An experimental evaluation to determine the required thickness of passive fire protection layer for high strength concrete tunnel segments

Abstract

The Eurasia Tunnel is a part of the Bosporus Strait Highway Crossing Project connecting the Anatolian and European shores of Istanbul. This paper evaluates the use of high strength concrete for the segments for the bored part of the tunnel under the effects of design fire conditions. High strength concrete enables the attainment of high early strength levels required for segment handling and increases the segment durability compared to segments designed by ordinary strength concrete. However, in the event of a tunnel fire, the increased concrete strength of the segments increases their likelihood of spalling compared to segments fabricated by ordinary strength concrete. Therefore, determination of the passive fire protection requirements must take into account the strength of the protected concrete. This paper will present and include a discussion of the results of small-scale fire exposure tests conducted to determine the required thickness of passive fire protection layer for the evaluated high strength concrete tunnel segments. (C) 2015 Elsevier Ltd. All rights reserved.