A vehicle B-pillar fracture test method and system

Abstract

The invention discloses a vehicle B-pillar fracture test method and system, and relates to the field of vehicle safety. The method includes creating a vehicle collision simulation model and performing vehicle collision simulation to obtain the target intrusion amount of the B-pillar; The actual installation form in the car, design a test bench for crash test on the B-pillar, and create a B-pillar collision simulation model based on the designed test bench; perform collision simulation in the B-pillar collision simulation model, and adjust the collision speed , until the intrusion amount of the B-pillar in the collision simulation is equal to the target intrusion amount, and the collision speed at this time is taken as the target speed; the B-pillar to be tested is fixed on the designed test bench, and the trolley is driven to adopt the target speed for the test B The collision test is carried out on the pillar, and the deformation of the B-pillar to be tested during the entire collision test process is recorded at the same time. The present invention can effectively save vehicle R&D and manufacturing costs, and can also effectively improve the efficiency of B-pillar fracture investigation, saving time and effort.

Description

technical field [0001] The invention relates to the field of vehicle safety, in particular to a vehicle B-pillar fracture test method and system. Background technique [0002] In daily life, some traffic accidents often occur, and the B-pillar of the vehicle body breaks, causing casualties. In order to reduce casualties, vehicle safety regulations are also gradually tightened. At the same time, consumers' requirements for vehicle safety performance are also constantly improving, so the requirements for safety performance in vehicle body design are also getting higher and higher. However, in vehicle design It is difficult to accurately assess whether the B-pillar will break in the event of a collision. [0003] At present, mainstream car companies will establish a collision simulation model of the entire vehicle in the vehicle development stage to predict the collision performance of the B-pillar through simulation. However, this method still has the following disadvantages...

AI Technical Summary

Problems solved by technology

However, this method still has the following disadvantages: 1. It is difficult to accurately predict the fracture of the B-pillar in the simulation of the vehicle level. In the vehicle collision simulation, there are many factors that affect the accuracy of the simulation (such as the acquisition of simulation material parameters, such as Including glass, sheet metal, rubber and other materials), it is a great challenge for the simulation to truly simulate the failure of the fracture, and the calculation results of the models provided by different companies on the simulation platform will also be different, which will cause simulation and Deviation of test results; 2. If the prediction in the simulation stage is not accurate enough, and the B-pillar breaks in the vehicle crash test, due to the large number of parts involved, it is difficult to identify the main cause of the B-pillar break, which needs to be checked one by one. It will consume a lot of manpower and time; 3. If the B-pillar breaks in the vehicle crash test, the cost of rectification will be relatively high, usually involving the reopening of the B-pillar mold, increasing the R&D and manufacturing of the vehicle

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