Department of Mechanical-Mechatronics Engineering (MME) The LNMIIT was founded in 2002 as a joint effort between Rajasthan State Government and Lakshmi and Usha Mittal Foundation's philanthropic initiative. The Institute started in July 2003 and was granted Deemed-to-be University status by UGC in 2006 under the De-Novo category. The 100-acre green residential campus is located in a serene atmosphere on the outskirts of India's pink city, Jaipur. In the first decade, eight undergraduate (UG) batches approximately 1392 students have graduated. Currently, the total number of undergraduate students is 1274 (approximately) and of post graduate (PG) students is 52 (approximately). Girls constitute more than 30% of total students. ABOUT THE DEPARTMENT: The department of Mechanical-Mechatronics is one of the pioneering departments of the Institute. The department has highly qualified and dedicated faculty members engaged in teaching, research and development with the aim of achieving excellence in their fields. Department also offers Doctoral programme in several areas like Mechanical Design, Production, and Thermal Engineering. The department is equipped with latest software like ANSYS, SolidWorks, Msc Nastran/Patran/Marc/Adams, MATLAB/Simulink, VI-Rail. A National Instruments Centre of Excellence has also been established. ABOUT THE TRAINING: To meet the industrial requirements and challenges in the field of structural analysis of components or assemblies, department is running the different module of structural analysis packages (Module - A, Module - B, and Module - A+B) using latest Computer Aided Engineering (CAE) software. TARGET AUDIENCE: B.Tech/ M.Tech/Ph.D students, Graduate, Post Graduate engineers TRAINING ADVISOR: 1. Prof. S.S.Gokhale, Director 2. Dr. Manoj Kumar, HoD 3. Dr. Kamal Kishore Khatri 4. Mr. Prabin Kumar Jha 5. Mr. Shanker Ganesh
REGISTRATION FEES AND SCHEDULE: Target Audience Module/Duration Course Fees Schedule Students/Research scholar from 6,000/- other institute, and Industry Module - A/ personnel 25 hrs. LNMIIT students 4,500/- Students/Research scholar/ from Module - B/ 6,000/- Module-A: other institute and Industry 25 hrs. 21/12/2015 to personnel LNMIIT students 4,500/- 24/12/2015 Module-B: Students/Research scholar from Module - A+B/ 10,000/- 25/12/2015 to other institute, and Industry 50 hrs. 28/12/2015 personnel LNMIIT students 8,000 *On-Campus accommodation can be provided based on availability@ 200/- per day at the time of joining the training program Participants can register for these training courses by sending the registration form through email or submitting the attached google form (http://goo.gl/forms/ddvtqhmqta). The institute will provide a training certificate for these courses. The outstation participants can avail the accommodation facility in institute hostel based on availability, however the participants need to pay separately for food to avail the canteen facility of the institute. The local participants can avail the institute bus facility on nominal charge basis. The time schedule of the institute bus is available on the institute website. The payment of the registration fee should be in the form of Demand Draft/Local Cheque in favour of LNMIIT Gymkhana Fund, Jaipur (Details may be found at the end of the document). Lodging charges can be paid directly in the institute. Bank detail for NEFT: Account holder name: LNMIIT GYMKHANA FUND Bank Name: State Bank of Bikaner & Jaipur Account no.: 61086329622 Branch: Secretariat, Jaipur IFSC code: SBBJ0010031
FACULTY: 1. Amit Kumar Srivastava (Ph.D., S.V. National Institute of Technology, Surat) is Professor in Mechanical-Mechatronics department. Have over fifteen years of Industrial and teaching experience. Earlier, he worked in Atkins India Bangalore, Hindustan Aeronautics Limited Nasik, Rites Limited Gurgaon and Dehradun Institute of Technology Dehradun. PAST EXPERINCE / RESEARCH AREAS: Engineering Fracture Mechanics, Fatigue, Finite Element Method, Stress Analysis, Composite Material, Progressive Damage Analysis, and Extended Finite Element Method. 2. Vikram Sharma (Ph.D., Guru Gobind Singh Indraprastha University, Delhi) is Associate Professor in Mechanical-Mechatronics. Has over thirteen years of teaching experience. He holds master degree in CAD/CAM from MNNIT, Allahabad and has published several paper in national and international journals and conferences. PAST EXPERINCE / RESEARCH AREA: Computer Aided Design, Computer Aided Manufacturing, Supply chain modeling and performance evaluation in automobile sector. COURSE COORDINATORS (CONTACT DETAILS): Prof. Amit Kumar Srivastava Harshit Sankhla (Secretary, ASME LNMIIT) Email: amit.srivastava@lnmiit.ac.in Email: harshitsankhla@hotmail.com Mo: 7023604397, Ph: 0141-2688009(O) Mo: 9530064118 Dr. Vikram Sharma Prakhar Deep (Chairman, ASME LNMIIT) Email: vikram.sharma@lnmiit.ac.in Email:deepprakhar24@gmail.com Mo: 9521079472, Ph: 0141-2688008(O) Mo: 9413172823
Theory and Practical Application of Finite Element Method A) Module - A (ANSYS Structural Module) 1) Basic on Strength of Materials 2) Introduction to Finite Element Method (FEM), FEM steps, principle of minimum potential energy, shape function, computer aided stress analysis technique, Element types, Natural coordinate or intrinsic coordinate, Shape function, Isoparametric element, Different type of analysis, unit system 3) Static Analysis using 1D element 4) Static Analysis using 2D element 5) Static Analysis using 3D element 6) Validation of FEM results with analytical approach 7) Meshing of part/ assemblies 8) Analysis of components and assemblies (using 1D, 2D and 3D) 9) Modal analysis 10) Transient analysis 11) Composite analysis 12) Contact analysis 13) Report generation
B) Module - B (Msc Nastran/Patran) 1) Basic on Strength of Materials 2) Introduction to Finite Element Method (FEM), FEM steps, principle of minimum potential energy, shape function, computer aided stress analysis technique, Element types, Natural coordinate or intrinsic coordinate, Shape function, Isoparametric element, Different type of analysis, unit system 3) Static Analysis using 1D element 4) Static Analysis using 2D element 5) Static Analysis using 3D element 6) Validation of FEM results with analytical approach 7) Meshing of individual parts and assemblies 8) Analysis of components / assemblies (using 1D, 2D and 3D) 9) Modal analysis 10) Frequency response analysis 11) Transient analysis 12) Composite analysis 13) Report generation
REGISTRATION FORM THEORY AND PRACTICAL APPLICATION OF FINITE ELEMENT METHOD Name (Block Letters) : Designation : Department : Qualification : Institute / Organisation Address : E-mail : Mobile No. : Training Module : Accommodation : YES/NO Preferred time : Payment details : Bank : DD/Cheque/NEFT No. : Amount: Date: Signature