A NUMERICAL AND EXPERIMENTAL STUDY ON THE CRASH BEHAVIOR OF THE EXTRUDED ALUMINUM BOX WITH ELASTIC SUPPORT
Keywords:
THIN WALL STRUCTURE, ELASTIC SUPPORT, SQUARE TUBE, PEAK LOAD, ENERGY ABSORPTIONAbstract
THIN-WALLED STRUCTURES LIKE CRASH BOXES MAY BE USED AS ENERGY ABSORPTION MEMBERS IN AUTOMOTIVE CHASSIS.  A CONSIDERABLE BODY OF RESEARCH INTO THE BEHAVIORS OF ENERGY ABSORPTION MEMBERS ON FRONTAL CRASH HAS BEEN CONDUCTED. THESE RESEARCHES HAVE ATTEMPTED TO PREDICT THE ENERGY ABSORPTION AND MAXIMUM IMPACT LOAD IN SHELL STRUCTURES. THE ENERGY ABSORPTION AND MAXIMUM IMPACT LOAD DEPEND ON MANY PARAMETERS INCLUDING BOUNDARY CONDITION, HISTORY OF PLASTIC DEFORMATION DURING METALWORKING, GEOMETRY; AND MATERIAL AND IMPACT ENERGY (I.E. MASS AND VELOCITY OF THE STRIKER). THIS STUDY EXAMINES THE CRASH BEHAVIOR OF SQUARE TUBE MADE OF THE EXTRUDED ALUMINUM ALLOY 6063T4,., USING AN ELASTIC BOUNDARY CONDITION -INSTEAD OF RIGID BOUNDARY CONDITION- ON THE BOTTOM OF A CRASH BOX, THE STRESS-STRAIN SENSITIVITY EFFECT ON BOX BEHAVIOR DURING A CRASH WAS CONSIDERED. IN ADDITION, THE EFFECT OF ELASTIC BOUNDARY CONDITION ON ENERGY ABSORPTION OF SQUARE TUBES UNDER THE IMPACT LOAD WAS INVESTIGATED BOTH NUMERICALLY AND EXPERIMENTALLY. RESULTS SHOWED THAT USING ELASTIC BOUNDARY COULD CHANGE THE DEFORMATION MODE AND DECREASE THE MAXIMUM IMPACT LOAD. FURTHER, THE WERE BY A HIGH CORRELATION BETWEEN THE NUMERICAL AND EXPERIMENTAL RESULTS VALIDATED THE FINDINGS OF THE STUDY.
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