A Numerical Study on the Fire Performance of Straight Tenon Joints with Dowel

IF 1.7 4区 工程技术 Q3 ENGINEERING, CIVIL
Yong Wang, Jianhua Shao, Tingting Wang, Zhanguang Wang, ·Hongxuan Xu, Jing Huang
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Abstract

In order to investigate the fire resisting performance of straight tenon joints with dowel, the numerical model of wood joint about the temperature field was established by adopting the finite element method to achieve the temperature distribution at each component and essential section of this joint, which was verified to have the satisfactory agreement with the experimental results. The sequential coupling method was utilized to simulate the thermal–mechanical coupling field and the residual bearing capacity of straight tenon joints with dowel under high temperature was further analyzed. The stress nephogram used for determining the failure modes of joints under different high-temperature conditions was obtained from above numerical analysis, and the corresponding mechanical performance indexes of joints including the bending moment-rotation angle curve, rotational stiffness, yield and maximum bending moments under different temperatures were perfectly achieved. The analytical results show that the mechanical performance of joints is dramatically influenced by the incurred heating temperature, and the percentage of residual bearing capacity about the rotational stiffness, yield and maximum bending moments of joints decreases gradually with the increase of the maximum temperature.

Abstract Image

带榫头的直榫防火性能数值研究
为了研究带榫头直榫的耐火性能,采用有限元法建立了关于温度场的木接头数值模型,以实现该接头各组件和重要截面的温度分布,经验证与实验结果具有令人满意的一致性。利用顺序耦合法模拟了热机械耦合场,并进一步分析了带榫头的直榫在高温下的残余承载力。通过上述数值分析,得到了用于确定接头在不同高温条件下失效模式的应力线图,并完美地实现了接头相应的力学性能指标,包括不同温度下的弯矩-旋转角曲线、旋转刚度、屈服弯矩和最大弯矩。分析结果表明,接头的力学性能受加热温度的影响很大,接头的旋转刚度、屈服力和最大弯矩的残余承载力百分比随最高温度的升高而逐渐减小。
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来源期刊
CiteScore
3.30
自引率
11.80%
发文量
203
期刊介绍: The aim of the Iranian Journal of Science and Technology is to foster the growth of scientific research among Iranian engineers and scientists and to provide a medium by means of which the fruits of these researches may be brought to the attention of the world’s civil Engineering communities. This transaction focuses on all aspects of Civil Engineering and will accept the original research contributions (previously unpublished) from all areas of established engineering disciplines. The papers may be theoretical, experimental or both. The journal publishes original papers within the broad field of civil engineering which include, but are not limited to, the following: -Structural engineering- Earthquake engineering- Concrete engineering- Construction management- Steel structures- Engineering mechanics- Water resources engineering- Hydraulic engineering- Hydraulic structures- Environmental engineering- Soil mechanics- Foundation engineering- Geotechnical engineering- Transportation engineering- Surveying and geomatics.
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