Mechanical Response Characteristics of Dynamic Vehicle-mounted Buried Polyethylene Gas Pipeline
Under vehicle-mounted action,buried polyethylene gas pipelines containing defects are prone to stress concentration,which will accelerate the damage of pipelines and lead to accidents.A three-dimensional nonlinear coupling model of vehicle-tube-soil was established,and the loading vehicle type was a dynamic vehicle.In addition to weight,internal pressure,and defect depth,the internal relationship between vehicle speed and pipeline mechanical response was also explored,and the ultimate road load under dif-ferent vehicle speeds and internal pressures was evaluated.The results show that the stress of pipes with defects is greater than that of pipes without defects.The soil weight can inhibit the effect of internal pressure on the pipeline to some extent.The maximum Mises stress of the pipeline is positively proportional to the defect depth coefficient,vehicle-mounted and internal pressure,and inversely proportional to the vehicle speed.The degree of influence on stress concentration of pipes with defects is as follows:internal pressure>defect depth>vehicle speed>vehicle speed.The ultimate load of the non-defective pipeline is higher than that of the defective pipeline,and the internal pressure has the greatest influence on the ultimate load of the defective pipeline,followed by the defect depth and speed.
defectpolyethylene gas pipelinecouplingdynamic vehicleultimate load
万方数据
维普
