Response of Buildings Exposed to Blast Load - Method Evaluation

Abstract: Due to accidental external explosions ,which is not handle in the Eurocodes, are structural designers looking for other ways to design loads for external loads due to explosions. This combined with lighter building structures is a reason to address the issues of analysing the dynamic behavior of buildings subjected to air blasts from these extreme situations. The structural designers analyze the structures dynamic effects from these attacks with advanced finite element programs. These analysis due to long designing and computational time are normally costly. To minimize this and still acquire adequate accuracy in the results, reduced models of the structure system could be used. The reduction method according to Rayleigh-Ritz could be a useful alternative. The purpose of this Master thesis is to investigate and develop dynamic models that combines sufficient accuracy with computational efficiency for structures effected by blast wave loads due to explosions. This is achieved by analysing two cases were the blast wave load is handled differently. First case handles the load as a triangular pulse load and the second case handles the load by transforming it into velocities according to the impulse and moment laws, and set as initial values when solving it as a free vibration problem. These cases are modeled in a full model and a model reduced with Ritz vectors. The results showed that the method of designing Ritz vectors according to deflections similar to the eigenshapes gave a satisfying output. The reduction of the equation system with the use of the chosen Ritz vectors showed satisfying values for frequencies and responses for the analyzed structure. The computing time were reduced to lower than 10\% with the use of 2 Ritz vectors for both analyzed cases.