BPUT Name and Tag Line

Profile of Dr. Bibhuti Bhusan Mukharjee

Designation :Associate Professor No image available
Qualifications : Bachelor of Engineering in Civil Engineering from IGIT Sarang.
Master of Technology in Civil Engineering from NIT Rourkela.
Ph.D in Civil Engineeing from IIT Kharagpur.
Experience :
Contact Detail :Department of Civil Engineering, CAPGS, BPUT Rourkela
Email :capgs.bbmukharjee@bput.ac.in
Phone No. :
Research Interests
Concrete Technology, Sustainable Materials and Technologies
Brief Research Profile

Journal Publication Details

  1. Prusty, R., Mukharjee, B. B., & Barai, S. V. (2015). A Taguchi approach for investigation of mechanical properties of recycled aggregate concrete containing nano-silica. International Journal of SEWC, 4, 29-39. (Structural Engineers World Congress).
  2. Mukharjee, B. B., & Barai, S. V. (2015). Characteristics of sustainable concrete incorporating recycled coarse aggregates and colloidal nano-silica. Advances in concrete construction, 3(3), 187-202. (Impact factor : 1.237 Techno-Press)
  3. Mukharjee, B. B., & Barai, S. V. (2014). Influence of incorporation of nano-silica and recycled aggregates on compressive strength and microstructure of concrete. Construction and Building Materials, 71, 570-578. (Impact Factor: 4.039, Elsevier)
  4. Mukharjee, B. B., & Barai, S. V. (2014). Assessment of the influence of Nano-Silica on the behavior of mortar using factorial design of experiments. Construction and Building Materials, 68, 416-425. (Impact Factor: 4.039, Elsevier)
  5. Mukharjee, B. B., & Barai, S. V. (2014). Statistical techniques to analyze properties of nano-engineered concrete using Recycled Coarse Aggregates. Journal of Cleaner Production, 83, 273-285. (Impact Factor: 6.352, Elsevier)
  6. Mukharjee, B. B., & Barai, S. V. (2014). Influence of nano-silica on the properties of recycled aggregate concrete. Construction and Building Materials, 55, 29-37. (Impact Factor: 4.039, Elsevier).
  7. Prusty, R., Mukharjee, B. B., & Barai, S. V. (2015). Nano-engineered concrete using recycled aggregates and nano-silica: Taguchi approach. Advances in concrete construction, 3(4), 253-268. (Impact factor : 1.237 Techno-Press)
  8. Mukharjee, B. B., & Barai, S. V. (2015). Development of construction materials using nano-silica and aggregates recycled from construction and demolition waste. Waste Management & Research, 33(6), 515-523. (Impact Factor: 1.803, Sage publication)
  9. Patra, R. K., & Mukharjee, B. B. (2016). Fresh and hardened properties of concrete incorporating ground granulated blast furnace slag–A review. Advances in concrete construction, 4(4), 283-303. (Impact factor : 1.237 Techno-Press)
  10. Patra, R. K., & Mukharjee, B. B. (2017).Properties of Concrete Incorporating Granulated Blast Furnace Slag as Fine Aggregate. Advances in concrete construction,5(5), 437-450. (Impact factor : 1.237 Techno-Press)
  11. Mukharjee, B. B., & Barai, S. V. (2017). Mechanical and microstructural characterization of recycled aggregate concrete containing silica nanoparticles. Journal of Sustainable Cement-Based Materials, 6(1), 37-53. (Taylor & Francis).
  12. Patra, R. K., & Mukharjee, B. B. (2017). Influence of incorporation of granulated blast furnace slag as replacement of fine aggregate on properties of concrete. Journal of Cleaner Production, 165, 468-476. (Impact Factor: 6.352, Elsevier).
  13. Tanty, K., Mukharjee, B. B., & Das, S. S. (2018). A Factorial Design Approach to Analyse the Effect of Coarse Recycled Concrete Aggregates on the Properties of Hot Mix Asphalt. Journal of The Institution of Engineers (India): Series A, 99(2), 165-181. (Springer)
  14. Majhi, R. K., Nayak, A. N. &Mukharjee B. B. (2018). Development of sustainable concrete using recycled coarse aggregate and ground granulated blast furnace slag. Construction and Building Materials, 159, 417-430. (Impact Factor:4.039, Elsevier)
  15. Padhi, R. S., Patra, R. K., Mukharjee, B. B., & Dey, T. (2018). Influence of incorporation of rice husk ash and coarse recycled concrete aggregates on properties of concrete. Construction and Building Materials, 173, 289-297. (Impact Factor:4.039, Elsevier)
  16. Das, C. S., Dey, T., Dandapat, R., Mukharjee, B. B., & Kumar, J. (2018). Performance evaluation of polypropylene fibre reinforced recycled aggregate concrete. Construction and Building Materials, 189, 649-659. (Impact Factor:4.039, Elsevier)
  17. Muduli, R., & Mukharjee, B. B. (2019). Effect of incorporation of metakaolin and recycled coarse aggregate on properties of concrete. Journal of Cleaner Production,209,398-414. (Impact Factor: 6.352, Elsevier)

