logo Professor Uday S Dixit

Department of Mechanical Engineering

Indian Institute of Technology Guwahati

Total Number of Books : 9

Books:

  1. U.S. Dixit, M. Hazarika and P. Davim, 2017, A Brief History of Mechanical Engineering, Springer, Switzerland
  2. R.G. Narayanan (editor) and U.S. Dixit (editor), 2015, Advances in Material Forming and Joining, 5th International and 26th All India Manufacturing Technology, Design and Research Conference, AIMTDR 2014, Springer, New Delhi.
  3. S.N. Joshi (editor) and U.S. Dixit (editor), 2015, Lasers Based Manufacturing, 5th International and 26th All India Manufacturing Technology, Design and Research Conference, AIMTDR 2014, Springer, New Delhi.
  4. Manjuri Hazarika and Uday Shanker Dixit, 2015, Setup Planning for Machining, Springer, New York.
  5. P.M. Dixit and U.S. Dixit, 2015, Plasticity: Fundamentals and Applications, CRC Press, Boca Raton.
  6. U.S. Dixit (editor) and R. Ganesh Narayanan (editor) (2013), Metal Forming: Technology and Process Modelling, McGraw-Hill Education, Noida
  7. U.S. Dixit, D.K. Sarma, J. Paulo, Davim, 2012, Environmentally Friendly Machining, Springer, New York.
  8. U.S. Dixit, 2009, Finite Element Methods for Engineers, Cengage Learning, New Delhi and Singapore.
  9. P.M. Dixit and U.S. Dixit, 2008, Modeling of Metal Forming and Machining Processes: By Finite Element and Soft Computing Methods, Springer, London.

joining                laser1

setup planning              Plasticity

Metal Forming             environment

fem              Modeling

Book Chapters:

  1. R. Kalidasan, S. Senthilvelan and U.S. Dixit, Double-tool turning, in Metal Cutting Technologies: Progress and Current Trends, edited by J. Paulo Davim, De Gruyter, Oldenbourg, Berlin.
  2. U.S. Dixit (2016), Some Strategies for Achieving Green Manufacturing, Annual Technical Volume of Production Engineering Board, Vol. 1, pp. 58 - 63.
  3. U.S. Dixit, V. Yadav and A.K. Singh (2016), Estimation of temperature in flat rolling, in Rolling of Advanced High Strength Steels: Theory, Simulation and Practice, edited by Jingwei Zhao and Zhengyi Jiang, CRC Press (in press).
  4. Ravi Kant, S.N. Joshi and U.S. Dixit (2015), Research issues in the laser sheet bending process, Chapter 4, pp. 73-95, in Materials Forming and Machining: Research and Development, edited by J. Paulo Davim, Woodhead Publishing
  5. S.M. Kamal and U.S. Dixit (2015), Feasibility Study of Thermal Autofrettage Process, , in Advances in Material Forming and Joining, 5th International and 26th All India Manufacturing Technology, Design and Research Conference, AIMTDR 2014, Springer, New Delhi.
  6. V. Yadav, A. K. Singh, U. S. Dixit (2015), An efficient inverse method for determining the material parameters and coefficient of friction in warm rolling process, in Advances in Material Forming and Joining, 5th International and 26th All India Manufacturing Technology, Design and Research Conference, AIMTDR 2014, Springer, New Delhi.
  7. W. G. Jiru, M.R. Sankar and U.S. Dixit (2015), Surface Alloying of Aluminum with Copper using Co2 Laser, in Lasers Based Manufacturing, 5th International and 26th All India Manufacturing Technology, Design and Research Conference, AIMTDR 2014, Springer, New Delhi.
  8. N. Fetene and U. S. Dixit (2015), Finite Element Simulations of Laser Bending of Small Sized Sheets, in Lasers Based Manufacturing, 5th International and 26th All India Manufacturing Technology, Design and Research Conference, AIMTDR 2014, Springer, New Delhi.
  9. S.S. Gautam , S. K. Singh and U.S. Dixit (2015),  Laser Forming of Mild Steel Sheets using Different Surface Coatings, , in Lasers Based Manufacturing, 5th International and 26th All India Manufacturing Technology, Design and Research Conference, AIMTDR 2014, Springer, New Delhi.
  10. A. Eideh, U.S. Dixit And Raghu Echempati (2015), A Simple Analytical Model of Laser Bending Process, in Lasers Based Manufacturing, 5th International and 26th All India Manufacturing Technology, Design and Research Conference, AIMTDR 2014, Springer, New Delhi.
  11. U.S. Dixit (2013), Epilogue in Metal Forming: Technology and Process Modelling, ed. U. S. Dixit. R. Ganesh Narayanan, McGraw-Hill Education, Noida.
  12. U.S. Dixit and R. Ganesh Narayanan (2013), Modelling of Metal Forming Processes, in Metal Forming: Technology and Process Modelling, ed. U. S. Dixit. R. Ganesh Narayanan, McGraw-Hill Education, Noida.
  13. R. Ganesh Narayanan and U.S. Dixit (2013), Metal Forming Processes, in Metal Forming: Technology and Process Modelling, ed. U. S. Dixit. R. Ganesh Narayanan, McGraw-Hill Education, Noida.
  14. U.S. Dixit, S.N. Joshi and Hemanth Kumar V. (2013), Microbending with LASER, in Micromanufacturing Processes, ed. V.K. Jain, CRC Press, Boca Raton, Florida.
  15. U.S. Dixit and R. Das (2013), Microextrusion, in Micromanufacturing Processes, ed. V.K. Jain, CRC Press, Boca Raton, Florida.
  16. U.S. Dixit (2012), Mechatronics Education, in Mechanical Engineering Education, ed. J. Paulo Davim, ISTE Wiley, London, UK.
  17. M. Chandrasekaran, M. Muralidhar, C. Murali Krishna, U.S. Dixit (2012), Online machining optimization with continuous learning, in Computational Methods for Optimizing Manufacturing Technology: Models and Techniques, ed. J. Paulo Davim, IGI Global, Hershey.
  18. U.S. Dixit, 2010, Finite element modeling of rolling processes, Chapter 4 in Finite Element Method in Manufacturing Processes, edited by J. Paulo Davim, ISTE, Wiley.
  19. U.S. Dixit, 2009, Application of neural networks and fuzzy sets to machining and metal forming, Chapter 1, in Artificial Intelligence in Manufacturing Research, edited by J. Paulo Davim, Nova Science Publishers, USA.
  20. S. Deb and U.S. Dixit, 2008, Intelligent Machining: Computational Methods and Optimization, Chapter 12 in Machining: Fundamentals and Recent Advances, edited by J. Paulo Davim, Springer London.

 

Book Review:

  • U.S. Dixit, 2012,  Book Review: Hybrid Modeling and Optimization of Manu­facturing: Combining Artificial Intelligence and Finite Element Method, International Journal of Manufacturing, Materials, and Mechanical Engineering, Vol. 2(4), pp. 71-72.