Abstract
Reasonable fatigue load should be determined before bridge fatigue analysis. However, the design frequency calculation method of the standard vehicle does not always make sense when the standard vehicle load model that is provided by existing standards is adopted, as the weights (equivalent coefficients) variation of different vehicle types are not considered from the perspective of damage equivalence. The method through direct damage calculation is workable but the process is usually laborious and time-consuming. To solve this problem, the traffic data of 35 highway sites involving 15 provinces in China were collected and the fatigue load spectrum were derived. The equivalent coefficients of each vehicle type at all of the 35 locations were calculated directly and the relationship with the corresponding gross vehicle weight was obtained formulaically through statistical analysis. Therefore, the design frequency of the standard vehicle can be calculated by the product of the actual frequency for a certain type of vehicle and the corresponding equivalent coefficient. The effectiveness of the proposed method was verified from the perspective of damage equivalence compared with the existing-standard method, and its flexibility and applicability for complex traffic conditions such as China were also demonstrated. In addition, three grades for the design frequency were put forward as references in relevant project design.
Highlights
To overcome the limitation that results from such a traditional method, a new frequency calculation method will be developed in this paper that is based on fatigue damage equivalence while the single standard vehicle in Model III remains unchanged
When the standard fatigue vehicle load model is adopted in fatigue analysis, the fatigue load will probably be underestimated due to the limitation of the frequency calculation method that is recommended by the existing standard
In this paper, the fatigue vehicle load data of 35 highway sites involving 15 provinces in China were collected from weigh-in-motion (WIM) systems or existing research, and analysis and discussion were made from the perspective of fatigue damage equivalence
Summary
Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations. To overcome the limitation that results from such a traditional method, a new frequency calculation method will be developed in this paper that is based on fatigue damage equivalence while the single standard vehicle in Model III remains unchanged. After obtaining the equivalent coefficients, i.e., the ratio of fatigue damage between typical the representative vehicles and the standard fatigue vehicle, the mathematical relationship with the gross vehicle weight is given based on the statistical analysis On this basis, the weight of each typical representative vehicle can be determined through equivalent coefficients when the frequency of the standard vehicle is calculated by using the method that is proposed in this paper. Compared with the methods of optimizing standard vehicle configuration in other literature or that is recommended in the existing standards, the method that is proposed is more flexible and applicable, especially for the situation of China, whose territory is vast and the traffic characteristics among regions are significantly different
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