up-front assembly build analysis to eliminate build issues in manufacturing environment including variation models for Boeing 787 sub-assemblies to predict the assembly build variation. He has also been a member of the design team for the development of Sigmund products and is a co-patent holder in Tolerance Simulation Analysis.
Raj earned his MS in Industrial Engineering from University of Oklahoma, US and holds certifications in Six Sigma Black Belt (SSBB). |
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Advanced Geometric Dimensioning & Tolerancing (GD&T) using ASME Y14.5 |
43 days |
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Overview: |
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This advanced course in geometric dimensioning more thoroughly covers some of the more used geometric dimensioning controls used on mechanical engineering drawings. The basic applications of position are explained in greater detail (fixed and floating fastener, zero tolerance, size feature datums, and composite vs. two single segments). Several possibilities of how to control the size and location non-size features with profile are explained. Coaxial relationships and control of rectangular features is also covered. All nine modules include a quiz. Possession of the ASME Y14.5 Dimensioning and Tolerancing standard is required. Geometric Dimensioning & Tolerancing is a pre-requisite for this course. |
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Instructor Bio: |
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Raj Verma |
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Raj Verma is Dimensional Management Group Lead at Hawker Beechcraft, an aerospace company based in Kansas, US. He has a broad product development experience of 15 years in automotive, aerospace, and biomedical industry. Raj is also recognized as a Certified Quality Engineer (CQE) by the ASQ Group and has conducted trainings in GD&T and Variation Analysis to design, tooling, manufacturing, and quality personnel. He has led several Six Sigma design optimization and quality improvements projects at Hawker Beech craft, Spirit Aero systems, Johnson Controls, and other Tier II suppliers in the automotive industry. Raj has extensively used DM (Vis-VSA and Sigmund) software to conduct up-front assembly build analysis to eliminate build issues in manufacturing environment including variation models for Boeing 787 sub-assemblies to predict the assembly build variation. He has also been a member of the design team for the development of Sigmund products and is a co-patent holder in Tolerance Simulation Analysis.
Raj earned his MS in Industrial Engineering from University of Oklahoma, US and holds certifications in Six Sigma Black Belt (SSBB). |
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Introduction to Finite Element Analysis (FEA) using ANSYS |
43 days |
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Overview: |
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Originally developed for aerospace structural analysis, FEA has grown to provide a convenient and speedy tool for approximation of the solution to a wide variety of complicated engineering problems. The method of FEA can produce accurate, reliable approximate solutions, at a small fraction of the cost of more rigorous, closed-form analyses. Basic knowledge of the background theory and knowledge of best practices of FEA is sufficient to allow an engineer to perform finite element analysis, once a software package is obtained and the engineer has time to learn its use. |
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Instructor Bio: |
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Dr Natteri M. Sudharsan, PhD |
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Dr. Natteri M. Sudharsan, PhD., is the founder of Sarvajit-CAE, a company that specializes in training, consultancy and research in the area of computational modelling and simulation of fluid mechanics and structural problems. He holds a PhD in Computational Heat Transfer – Bio medical Engineering, from Nanyang Technological University, Singapore, M.S.M.E- specialization in Numerical Heat Transfer from the California State University Sacramento with a Masters thesis on “Finite Element Analysis of Heat Transfer Problems”. Dr. Sudharsan has done his post doctoral research at the Institute of High Performance Computing, Agency for Science Technology and Research, Singapore. At IHPC, he was involved in various projects such as Fluid structure Interactions (FSI), and Air Flow studies in complex system enclosures. One of his remarkable contributions to society has been his research using numerical simulation as an adjunct tool for breast tumour detection using thermography. He has over 25 Publications in peer reviewed international journals, conferences, book chapters to his credit. He is a visiting faculty with Anna University, BITS, ICFAI for courses like Computational Fluid Dynamics, Thermodynamics, Heat Transfer, Transport Phenomena and Quantitative methods.
He also conducts corporate training in this field and the recent being at Larsen & Toubro Limited, e-Engineering Solutions division. He has given talks in various forums including Institute for Plasma Research, Department of Atomic Energy. He has done an MEP from the Indian Institute of Management. He is a Life member of ASME and Ex-chair of the education committee of ASME Singapore section.