Conference Publication Details

  1. Mukharjee, BB Mishra, UK, Sahu SK (2010),  Vibration and buckling analysis of a multiple cracked beam using finite element method. Proceedings of national Conference on recent advances in fluid and solid mechanics, (RAFSM-2010), February 27-28, Rourkela, India. 
  2. Mukharjee, BB Mishra, UK, Sahu SK (2010), Dynamic stability of cracked beam using finite element method. Proceedings of International Conference on Challenges and Application of Mathematics in Science and Technology (CAMIST 2010), Rourkela, January 10 -11, India.
  3. R Prusty, Mukharjee, BB, Barai, SV (2013), Recycled Aggregate and Nano-silica Based Concrete Mix Proportioning Using Tguchi Approach. Proceedings of International Conference on Innovative Materials and Construction (ICIMC 2013), April 8-9 Chennai, India.
  4. Mukharjee, BB, Barai, SV (2013), Sustainable concrete containing nano-silica and recycled concrete aggregate. Proceedings of International Conference on Advances in Engineering and Technology. (ICEAT 2013), April 4-6, Chennai, India.  
  5. Mukharjee, BB, Barai, SV (2013), Influence of Nano-Silica on Mechanical Properties of concrete. Proceedings of International Conference on Innovative Materials and Construction (ICIMC 2013), April 8-9 Chennai, India.
  6. Mukharjee, BB and Barai, SV (2013), Behaviour of Concrete Containing Recycled Coarse Aggregate and Nanosilica. Proceedings of National Conference on Recent Advances on Structural Engineering (RASE 2013), September 12-14, Hyderabad, India.
  7. Mukharjee, BB and Barai, SV (2013), Study of Compressive strength of Recycled Aggregate Concrete containing Nano-Silica using different sized specimens, Proceedings of 4th Nirma University International Conference on Engineering, November 28-30, Ahmedabad, India.
  8. Mukharjee, BB and Barai, SV (2014), Analysis of Compressive Strength of Sustainable Concrete Incorporating Nano-Silica and Recycled Aggregates, Proceedings of All  India  Seminar  on Innovations  in  Green  Building  Technology( IGBT 2014), January 17-18, Nagpur, India.
  9. Mukharjee, BB and Barai, SV (2014), Development of Sustainable and Ecofriendly Concrete Containing Nano-Silica and Recycled Coarse Aggregates, Proceedings of International Conference on Sustainable Civil Infrastructure, October 17-18, IIT Hyderabad, India.
  10. Patra R. K. and Mukharjee B. B. (2016), Influence on compressive strength of concrete with incorporation of Granulated Blast Furnace slag, 2nd International Conference on Innovative Trends in Mechanical and Civil Engineering ICITMC- 2016, PET Engineering College, Vallioor 10th June 2016.
  11. Jethy, B., Mukharjee, BB, Das, S.S. (2016) Effects of recycled fine aggregate on bituminious performance, Int. conf. in recent advances in mechanics and materials (ICRAMM-2016), VSSUT, Burla, 17th – 18th Dec 2016.
  12. Patra, R. K. Nayak, G. R., & Mukharjee, B. B. (2017), Mechanical properties of   concrete incorporating recycled coarse aggregates and fly ash, Proceedings of International Conference on Upcoming Researches in Engineering, Science & Business (ICURESB2017) On 21 & 22. April 2017, Organized By International Organization Of Scientific Research And Development (IOSRD), Hyderabad, India.
  13. Prusty, R., Mukharjee, B. B., & Barai, S. V. (2013). Mechanical Properties of Recycled Aggregate Concrete Containing Colloidal Nano-Silica Designed by Taguchi Method. International Journal of Civil Engineering and Applications, 3(5), 5-8.
  14. Mukharjee, B. B., & Barai, S. V. (2014). Influence of Nano-Silica on the Compressive Strength of Recycled Aggregate Concrete. International Journal of Civil Engineering and Applications, 3(2), 35-38.
