庞育阳

作者: 时间:2021-01-25 点击数:

庞育阳

基本信息

19877月生人,副教授,硕士生导师

20146月毕业于郑州大学获水工结构专业 硕士学位

20199月毕业于东南大学获土木工程专业 博士学位

联系电话:

联系邮箱:pang122096956@zzu.edu.cn

8e3277e2c0d73c409a81bbc2e36686c

社会兼职

1. 城市生命线工程安全专业专委会委员

2.   Composite structuresConstruction and Building Materials、复合材料学报等杂志审稿人。

研究领域

1. 纤维增强复合材料加固混凝土/钢结构及耐久性

2. 新型疏水水泥基材料

拟招生专业

1. 郑州大学/土木工程学院/081402结构工程

2. 郑州大学/土木工程学院/085900土木水利硕士(建筑与土木工程)/03(全日制)防灾减灾及防护工程

承担项目

1. 国家自然科学基金(青年)项目,52008377,荷载-冻融耦合作用下CFRP-钢界面性能提升及粘结-滑移退化模型,2021.01-2023.1224万元,主持在研。

2. 博士后面上项目,2021M692940,冻融环境下CFRP-钢改性界面粘结性能研究,2021.06-2023.068万元,主持结题。

发表论文

发表SCI/EI论文50余篇,第一作者/通讯作者27

[1] 庞育阳,吕远晨,王强. 氯盐侵蚀环境下液体橡胶改性CFRP-钢界面耐久性研究。复合材料学报 2023年(第一作者,EI

[2] Yuyang Pang, Qun Tang, Lin Yang, Qiang Wang, Haofei Li, Weiqian Lv, Runxin   Wang. Development of a hydrophobic cement mortar with controllable strength:   Preparation and micro-mechanism analysis. Construction and Building Materials   2023 403: 133216 (第一作者,SCI/EI,中科院1).

[3] Yuyang Pang, Zhenqi Li, Qiang Wang, Jianbing Hao, Li Gao, Qun Tang.   Durability of the liquid rubber-modified CFRP-steel interface under   freeze-thaw cycles. Polymer Composites 2023 1-15.(第一作者,SCI/EI,中科院2).

[3] Lin Yang, Yuyang   Pang, Xiaohui Chen, Qun Tang, Haoran Cui, Danying Gao, Mingke ChenEffect   of the stearic acid modified metakaolin on sulfate resistance of mortar based   on the experimental study and capillary theory analysis. Journal of Building   Engineering 2023 71: 106513 (通讯作者,SCI/EI,中科院2).

[4] Danying Gao,   Yajiang Guo, Yuyang Pang*, Gang Chen, Ming Shi, Chong Ding, Dongxu   Liu. Analysis and prediction of the compressive and splitting tensile   performances for the novel multiple hooked-end steel fiber reinforced   concrete. Structural Concrete 2023 : 1-19. (通讯作者,SCI/EI,中科院3).

[5] Yuyang   Pang, Zhenqi Li, Qiang Wang, Biao Qi. Effects of the liquid rubber   modified adhesive on the bond-slip response of the CFRP-steel interface.   Journal of Building Engineering 2023 66: 105857. (第一作者,SCI/EI,中科院2).

[6] Danying Gao   Lin Yang, Yuyang Pang*, Zhenqi Li, Qun Tang. Effects of a novel   hydrophobic admixture on the sulfate attack resistance of the mortar in the   wet-dry cycling environment. Construction and Building Materials 2022 344: 128148   (通讯作者,SCI/EI,中科院1).

[7] Hu Feng,   Junhao Liang, Yuyang Pang*, Xiangyu Zhao, Yongkang Wang, Shamim Ahmed   Sheikh. Effects of the fly ash and water glass on the mechanical properties   and water stability of the high ductile magnesium phosphate cement-based   composite. Construction and Building Materials 2022 333: 127395 (通讯作者,SCI/EI,中科院1).

[8] Yuyang   Pang, Gang Wu, Haitao Wang. Bond-slip parameter model of CFRP-steel   interface with the CFRP delamination failure. Composite structures 2021 256   113015 (第一作者,SCI/EI,中科院1).