He is a Member of the Madras Management Association. He is a also a Chartered Engineer and a Member of both Institution of Engineers (I) and Institution of Mechanical Engineers (I). Prior to his academic and research pursuit, Dr. Sudharsan was the Head of Electrotechnik and in that capacity has handled several turnkey contracts such as, spin pit test facility for GE turbines (BHEL Ramachandrapuram), Pit furnaces for heat treatment of shells and forgings of space launch vehicles (Keltech now Bramhos Aerospace), Nitrogen furnace, fuel oil electric heaters, Ammonia Stripping columns, & other pressure vessels |
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Computer Aided Design using ProE Online Course |
43 days |
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Overview: |
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CAD/CAM systems have become basic systems that can help the engineer to design a product by using the speed and efficiency of a computer. Side by side with the theory, the course requires a student to undertake assignments with major commercial software. (For example, ProE). The course involves theory and hands-on experiments. The student participants are expected to procure a copy of the student version of the software. |
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Instructor Bio: |
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Dr. Dhanajay M. Kulkarni |
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Dr. Kulkarni is Asst. Professor, Mechanical Engineering at BITS Pilani. He has over 15 years of teaching experience at both undergraduate as well as postgraduate levels. He has guided several research scholars as well as published many research papers at both national and international levels. He has taught courses like Engineering Thermodynamics, Strength of Materials, Mechanics of Solids, Advanced Mechanics of Solids, Design of Machine Elements, Computer Aided Design (CAD), Structure and Properties of Material, Engineering Graphics, Machine Drawing, Fracture Mechanics, Computer Aided Analysis and Design, Experimental Stress Analysis at undergraduate levels. He has also designed courses in Engineering Graphics with AutoCAD, Computer Aided Design, Computer Aided Analysis and Design with industrial approach and Fracture Mechanics.
Dr. Kulkarni has previously worked with organizations like MICO BOSCH and CROMPTON GREAVES. He has written books on Engineering Graphics with AutoCAD, Prentice Hall, India and authored course notes on Computer Aided Design and Modelling. His active areas of research are Mechanical System Design, Finite Element Analysis in structural design, Theory of Elasticity and Plasticity, Biomechanics, Engineering Fracture Mechanics, CAD. He has conducted training programmes on Finite Element Analysis using ANSYS. He is a Member of the Indian Society of Technical Education (ISTE). He is also on the Advisory Board of VEL TECH University, Chennai. Recently, he was honoured with a "Rashtriya Gaurav Award" in Delhi on 10th July 2009.
He has an M. Tech. (Mechanical System Design) from (Indian Institute of Technology, Kharagpur) and a Ph. D. in Fracture Mechanics. |
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Advance FEA Course |
43 days |
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Overview: |
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Within the various disciplines of engineering and science, Finite Element Analysis is becoming ever more widely used. Originally developed for aerospace structural analysis, FEA has grown to provide a convenient and speedy tool for approximation of the solution to a wide variety of complicated engineering problems. In the hands of a competent user, the method of FEA can produce accurate, reliable approximate solutions, at a small fraction of the cost of more rigorous, closed-form analyses. There exist any number of software packages for the performance of FEA, which are commercially available. Thus, basic knowledge of the background theory and knowledge of best practices of FEA is sufficient to allow an engineer to perform finite element analysis, once a software package is obtained and the engineer has time to learn its use. Note however, that there is still much room for misuse of the software, among unskilled users.
ASME offers an intro and advanced course in this discipline. These courses are offered both online and In-classroom by ASME expert instructor and come to you with an educational version of ANSYS software , inclusive of the cost of program . ASME CERTIFICATE OF COURSE COMPLETION along with IACET( International Accreditation for Continuing Education & Training ) certified -2.25 continuing education units (CEU's) which have a global acceptance and recognition of the certified training level achieved are available upon successful completion of each course (75% or better).
The course consists of six modules, all with practical application using the software ANSYS. These modules cover topics which are meant to help the student gain an appreciation of how ANSYS works, as well as finite element analysis in general, but will not cover the entire gamut of possible FEA applications. Structural analysis will be emphasized, but the topics covered can be abstracted by the user to provide a guide for use of FEA for non-structural applications. For example, the topic of "Transient Dynamic Response" will be covered in Module number 4 of the course; the student should find sufficient guidance in that module, to be able to figure out on his or her own (in consultation with the ANSYS documentation,) how to perform transient THERMAL analysis.
Inasmuch as this is an "advanced" course, it is expected that the student will enter into the course with knowledge of basic FEA principles, such as:
§ Basic terminology (node, element, degrees of freedom, etc)
§ Basic mathematical principles (element equations f = kd, global equations (F+R) = KD, etc)
§ Concepts of shape functions and interpolation functions and a basic familiarity with ANSYS.
§ This last is not absolutely critical, as the ANSYS documentation includes several good tutorials which should help the student to get up to speed, and the first modules of this course are written to provide a "brush-up" on the use of ANSYS. Still, it would be better if the student enters the course with some familiarity with ANSYS.
The modules of the course are, in chronological order:
§ Command-line input for ANSYS. This topic is meant to help the student understand how to use non-GUI inputs to ANSYS in order to perform analyses. This allows for "batch mode" analyses, and also helps the user to more fully understand the information contained in the ANSYS User's Guides.
