Unbonded Post Tensioned Concrete Slabs in Fire - Part I - Experimental Response of Unbonded Tendons under Transient Localized Heating

The fire-safe structural design and construction of unbonded post-tensioned (UPT) flat plate concrete structures has recently come under debate in the UK, and questions are being raised regarding the response to fire of post-tensioned concrete slabs. Related to these concerns is the real world response of continuous UPT tendons inside such structures both during and after a fire, which is largely unknown and depends on many potentially important factors which are not currently accounted for in standard fire tests. Several credible concerns exist for UPT concrete structures in fire, most notably the potential for premature tendon rupture due to localized heating which may result from a number of possible causes (discussed herein). The research presented in this paper deals specifically with the time-temperature-stress-strength interdependencies of stressed UPT tendons under localized transient heating, as may be experienced by tendons in a real UPT building in a real fire. Nineteen high temperature stress relaxation tests on UPT tendons of realistic length and parabolic longitudinal profile are reported. It is shown that localized heating of UPT tendons is likely to induce premature tendon rupture during fire, even in structures which meet the prescriptive concrete cover requirements imposed by available design codes.

[1]  Ehab Ellobody,et al.  Comparison of unbonded and bonded post-tensioned concrete slabs under fire conditions , 2009 .

[2]  G. E. Troxell Fire Resistance of a Prestressed Concrete Floor PanelCONCRETE FLOOR PANEL , 1959 .

[3]  C. G Bailey,et al.  Comparision of unbonded and bonded post-tensioned concrete slabs under fire conditions , 2009 .

[4]  Ehab Ellobody,et al.  Modelling of unbonded post-tensioned concrete slabs under fire conditions , 2009 .

[5]  Ehab Ellobody,et al.  Whole-building behaviour of bonded post-tensioned concrete floor plates exposed to fire , 2009 .

[6]  Guillermo Rein,et al.  Travel Guide (Travelling Fires) , 2009 .

[7]  T. H. B. Reinforced Concrete Design , 1912, Nature.

[8]  Luke Bisby,et al.  Experimental review of the homogeneous temperature assumption in post-flashover compartment fires , 2010 .

[9]  F. M. Bartlett,et al.  TESTS OF UNBONDED SEVEN-WIRE TENDON WITH BROKEN OUTER WIRES , 2003 .

[10]  Luke Bisby,et al.  Unbonded post tensioned concrete in fire: A review of data from furnace tests and real fires , 2011 .

[11]  Xiaomeng Hou,et al.  Experiment and Analysis on the Mechanical Behaviour of PC Simply-Supported Slabs Subjected to Fire , 2008 .

[12]  Ehab Ellobody,et al.  Fire tests on unbonded post-tensioned one-way concrete slabs , 2009 .

[13]  Luke Bisby,et al.  Fire Induced Transient Creep Causing Stress Relaxation and Tendon Rupture in Unbonded Post-Tensioned Structures: Experiments and Modeling , 2010 .

[14]  A. H. Gustaferro,et al.  FIRE RESISTANCE OF PRESTRESSED CONCRETE BEAMS - STUDY C: STRUCTURAL BEHAVIOR DURING FIRE TESTS , 1971 .

[15]  Luke Bisby,et al.  Transient high-temperature stress relaxation of prestressing tendons in unbonded construction , 2009 .

[16]  A W Beeby,et al.  CONCISE EUROCODE FOR THE DESIGN OF CONCRETE BUILDINGS. BASED ON BSI PUBLICATION DD ENV 1992-1-1: 1992. EUROCODE 2: DESIGN OF CONCRETE STRUCTURES. PART 1: GENERAL RULES AND RULES FOR BUILDINGS , 1993 .

[17]  Luke Bisby,et al.  Post-Fire Assessment of Unbonded Post-Tensioned Concrete Slabs: Strand Deterioration and Prestress Loss , 2007 .

[18]  John Gales,et al.  Transient High-Temperature Prestress Relaxation of Unbonded Prestressing Tendons for use in Concrete Slabs , 2009 .

[19]  Michael P. Collins,et al.  Development of the 2004 Canadian Standards Association (CSA) A23.3 shear provisions for reinforced concrete , 2006 .

[20]  T. Lennon,et al.  Full-scale fire tests on hollowcore floors , 2008 .

[21]  C G Bailey,et al.  Testing and modelling of bonded and unbonded post-tensioned concrete slabs in fire , 2008 .

[22]  John Purkiss,et al.  Concrete Design to EN 1992, Second Edition , 2006 .