[9] Yuyang   Pang, Gang Wu, Haitao Wang. Experimental study on the bond behavior of   the CFRP-Steel interface under rapid loading. Thin-wall structures 2021 159   107233 (第一作者,SCI/EI,   中科院2).

[10] Danying   Gao, Chong Ding, Yuyang Pang*, Gang Chen. An inverse analysis method   for multi-linear tensile stress-c再生骨料混凝土k opening relationship of 3D/4D/5D steel fiber reinforced   concrete. Construction and Building Materials 2021 290: 125074 (通讯作者,SCI/EI,中科院1).

[11] Hu Feng,   Lijun Lv, Yuyang Pang*, Chengfang Yuan , Liusheng Chu , Xiaocong Zhao.   Bond behavior between the nano-Al2O3-water-glass-modified   magnesium-phosphate-cement mortar and steel fiber. Construction and Building   Materials 2021 306: 124814 (通讯作者,SCI/EI,中科院1).

[12] Danying   Gao, Wenbin Li, Yuyang Pang*, Yunchao Huang. Behavior analysis and   strength prediction of steel fiber reinforced recycled aggregate concrete   column under axial compression. Construction and Building Materials 2021 290:   123278 (通讯作者,SCI/EI,中科院1).

[13] Hu Feng,   Shihao Shen, Yuyang Pang*, Danying Gao, Zhenyu Wang, M.Neaz Sheikh.   Mechanical properties of fiber and nano-Al2O3 reinforced magnesium phosphate   cement composite. Construction and Building Materials 2021 270 121861 (通讯作者,SCI/EI,中科院1).

[14] Danying   Gao, Zhiqiang Gu, Yuyang Pang*, Lin Yang. Mechanical properties of   recycled fine aggregate concrete incorporating different types of fibers.   Construction and Building Materials 2021 298: 123732 (通讯作者,SCI/EI,中科院1).

[15] Pu Zhang,   Jixing Yu, Yuyang Pang*, Jiajun Fan, Hui Guo, Zuanfeng Pan.   Experimental study on the mechanical properties of grouted sleeve joint with   the fiber-reinforced grouting material. Journal of Building Engineering 2021 41:   102691 (通讯作者,SCI/EI,中科院2).

[16] Pu Zhang,   Yi Hu, Yuyang Pang*, Shuangquan Zhang, Asad Zia, Danying Gao, Shamim   Ahmed Sheikh. Experimental study on the bond behavior of GFRP   plate-high-strength concrete composite interfaces under the coupled effects   of sustained load and seawater immersion. Structures 2021 30: 316-328 (通讯作者,SCI/EI,中科院3).

[17] Danying   Gao, Shaojie Dou, Yuyang Pang*, Jiyu Tang, Yiming Kong. Experiment   study on tensile properties of steel fiber reinforced mortar exposed to   elevated temperatures. Materials and Structures 2021 (通讯作者,SCI/EI,中科院3).

[18] Danying   Gao, Chong Ding, Yuyang Pang*, Lin Yang, Yunchao Huang, Jiyu Tang.   Diverse Angle-length-width Model for 3D/4D/5D Steel Fiber Reinforced Concrete   in Tension. Construction and Building Materials 2021 266 121149 (通讯作者,SCI/EI, 中科院1).

[19] Jiyu Tang,   Wei Ma, Yuyang Pang*, Jianchao Fan, Dongxu Liu, Liangping Zhao, Shamim   Ahmed Sheikh. Uniaxial compression performance and stress-strain constitutive   model of the aluminate cement-based UHPC after high temperature. Construction   and Building Materials 2021 309: 125173. (通讯作者,SCI/EI,中科院1).

[20] Yuyang   Pang, Gang Wu, Wang Haitao, Su Zhilong, He Xiaoyuan. Experimental Study   on the CFRP-Steel Interfaces based on CFRP Delamination Failures and Hybrid   Failures. Advances in Structural Engineering 2020 1-14 (SCI/EI,中科院4).

