CONCRETE ROAD BARRIER SUBJECTED TO IMPACT LOADS: AN OVERVIEW

Authors

  • HASAN JASIM MOHAMMED PHD CANDIDATE , CIVIL ENGINEERING-STRUCTURE. FACULTY OF ENGINEERING AND BUILT ENVIRONMENT, UNIVERSITI KEBANGSAAN MALAYSIA.
  • MUHAMMAD FAUZI BIN MOHD. ZAIN PROFESSOR ,FACULTY OF ENGINEERING AND BUILT ENVIRONMENT, UNIVERSITI KEBANGSAAN MALAYSIA.

Keywords:

CONCRETE BARRIERS, LS-DYNA SOFTWARE, SIMULATION, COLLISION ANGLE, COLLISION SPEED.

Abstract

CONCRETE BARRIERS PREVENT VEHICLES FROM ENTERING THE OPPOSITE LANE AND GOING OFF THE ROAD. AN IMPORTANT FACTOR IN THE DESIGN OF CONCRETE BARRIERS IS IMPACT LOAD, WHICH A VEHICLE EXERTS UPON COLLISION WITH A CONCRETE BARRIER. THIS STUDY SUGGESTS THAT A HEIGHT OF 813 MM, A BASE WIDTH OF 600 MM, AND A TOP WIDTH OF 240 MM ARE OPTIMUM DIMENSIONS FOR A CONCRETE BARRIER. THESE DIMENSIONS ENSURE THE STABILITY OF CONCRETE BARRIERS DURING VEHICLE COLLISIONS. AN ANALYTICAL AND EXPERIMENTAL MODEL IS USED TO ANALYZE THE CONCRETE BARRIER DESIGN. THE LS-DYNA SOFTWARE IS UTILIZED TO CREATE THE ANALYTICAL MODELS BECAUSE IT CAN EFFECTIVELY SIMULATE VEHICLE IMPACT ON CONCRETE BARRIERS. FIELD TESTS ARE CONDUCTED WITH A VEHICLE, WHEREAS LABORATORY TESTS ARE CONDUCTED WITH MACHINES THAT SIMULATE COLLISIONS. FULL-SCALE TESTS ALLOW THE ACTUAL SIMULATION OF VEHICLE COLLISIONS WITH CONCRETE BARRIERS. IN THE VEHICLE TESTS, A COLLISION ANGLE OF 25°, COLLISION SPEEDS OF MORE THAN 90 KM PER HOUR, AND A VEHICLE WEIGHING MORE THAN 2 T ARE CONSIDERED IN THE REVIEWED STUDIES. LABORATORY TESTS ARE PERFORMED TO TEST BRIDGE CONCRETE BARRIERS IN STATIC CONDITION.

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Published

2015-05-02

Issue

Vol 12, No 10 (2015)

Section

Articles

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