赵龙龙,江苏泰州人,中共党员。主要从事结构实验室管理与相关课程实验课教学工作。发表学术论文30余篇,获得专利授权10余项,参与国自然面上项目5项,地方建筑行业科技计划项目3项,承担工程检测和科研相关横向技术咨询与服务项目若干。
生物质低碳材料结构
轻型组合结构
试验技术与方法
2013年6月毕业于南京林业大学,同年9月入职土木工程学院
《结构设计原理》、《混凝土结构设计》、《结构试验与检测》等课程的实验课。
国家自然科学基金
1.竹木集成材平行弦桁架的受力性能及设计方法研究(52178220)
2.超高性能混凝土长期水稳定性演化机理和预测模型研究(51978339)
3.新型FRP-钢复合管海水海砂混凝土柱受力性能及其基于可修复性的抗震设计方法(51778300)
4.重组竹非线性断裂性质特征物理量与断裂破坏准则研究(51778299)
5.自减振多壁碳纳米管超高性能混凝土制备及其阻尼调控机理研究(51678309)
南京建设行业科技计划项目
1.铝合金-木塑组合结构承载性能和设计理论研究(KS2207)
2.铝塑结构长期荷载作用下的强度理论与设计方法(KS2331)
3.FRP-销钉组合增强木结构榫卯节点抗震性能与设计方法研究(KS2428)
近年代表性论文:
1.Zhao L,Li H,Wei Y, et al.Flexural properties on aluminum alloy - wood plastic composite beam strengthened by concrete[J]. Construction and Building Materials, 139792.
2.Zhao L, Li H, Wei Y, et al.Experimental study on the axial compression performance of CFRP wrapped wood plastic composite hollow short columns,Thin-Walled Structures,2024,112887.
3.Zhang G, Zhu Y, Zhao L*. Effect of Temperature on the Uniaxial Tensile Properties of Wood Plastic Composites: Experimental Investigation and Numerical Analysis[J]. BioResources, 2024, 19(3).
4.Zhang G, Zhao L*, Zhao K, et al. Short term creep properties of WPC at different temperatures—An experimental and numerical investigation at different stress levels[J]. Polymer Composites, 2024, 45(12): 11480-11486.
5.Xi F, Zhao L*, Wei Y, et al. Effect of temperature on the bending and creep properties of wood plastic composites[J]. Polymer Composites, 2023, 44(8): 4612-4622.
6.Zhao L, Wei Y, Xi F, et al. Experimental investigation on the flexural behavior of aluminum alloy-reinforced wood plastic composite hollow members[J]Structures, 2023, 56: 104858.
7.Zhao L, Fei Xi D. Flexural performance of reinforced aluminum–wood–plastic composite beam: An experimental and numerical investigation[J]. Thin-Walled Structures, 2022, 180: 109910.
8.Xi F, Zhao L*. Experimental study of the compressive properties of a wood–plastic composite at different temperatures[J]. Polymer Composites, 2022, 43(10): 7372-7378.
9.Zhao L, Xi F, Wang Q, et al. Experimental Investigation and Parametric Analysis of the Mechanical Properties of Aluminum Alloy Thin‐Walled Hollow Columns under Axial Compression[J]. Advances in Materials Science and Engineering, 2022, 2022(1): 2717555.
10.Zhao L, Xi F, Wang G. Calculation model for uniaxial stress–strain relationship of wood plastic composites[J]. Polymer composites, 2021, 42 (12): 6664-6671.
11.Zhao L, Wei Y, Zhang G, et al. Short-term creep properties and creep mod el of wood-plastic composites[J]. Polymer composites, 2022, 43 (2): 924-933.
12.Zhao L, Xi F, Wang X. Mechanical performance of aluminum reinforced wood plastic composites under axial tension: an experimental and numerical investigation[J]. Journal of wood science, 2021, 67 (1): 1-8.
近年获得专利授权:
1.一种压缩试验中试件变形测量辅助系统 发明专利(1/3)
2.一种带预应力增强箱梁的装配式竹空心框架结构 发明专利(1/3)
3.一种双重钢板增强的带腹板的箱型木梁 实用新型专利(1/2)
4.一种压缩试验中试件变形测量辅助装置 实用新型专利 (1/3)
5. 一种纤维增强竹木复合CLT梁 实用新型专利 (1/4)
6.一种带“十”字增强支撑的木塑-铝多重复合柱 实用新型专利(4/4)
7. 一种轻骨料混凝土增强的木塑-铝组合梁 实用新型专利(4/4)
8. 一种具有隐形排水功能的横梁 实用新型专利(4/5)
9. 一种分段装配式带预应力增强的竹空心柱 实用新型专利(2/2)
10.一种带预应力增强箱梁的装配式竹空心框架结构 实用新型专利(3/4)
11. 一种基于螺栓连接的竹—钢组合箱梁 实用新型专利(4/4)
邮箱:nlzll@njfu.edu.cn
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