内压作用下纤维混凝土预应力安全壳破坏机理研究
Study on Failure Mechanism of Fiber‑reinforced Prestressed Concrete Containments under Internal Pressure
- 防灾减灾工程学报 2023年43卷第3期 页码:502-507
- 作者机构:
太原理工大学土木工程学院,山西 太原 030024
- 作者简介:
孙晔(1997-),男,硕士研究生。主要从事纤维混凝土安全壳性能研究。E-mail: sunye199709@163.com
郑志(1986-),男,副教授,硕导,博士。主要从事核电厂安全壳抗震性能研究。E-mail: zhengzhi @tyut.edu.cn
- 基金信息:国家自然科学基金项目(51908397);山西省青年科技研究基金项目(201901D211025);中国博士后科学基金项目(2019M651075;2020M670695)
DOI:
中图分类号: TU378.8收稿:2021-11-11,
修回:2021-12-08,
纸质出版:2023-06-28
- 稿件说明:
移动端阅览
孙晔,郑志,苏春阳等.内压作用下纤维混凝土预应力安全壳破坏机理研究[J].防灾减灾工程学报,2023,43(03):502-507.
SUN Ye,ZHENG Zhi,SU Chunyang,et al.Study on Failure Mechanism of Fiber‑reinforced Prestressed Concrete Containments under Internal Pressure[J].Journal of Disaster Prevention and Mitigation Engineering,2023,43(03):502-507.
摘要
核电厂安全壳作为防止核放射性物质泄漏的最后一道屏障,提升安全壳的承载力尤为重要。大量研究显示纤维混凝土在力学性能、耐久性等方面具有显著优势,为了探究纤维混凝土在安全壳结构上的适用性并准确描述内压作用下纤维混凝土预应力安全壳的破坏机理,利用ABAQUS有限元软件,建立钢纤维、钢聚丙烯纤维、钢聚乙烯醇纤维增强安全壳精细化模型,施加内压荷载进行有限元分析。结果表明:(1) 纤维混凝土安全壳破坏机理及变形规律与普通混凝土安全壳类似,混凝土中不同纤维的掺入均能有效延缓混凝土裂缝出现的时间,抑制裂缝开展的速度,减少钢衬里塑性损伤,大幅提升安全壳的极限内压。(2) 钢纤维具有最佳的增强效果,但恶劣的服役环境下混杂纤维值得优先考虑。(3) 局部替换纤维混凝土尤其是洞口区域附近,更有利于保持安全壳结构经济性与安全性的平衡。
Abstract
The containment vessel of a nuclear containment is the last barrier to prevent the leakage of radioactive materials from a nuclear power plant. It is particularly important to enhance the bearing capacity of the containments in nuclear power plants. Numerous studies have shown that fiber-reinforced concrete has significant advantages in terms of mechanical properties and durability. To authenticate the applicability of the fiber-reinforced concrete and accurately determine the failure mechanism of the fiber-reinforced prestressed concrete containment vessels, finite element models of the containment structure are constructed using ABAQUS code, which are reinforced with different types of fibers including steel fiber, steel polyvinyl alcohol (S-PVA) hybrid fiber, and steel polypropylene (S-PP) fiber. Their responses are analyzed under the internal pressure. The results demonstrate that: (1) The deformation and failure modes of fiber-reinforced concrete containments were similar to those of conventional concrete containments. Incorporating different fibers in concrete can effectively postpone the onset of concrete cracks, inhibit the development speed of cracks, reduce the plastic damage to the steel liner, and greatly increase the ultimate internal pressure of the containment. (2) Steel fiber has the best reinforcement effect, but hybrid fibers should be given priority in adverse service environments. (3) Implementing a partial replacement of fiber-reinforced concrete, especially near the equipment hatch holes, is more conducive to maintaining the balance between the economic and safety aspects of the containment structure.
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references
王海洋 , 荣健 . 碳达峰、碳中和目标下中国核能发展路径分析 [J]. 中国电力 , 2021 , 54 ( 6 ): 86 - 94 .