  15. Mukharjee, B. B., & Barai, S. V. (2014). Compressive strength of nano-silica incorporated Recycled Aggregate Concrete. International Journal of Advanced Research in Civil, Structural, Environmental and Infrastructure Engineering and Developing, 2(1), pp. 22-28.
  16. Mukharjee, B. B., & Barai, S. V. (2014). Characteristics of mortars containing colloidal nano-silica. International Journal of Applied Engineering Research, 9(1), 17-22. (64529)
  17. Barik J., Patra, R. K. & Mukharjee, B. B. (2016). Properties of Cement Mortar Containing Recycled Fine Aggregate. Journal of Civil Engineering and Environmental Technology, 3 (7) 645-647.
  18. Nayak, G. R., Patra, R. K. & Mukharjee, B. B. (2016). Effect on Compressive Strength of Concrete Incorporating Recycled Aggregate Concrete With Fly Ash as Cement Replacement. International Journal of Innovations in Engineering, Research and Technology, (16), 127-130.
  19. Patra, R. K. & Mukharjee, B. B. (2016). Strength and Durability Properties of Concrete Incorporating Granulated Blast Furnace Slag. International Journal of Innovations in Engineering, Research and Technology, (16), 123-126.
  20. Patra, R. K. & Mukharjee, B. B. (2016). Influence of Strength Properties of Concrete with Incorporation of Granulated Blast Furnace Slag. Journal of Civil Engineering and Environmental Technology, 3(7), 642-644.
  21. Patra, R. K. & Mukharjee, B. B. (2016). Influence of Granulated Blast Furnace Slag on Compressive Strength of Concrete. Journal of Civil Engineering and Environmental Technology, 3(6), 540-543.
  22. Padhi R.S. & Mukharjee, B. B. (2017). Influence of Rice Husk Ash and Recycled Coarse Aggregates on Properties of Concrete, International Journal of Engineering Technology Science and Research, 4(6), 528-533. (44431)
  23. Padhi R.S. & Mukharjee, B. B. (2017). Effect of rice husk ash on compressive strength of recycled aggregate concrete. Journal of basic science and applied engineering research, 4(5), 356-359.
  24. Padhi R.S. & Mukharjee, B. B. (2017). Influence of Rice Husk Ash and Recycled Coarse Aggregates on Mechanical Properties of Concrete. International Journal of Engineering Technology, Management and Applied Sciences, 5(6), 237-242.
  25. Muduli, R., Kar T. & Mukharjee, B. B. (2018). Influence of Rice Husk Ash on Properties of Cement  Mortar. International Journal of Engineering Technology Science and Research (IJETSR),5(4),669-674.
  26. Muduli, R., & Mukharjee, B. B. (2018). Influence of Recycled Coarse Aggregate and Metakaolin on Properties of Concrete. Influence of Recycled Coarse Aggregate and Metakaolin on Properties of Concrete. International Journal of Engineering Technology Science and Research (IJETSR),5(4),649-655.
  27. Muduli, R., & Mukharjee, B. B. (2018). Effect of Metakaolin on Non-destructive Parameters of Recycled Aggregate Concrete. International Journal of Engineering Technology Science and Research (IJETSR),5(4),432-437.
  28. Muduli, R., & Mukharjee, B. B. (2018). Effect of Metakaolin on Compressive Strength of Recycled Aggregate Concrete, International Journal of Engineering Technology Science and Research (IJETSR),5(4),129-134.

Seminar/Symposia/Workshop/Conference/STC Organized

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Professional Affiliation

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Biju Patnaik University of Technology (BPUT)
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Phone : (0661) 2482556, Fax : (0661) 2482562,
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