| CPC B62D 27/026 (2013.01) [G06F 30/15 (2020.01); G06F 30/20 (2020.01)] | 8 Claims |
|
1. An automotive body adhesive bonding position optimization analysis method of obtaining an optimum position at which a parts set is adhesive-bonded with a structural adhesive in combination with welding, using a body structure model including parts constituted of two-dimensional elements and/or three-dimensional elements and having welding portions set in advance to which the parts are welded as the parts set, the optimization analysis method comprising:
generating, by a computer, an automobile model by connecting a chassis model to the body structure model to which equipment for door assembly or closure panels are set;
performing, by the computer, driving analysis of the automobile model so as to acquire, as a loading condition, a load and/or displacement caused at a connecting point of the body structure model with respect to the chassis model at the time of driving, orientation and magnitude of the load being different for each position of the connecting point;
disposing, by the computer, an adhesive element as the structural adhesive at a position on the body structure model as a candidate at which adhesive bonding is performed with the structural adhesive, wherein the adhesive element is disposed on the body structure model to which the equipment for door assembly or closure panels are set;
setting, by the computer based on an instruction from an operator, an optimization analysis condition including the loading condition applied to the body structure model in optimization analysis, to the body structure model on which the adhesive element is disposed, wherein the acquired loading condition is the loading condition to be applied to the body structure model in optimization analysis, the loading condition including the load of which orientation and magnitude is different for each position of the connecting point; and
performing, by the computer, optimization analysis, by using density method of topology optimization, while considering inertia force working on the equipment for door assembly or closure panels at the time of driving of the automobile based on an inertia relief method, on the adhesive element as an optimization analysis object in the body structure model to which the optimization analysis condition is set so as to obtain a position of the adhesive element satisfying the optimization analysis condition as the position at which adhesive bonding is performed with the structural adhesive, wherein discretization is performed with a penalty coefficient in topology optimization.
|