Wang H Y , Rong J . Analysis on China's nuclear energy development path under the goal of peaking carbon emissions and achieving carbon neutrality [J]. Electric Power , 2021 , 54 ( 6 ): 86 - 94 . (in Chinese)
Prinja N K , Shepherd D , Curley J . Simulating structural collapse of a PWR containment [J]. Nuclear Engineering & Design , 2003 , 235 ( 17-19 ): 2033 - 2043 .
薛荣军 , 王洪良 , 褚濛 , 等 . 预应力安全壳内压作用下的有限元研究 [J]. 建筑结构 , 2018 , 48 ( 8 ): 77 - 82 .
Xue R J , Wang H L , Chu M , et al . Finite element research on prestressed concrete containment under inter pressure [J]. Building Structure , 2018 , 48 ( 8 ): 77 - 82 . (in Chinese)
Mukherjee A , Joshi M . FRPC reinforced concrete beam-column joints under cyclic excitation [J]. Composite Structures , 2005 , 70 ( 2 ): 185 - 199 .
Afroughsabet V , Biolzi L , Ozbakkaloglu T . High-performance fiber-reinforced concrete: a review [J]. Journal of Materials Science , 2016 , 51 ( 14 ): 6517 - 6551 .
Triantafyllou G G , Rousakis T C , Karabinis A I . Corroded RC beams patch repaired and strengthened in flexure with fiber-reinforced polymer laminates [J]. Composites Part B Engineering , 2017 , 112B(Mar.): 125 - 136 .
Choun Y S , Park J . Evaluation of seismic shear capacity of prestressed concrete containment vessels with fiber reinforcement [J]. Nuclear Engineering & Technology , 2015 , 47 ( 6 ): 756 - 765 .
Choun Y S , Park H K . Containment performance evaluation of prestressed concrete containment vessels with fiber reinforcement [J]. Nuclear Engineering and Technology , 2015 , 47 ( 7 ): 884 - 894 .
混凝土结构设计规范 : GB 50010—2002 [S]. 北京 : 中国建筑工业出版社 , 2002 .
高丹盈 . 钢纤维混凝土拉伸应力应变关系的试验研究 [J]. 水力发电 , 1991 ( 11 ): 54 - 58 .
Gao D Y . Experimental study on the relationship between tensile stress and strain of steel fiber reinforced concrete [J]. Hydroelectric Power , 1991 ( 11 ): 54 - 58 . (in Chinese)
焦楚杰 , 孙伟 , 秦鸿根 , 等 . 钢纤维高强混凝土单轴受压本构方程 [J]. 东南大学学报:自然科学版 , 2004 , 34 ( 3 ): 366 - 369 .
Jiao C J , Sun W , Qin H G , et al . Constitutive equation of SFRHSC under uniaxial compression [J]. Journal of Southeast University: Natural Science Edition , 2004 , 34 ( 3 ): 366 - 369 . (in Chinese)
钟光淳 , 周颖 , 肖意 . 钢-聚乙烯醇混杂纤维混凝土单轴受力应力-应变曲线研究 [J]. 工程力学 , 2020 , 37 ( 增1 ): 111 - 120 .
Zhong G C , Zhou Y , Xiao Y . Stress-strain behavior of steel-polyvinyl alcohol hybrid fiber reinforced concrete under axial compression and tension [J]. Engineering Mechanics , 2020 , 37 ( Sup1 ): 111 - 120 . (in Chinese)
Yin C , Xu L , Zhang Y . Experimental study on hybrid fiber‑reinforced concrete subjected to uniaxial compression [J]. Journal of Materials in Civil Engineering , 2014 , 26 ( 2 ): 211 - 218 .
徐礼华 , 梅国栋 , 黄乐 , 等 . 钢-聚丙烯混杂纤维混凝土轴心受拉应力-应变关系研究 [J]. 土木工程学报 , 2014 , 47 ( 7 ): 35 - 45 .
Xu L H , Mei G D , Huang L , et al . Study on uniaxial tensile stress-strain relationship of steel-polypropylene hybrid fiber reinforced concrete [J]. China Civil Engineering Journal , 2014 , 47 ( 7 ): 35 - 45 . ( in Chinese)
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