Development of a lamella-model to evaluate stresses caused by hot asphalt installation

ce/papers Pub Date : 2024-09-11 DOI:10.1002/cepa.3064

Damian Händeler, Achim Geßler, Kevin Wolters, Markus Feldmann

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Abstract

On road-bridges hot asphalt is installed to provide a level and waterproof surface. That wearing surface, however, needs occasional renewal. On a number of steel highway-bridges it has been observed that after such asphalt-renewal fatigue-cracks have increasingly occurred at the welds of orthotropic bridge-decks. The German Federal Highway Research Institute has assigned a research project to RWTH Aachen University to evaluate the response of steel-bridges to time- and location-dependent, nonlinear temperature profiles. Since FEM-software with the needed level of detailing could not provide solutions for long large-span bridges, a software-based lamella-model was developed. This model enables the partition of the bridge into rectangular beam-lamella, precisely considers the nonlinear temperature and calculates the inner forces and displacements along the bridge. This paper presents the theoretical background of the lamella-program as well as results calculated exemplary for a 742m-long German highway-bridge including validation with in situ temperature and strain measurements during asphalting.

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开发用于评估热沥青安装应力的薄片模型

在公路桥梁上安装热沥青是为了提供一个平整和防水的表面。然而，这种耐磨表面需要不时更新。在一些钢制公路桥梁上，人们发现，经过这种沥青更新后，正交桥面的焊缝处出现了越来越多的疲劳裂纹。德国联邦公路研究所向亚琛工业大学分配了一个研究项目，以评估钢桥对随时间和地点变化的非线性温度曲线的响应。由于具有所需详细程度的有限元软件无法为大跨度桥梁提供解决方案，因此开发了一种基于软件的薄片模型。该模型可将桥梁划分为矩形梁-薄片，精确考虑非线性温度，并计算桥梁沿线的内力和位移。本文介绍了薄片程序的理论背景，以及为一座 742 米长的德国高速公路桥梁计算的示例结果，包括在铺设沥青过程中通过现场温度和应变测量进行的验证。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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