| 集中荷载下钢木组合梁试验研究及有限元分析 |
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| 引用本文: | 张也,徐飞扬,杨鸿达,孟鑫淼,高颖. 集中荷载下钢木组合梁试验研究及有限元分析[J]. 北京林业大学学报, 2021, 43(8): 127-136. DOI: 10.12171/j.1000-1522.20210135 |
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| 作者姓名: | 张也 徐飞扬 杨鸿达 孟鑫淼 高颖 |
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| 作者单位: | 北京林业大学材料科学与技术学院,北京 100083;木材科学与工程北京市重点实验室,北京 100083;北京林业大学水土保持学院,北京 100083 |
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| 基金项目: | 国家重点研发计划(2017YFC0703503),国家自然科学基金项目(31770602) |
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| 摘 要: | [目的]用钢材替代工字型木梁的腹板部分以解决纯木梁腹板易剪切破坏、抗弯刚度低的问题,有助于减小构件尺寸,增加其在大跨度建筑中的应用.[方法]在H型钢上下翼缘各覆一层木材并使用螺栓连接制备组合梁.对11根组合梁开展三点弯曲试验,研究螺栓间距、剪跨比对组合梁破坏模式、刚度和承载力的影响.通过4个推出试验研究钢木界面滑移对组...
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| 关 键 词: | 钢木组合梁 剪跨比 螺栓间距 承载力 推出试验 有限元分析 |
| 收稿时间: | 2021-04-12 |
Experimental and numerical investigation of steel-timber composite beams under concentrated load |
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| Zhang Ye,Xu Feiyang,Yang Hongda,Meng Xinmiao,Gao Ying. Experimental and numerical investigation of steel-timber composite beams under concentrated load[J]. Journal of Beijing Forestry University, 2021, 43(8): 127-136. DOI: 10.12171/j.1000-1522.20210135 |
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| Authors: | Zhang Ye Xu Feiyang Yang Hongda Meng Xinmiao Gao Ying |
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| Affiliation: | 1.School of Material Science and Technology, Beijing Forestry University, Beijing 100083, China2.Beijing Key Laboratory of Wood Science and Engineering, Beijing 100083, China3.School of Soil and Water Conservation, Beijing Forestry University, Beijing 100083, China |
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| Abstract: | Objective Replacing the web of I-shaped timber beam with steel can solve the problems of web shear failure and low bending stiffness of bare timber beam. This helps to reduce the component size and increase its application in large-span buildings. Method The steel-timber composite (STC) beam was prepared by connecting two timber slabs on the H-shaped steel flanges with bolts. The influence of different bolt spacing and shear-span ratio on the structural behavior (failure modes, stiffness and load capacity) of STC beams were studied. Three-point bending tests were carried out on 11 STC beams. Four push-out tests were carried out to investigate steel-timber interface slip. Result The bending stiffness of the STC beams was 201% higher than that of the rectangular timber beam with the same section size. The steel upper flange was prone to buckle by concentrate load. Increasing the shear-span ratio, the failure converts from brittle to ductile, the initial failure transforms from top timber slab to bottom. Increasing the shear-span ratio or decreasing the bolt spacing, the bending stiffness was declined, the ductility coefficient was improved and the peak load decreased by more than 15%. The formulations of yield load and mid-span deflection considering interface slip between steel and timber were proposed, the error of most specimens was less than 10% between calculated and experimental results. In addition, referencing material properties and push-out test, the finite element models of STC beams were established. The errors between simulated and experimental values of bending stiffness and yield load were basically within 10%. Conclusion Steel used as the web can significantly improve the bending stiffness of beams and prevent shear failure of webs. Considering the interface slip, the theoretical calculation and simulation results of flexural performance of STC beams are accurate. |
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