[21] Danying   Gao, Yongming Yan, Yuyang Pang*. Effect of groove on shear properties   of steel fiber recycled coarse aggregate concrete. Materials 2020 1-18 (通讯作者,SCI/EI,中科院3).

[22] Hu Feng,   Lijun Lv, Yuyang Pang*, Danying Gao, Zhenyu Wang, M.Neaz Sheikh.   Experimental study on the effects of the fiber and nano-Fe2O3   on the properties of the magnesium potassium phosphate cement composites.   Journal of Materials Research and Technology 2020 14307-14320 (通讯作者,SCI/EI,中科院2).

[23] Pu Zhang,   Yi Hu, Yuyang Pang*, Danying Gao, Qingfeng Xu, Shuangquan Zhang,   Shamim Ahmed Sheikh. Experimental Study on the Interfacial Bond Behavior of   FRP Plate-High-Strength Concrete under Seawater Immersion. Construction and   Building Materials 259 2020 119799 (通讯作者,SCI/EI,中科院1).

[24] Yuyang   Pang, Gang Wu*, Haitao Wang, Ye Liu. Interfacial Bond-Slip Degradation   Relationship between CFRP Plate and Steel Plate under Freeze-Thaw Cycles.   Construction and Building Materials 2019 214:242-253. (第一作者,SCI/EI,中科院1).

[25] Yuyang   Pang, Gang Wu*, Haitao Wang, Zhilong Su, Xiaoyuan He. Experimental study   on the bond behavior of CFRP-steel interfaces under quasi-static cyclic   loading. Thin-Walled Structures 2019 140:426-437 (第一作者,SCI/EI,中科院2).

[26] Yuyang Pang, Gang Wu*, Haitao Wang, Zhilong Su,   Xiaoyuan He. Experimental Study on the Bond Behavior of the CFRP-Steel   Interface Under the Freeze-Thaw Cycles. Journal of Composite Materials 2019   0:1-17. (第一作者,SCI/EI,中科院3).

专利

(1)庞育阳;高丹盈;祁彪;汤寄予;谷志强。FRP粘结性能的试验装置。2021.07.16,中国,ZL202022797306.8

(2)高丹盈;温方正;祁彪;庞育阳;谷志强。一种用于纤维复合材料曾建剪切性能的测试装置。2021.07.16,中国,ZL202022823467.3

(3)高丹盈;张雨;庞育阳;汤寄予。根据位移控制来量化生产FRP筋肋深的装置。2021.12.07,中国,ZL202022786934.6

(4)高丹盈;罗飞飞;庞育阳;唐群。精确控制钢纤维埋置深度的试验装置。2022.09.13,中国,ZL202220680529.2

(5)高丹盈;张市迎;庞育阳;李振奇。FRP加固钢构件界面长期持荷装置。2022.08.09,中国,ZL202220680533.9

(6)高丹盈;张雨;汤寄予;谷志强;庞育阳;房栋。用于FRP杆材试件端部锚固的固定装置及方法,2022.09.23,中国,ZL202100100205.

(7)高丹盈;张雨;汤寄予;谷志强;庞育阳;房栋。带有可伸缩蝶形夹具的FRP杆材端部锚固固定装置及方法,2022.09.20,中国,ZL202100100261.0.

(8)高丹盈;张雨;谷志强;房栋;庞育阳;汤寄予。具有拉伸延性和不同强度等级的HFRP杆的设计方法。2022.09.20,中国,ZL202110536703.6.

(9)高丹盈;张雨;房栋;庞育阳;汤寄予;温方正。一种可替代钢制材料的延性混杂纤维聚合物杆材的设计方法。2022.11.18,中国,ZL202011452578.2.

(10)高丹盈;庞育阳;莫飞;房栋;张普;朱海堂;赵科;汤寄予.新型 FRP 筋带螺堵粘结式锚具及其安装方法.发明授权

(11)高丹盈;庞育阳;莫飞;房栋;张普;赵军;赵科;汤寄予.新型 FRP 筋带螺纹粘结式锚具及其安装方法.发明授权

 

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