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Transcript of Roof Crush
Roof CrushME 8020
Siddhesh Ozarkar – fr8695
FMVSS No. 216 – ROOF CRUSH• FMVSS No. 216 seeks to reduce deaths and serious
injuries resulting from the roof being crushed and pushed into the occupant compartment when the roof strikes the ground during rollover crashes.• The standard currently applies to passenger cars, and
to multipurpose passenger vehicles, trucks and buses with a GVWR of 2,722 kilograms (6,000 pounds) or less.
SIGNIFICANCE OF ROOF CRUSH & IT’S CRITERIA• The standard requires that when a large steel test plate
is placed in contact with the roof of a vehicle and then pressed downward, simulating contact of the roof with the ground during a rollover crash, with steadily increasing force until
1. A force equivalent to 1.5 times the unloaded weight of the vehicle is reached
2. The distance that the test plate has moved from the point of contact must not exceed 127 mm (5 inches).
SIGNIFICANCE OF ROOF CRUSH ANALYSIS• Due to the complex nature of a rollover event and the
particularized effect of each element of the comprehensive and systematic approach taken by the agency to address these crashes, each element addresses a specific segment of the total rollover problem.
ROOF CRUSH ANALYSIS FOR PICK UP TRUCK- CHEVROLET SILVERADO• Modelling and cleanup of meshed truck model
Surface Model of TruckCleaned Meshed Model of Truck
Roof Crush Analysis Before Condition After Condition
Before Condition
After Condition
The effect of roof crush can be seen going though the panels and reinforcing members of the vehicle.
Design of Experiments (What If study) Outer Door Panels
Outward bulging of External Door Panels
What If Study Solution: 1. Use of High Strength Steel for structural Members shown
Max. Deflection: 142mm
Total Energy of Truck• As expected the total energy
shows a spike in the beginning during the occurrence of full contact.
• The total energy then is gradually a seen to be increasing.
Force vs DisplacementTruck Mass 1.5Tonne =1360kgWeight = 13600 N1.5*Weight = 20400N
Force Boundary
Displacement Boundary
Failed Structure zone
Failed Structure zone
Failed Structure zone
Pass Structure zone
ROOF CRUSH ANALYSIS FOR SEDAN CAR: DEFORMATION• Modelling and cleanup of meshed truck model
Roof Crush Analysis Before Condition After Condition
Before Condition
After Condition
Air Bag Deployed on Roof Impact
STRUCTURAL PERFORMANCE OF CAR AT SIMULATION END
Normal StructureA-B Pillar Displacement = 144 mmRoof Cross Member Displacement= 48mm Buckling Observed
What if Study: Use of DP 600 for structural Members
Total Energy of Car
Force vs Displacement
Failed Structure zoneFailed Structure zone
Pass Structure zone
Conclusion• The models of the truck and the car both satisfy the
criteria of the FMVSS 216.• Structural improvement is possible by utilizing high
strength DP- Steel properties in the structural members.
