Dieses Bild zeigt Hitesh Lakhani

Hitesh Lakhani

Herr M.Tech.

Wissenschaftlicher Mitarbeiter
Institut für Werkstoffe im Bauwesen
Befestigungs- und Verstärkungsmethoden

Kontakt

Pfaffenwaldring 4
70569 Stuttgart
Deutschland
Raum: 1.30

Fachgebiet

Baulicher Brandschutz

Zeitschriftenaufsätze:

  • Hitesh Lakhani, Tarinder Singh, Akanshu Sharma, G.R.Reddy, R.K.Singh, “Prediction of post fire load deflection response of RC flexural members using simplistic numeical approach”, Structural Engineering and Mechanics, Vol 50, Issue 6, 2014, 755-772
  • Hitesh Lakhani, Praveen Kamath, Pradeep Bhargava, Umesh K Sharma, G. R. Reddy, "Thermal Analysis of Reinforced Concrete Structural Elements", Journal of Structural Fire Engineering, Vol 4, Issue 4, 2013, 227-243
  • Hitesh Lakhani, Praveen Kamath, Pradeep Bhargava, Tarvinder Singh, G.R.Reddy, "Simulation of fire resistance of reinforced concrete structural members", Journal of Structural Engineering, Special Issue Vol 40, Issue 1, 2013, 7-11
  • Asif H. Shah, Umesh K. Sharma, Pradeep Bhargava, Praveen Kamath, G.R. Reddy, Tarvinder Singh, Hitesh Lakhani, “A full scale fire test on a pre-damaged RC framed structure”, Indian Concrete Journal, Vol 89, Issue 1, 2015, 2259-2274

Konferenzen:

  • Hitesh Lakhani, Tarinder Singh, Akanshu Sharma, G.R.Reddy, R.K.Singh, “Simplistic approach for evaluating the residual capacity of reinforced concrete beams after exposure to fire”, The Fourth International fib Congress, Mumbai, 2014
  • M Naga Sandeep, Hitesh Lakhani, Subhash C Yaragal, “Effect of boundary condition on performance of RC beam during fire”, 5 th International Congress on Computational Mechanics and Simulation (ICCMS), 10-13 December, India, 2014
  • Asif H. Shah, Umesh K. Sharma, Pradeep Bhargava, Praveen Kamath, G.R. Reddy, Tarvinder Singh, Hitesh Lakhani, “Influene of dutility on the behaviour of RC frames in post earthquake fire”, 8 th International conference on Structures in Fire Shanghai, China, 11-13 June, 2014
  • Hitesh Lakhani, Tarvinder Singh, G.R. Reddy, K.K.Vaze, "Response of Reinforced Concrete Columns under Fire Exposure”, Structural Engineering Convention(SEC-2012), 19-21 December, Surat, India, 2012
  • Hitesh Lakhani, Tarvinder Singh, G.R. Reddy, K.K.Vaze, "Evaluation of the Fire Resistance of Reinforced Concrete Beams", Structural Engineering Convention(SEC-2012), 19-21 December, Surat, India, 2012
  • Hitesh Lakhani, Praveen Kamath, Pradeep Bhargava, Tarvinder Singh, G.R.Reddy, "Simulation of Fire Resistance of Reinforced Concrete Structural Members", 4 th International Congress on Computational Mechanics and Simulation (ICCMS), 10-12 December, IIT Hyderabad, India, 2012
  • Hitesh Lakhani, Tarvinder Singh, G.R.Reddy, K.K.Vaze, "Analytical Methods for Determining Fire Resistance of Reinforced Concrete Members", 28th National Convention of Civil Engineers and National Seminar on Role of Infrastructure for Sustainable Development, 12-14 October, Roorkee, 2012

Thesis:

  • Hitesh Lakhani, “Response of RC elements exposed to fire”, Master Thesis, Indian Institute of Technology, Roorkee, India, 2011

Ausbildung:

  • 2009  Bachelor of Engineering "Civil Engineering" (with Honours), Jai Narain Vyas University,
             Jodhpur, Rajashtan, India
  • 2011  Masters of Technology "Civil Engineering" (Gold Medalist), Indian Institute of Technology (IIT),
             Roorkee, India

Berufserfahrung:

  • August 2011 - Dezember 2014    Scientific Officer of Bhaba Atomic Research Centre, Mumbai, India
  • Februar 2015 - bis heute             Scientific Researcher, Institute of Construction Materials, University of
                                                        Stuttgart Germany

Betreute Arbeiten:

  • M Naga Sandeep, "Performance of RC beams at elevated temperatures” (Completed: June 2014 at National Institute of Technology, Karnataka, India)
  • Sri Rama Krishna Kavukuru, “Bond behavior between concrete and rebar” (Completed: June 2014 at National Institute of Technology, Karnataka, India)
  • Bemessung von Stahlbetonkonstruktion unter Brandbeanspruchung
  • Inelastische Analyseverfahren für Stahlbetonkonstruktionen unter Brandbeanspruchung
  • Ermittlung der Resttragfähigkeit und Verstärken von Stahlbetonkonstruktionen nach Belastung durch hohe Temperaturen
  • Prüfung von Stahlbetonkonstruktionen und -bauteilen unter erhöhten Temperaturen
  • Verbundverhalten zwischen Bewehrung und Beton
  • Seismische Qualifizierung von Stahlbetonbauwerken
  • Ermittlung der Resttragfähigkeit und Verstärken von Mauerwerkskonstruktionen nach Brandbelastung
  • Numerische Modellierung von Baukonstruktionen unter extremer Beanspruchung
  • Verstärkungsmethoden
  • Befestigungstechnik
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