§ Sub-structuring and Sub-modelling. This module covers the two topics described in the title, both of which are valuable techniques for mesh reduction, thus allowing for more rapid solution to otherwise quite large (and thus time-consuming) problems.
§ Structural Dynamics I: Modal and Harmonic Response Analyses. : This module covers two of the three aspects of structural dynamics, namely free vibrational response and response to sinusoidal external forces. The topic of time-history post processing is introduced. Modal analysis is similar in some respects to the Eigen buckling problem, hence again providing a tool for the interested student to abstract to analyses which are not specifically covered in this course.
§ Structural Dynamics II: Transient Dynamic Analysis. This module covers the finite element approximation of the response of a structure to any general time-varying force, and/or any required initial conditions of motion. The module goes into further detail about command-line input (subject of Module 1,) as a necessary step in generation of the time-varying force.
§ Nonlinear Structural Analyses. This module goes into the theory and application of nonlinear finite element analysis, for the cases of geometric and material nonlinearity. Changing status (e.g., contact) nonlinearity is not discussed, but again it is hoped that the student will gain sufficient insight into the general nonlinear process, to be able to use the ANSYS User's Guides to learn the techniques of contact nonlinearity as needed.
§ Design Optimization in ANSYS. This chapter is not greatly theoretical, but instead simply presents the techniques available in ANSYS for design optimization. A relatively short module, with, it is hoped, immediate practical application.
§ Each module will have a short quiz to be performed after the module is completed. In addition, there will be a final quiz to be completed after all module quizzes are done.
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Section VIII, Division I Design and Fabrication Pressure Vessels Online Course |
43 days |
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Overview: |
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Based on the rules for pressure vessel design and construction, this is a comprehensive introduction to Code requirements. It has been designed for Engineering and manufacturing organizations and users of pressure vessels; new employees and others needing initial or increased familiarity with ASME Code application to the design and construction of pressure vessels. |
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Instructor Bio: |
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Dr. Dipak Chandiramani |
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Dr. Dipak Chandiramani is a Doctorate (Ph.D) in Mechanical Engineering from IIT Kharagpur and a Chartered Engineer (India). He is working as a Principal Technical Specialist, in Lloyds Register Asia and carries a rich professional experience of 30 years in Welding, Design and Inspection. He is involved in carrying out appraisal of pressure vessels to various national and international Codes including ASME Section I, IV, VIII Div. 1, VIII Div. 2, TEMA, ADMERKBLATTER, PD5500, API, Australian Standards and IS. He also specializes in finite element analysis using ANSYS and pipe stress analysis. He is an Authorized Inspector of ASME Code Symbol stamped boilers and pressure vessels.
He has as many as 12 international and national technical publications and presentations to his credit. Dr. Chandiramani is an authorized ASME Instructor and an active member in the ASME BPV Section XII Committee (Technical Subgroup Design and Materials). He also is an active member of many Indian and International Technical societies such as IIW, ISNT, IEI, ASME, AWS, ASNT and ASM. He holds Professional qualification of ASNT Level III in PT, MT, RT and UT. |
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Section VIII Division II Alternative Rules Online Course |
43 days |
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Overview: |
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In today's increasingly competitive environment, manufacturers and designers in India need to produce cost-effective, state-of-the-art pressure vessels. The lower design margins of the ASME Division 2 Code vs. Division 1 makes it more competitive with other international codes. The course teaches you to design a vessel to this Code, Perform various types of analyses and evaluate the analysis results. It allows you to have a complete understanding of the Division 2, including general requirements, materials, fabrication, NDE, PWHT, testing, documentation and stamping. |
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Instructor Bio: |
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Dr. Dipak Chandiramani |
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Dr. Dipak Chandiramani is a Doctorate (Ph.D) in Mechanical Engineering from IIT Kharagpur and a Chartered Engineer (India). He is working as a Principal Technical Specialist, in Lloyds Register Asia and carries a rich professional experience of 30 years in Welding, Design and Inspection. He is involved in carrying out appraisal of pressure vessels to various national and international Codes including ASME Section I, IV, VIII Div. 1, VIII Div. 2, TEMA, ADMERKBLATTER, PD5500, API, Australian Standards and IS. He also specializes in finite element analysis using ANSYS and pipe stress analysis. He is an Authorized Inspector of ASME Code Symbol stamped boilers and pressure vessels.
He has as many as 12 international and national technical publications and presentations to his credit. Dr. Chandiramani is an authorized ASME Instructor and an active member in the ASME BPV Section XII Committee (Technical Subgroup Design and Materials). He also is an active member of many Indian and International Technical societies such as IIW, ISNT, IEI, ASME, AWS, ASNT and ASM. He holds Professional qualification of ASNT Level III in PT, MT, RT and UT. |
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