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主管单位 中华人民共和国
工业和信息化部
主办单位 哈尔滨工业大学 主编 李隆球 国际刊号ISSN 0367-6234 国内刊号CN 23-1235/T

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引用本文:丁勇,王佩,游玖昂,诸葛萍.桥梁伸缩缝跳车冲击荷载计算方法与模型实验[J].哈尔滨工业大学学报,2020,52(3):129.DOI:10.11918/201807201
DING Yong,WANG Pei,YOU Jiuang,ZHUGE Ping.Numerical methods and model experiment for impact load induced by vehicle bumping at bridge expansion joint[J].Journal of Harbin Institute of Technology,2020,52(3):129.DOI:10.11918/201807201
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桥梁伸缩缝跳车冲击荷载计算方法与模型实验
丁勇1,2,王佩1,游玖昂1,诸葛萍1
(1.宁波大学 土木工程系, 浙江 宁波 315211; 2.桥梁工程结构动力学国家重点实验室(重庆交通科研设计院), 重庆 400067)
摘要:
为实测移动车辆对桥梁伸缩缝的冲击荷载,防止桥梁伸缩缝在这种冲击荷载作用下发生早期损坏,制作了缩尺比例为1/30的汽车与桥梁实验模型,进行模型汽车通过模型桥梁的实验研究. 针对车轮经过桥梁伸缩缝时,轮胎与路面的接触长度发生改变,提出了两种改进的伸缩缝跳车冲击力计算方法,分别为改进的假设轮底运动轨迹计算方法和改进的分布式弹簧-阻尼单元计算方法. 然后,通过数值计算与缩尺模型实验进行了结果比较. 最后,基于改进的分布式弹簧-阻尼单元,对三轴载重汽车对单缝式伸缩缝的冲击荷载进行了数值模拟与参数分析. 结果表明:改进算法得到的伸缩缝冲击荷载与实测值更为接近,冲击荷载算法有必要考虑轮胎与路面接触长度的改变;车轮荷载的最大冲击系数超过桥梁设计规范的容许值,通过调整伸缩缝的开口宽度可以将其控制在容许范围内.
关键词:  桥梁伸缩缝  冲击荷载  模型实验  接触长度  计算方法
DOI:10.11918/201807201
分类号:U441
文献标识码:A
基金项目:国家自然科学基金(51808301); 桥梁工程结构动力学国家重点实验室开放基金(201402); 浙江省自然科学基金(LY19E080009)
Numerical methods and model experiment for impact load induced by vehicle bumping at bridge expansion joint
DING Yong1,2,WANG Pei1,YOU Jiuang1,ZHUGE Ping1
(1.Department of Civil Engineering, Ningbo University, Ningbo 315211, Zhejiang, China; 2. State Key Laboratory of Bridge Engineering Structural Dynamic (Chongqing Communications Technology Research & Design Institute), Chongqing 400067, China)
Abstract:
To measure the impact load of moving vehicles on bridge expansion joint and avoid the early damage of bridge expansion joint under such impact, models of vehicle and bridge were constructed with a scale of 1/30, and the experimental study of the model vehicle passing through the model bridge was carried out. Considering the change of the contact length between the tire and the road when the wheel passes through the bridge expansion joint, two improved calculation methods for the impact load on the expansion joint were proposed, namely improved calculation method with hypothetical trajectory of tire bottom and improved calculation method based on the distributed spring-damper element. Then the numerical calculation was compared with the experimental results of the scale model. Finally, based on the improved distributed spring-damper element, the numerical simulation and parameter analysis of the impact load induced by three-axle heavy vehicle at single-gap expansion joint were carried out. Results show that compared with the previous method, the impact load of the expansion joint obtained by the improved calculation methods was closer to the measured value. Therefore, it is necessary to consider the change of the contact length between the tire and the road for the calculation of impact load. The maximum impact factor of the wheel load of heavy vehicle exceeded the allowable value of the bridge design specification, which can be controlled within the allowable range by adjusting the opening width of the expansion joint.
Key words:  bridge expansion joint  impact load  model experiment  contact length  calculation method

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