混凝土梁疲劳致力磁效应及数值模拟方法

doi:10.11896/cldb.24010127

材料导报

2025, Vol. 39

Issue (1): 24010127-9 https://doi.org/10.11896/cldb.24010127

无机非金属及其复合材料

混凝土梁疲劳致力磁效应及数值模拟方法

金伟良^1,2, 刘振东^1,2, 张军^2,*

1 浙江大学结构工程研究所, 杭州 310058
2 浙大宁波理工学院土木建筑工程学院, 浙江宁波 315100

Magneto-Mechanical Effect and Numerical Simulation Method for Fatigue of Concrete Beams

JIN Weiliang^1,2, LIU Zhendong^1,2, ZHANG Jun^2,*

1 Institute of Structural Engineering, Zhejiang University, Hangzhou 310058, China
2 School of Civil Engineering and Architecture, Ningbo Technological University, Ningbo 315100, Zhejiang, China

摘要
参考文献
相关文章
推荐阅读
Metrics

下载:

全文 ( PDF ) ( 6524KB )
输出: BibTeX | EndNote (RIS)

摘要根据铁磁材料的力磁效应机制,分析了四种典型力磁模型的特点。通过对比受弯混凝土梁在静力加载阶段的力磁效应数值模拟结果,发现使用表征宏观磁学属性的应力-矫顽力关系具有较好的适用性。基于高应力阶段磁效应衰减机理,建立了混凝土梁疲劳阶段的力磁模型,并进行了受弯混凝土梁疲劳致力磁效应的数值模拟,探究特征磁信号与疲劳寿命之间的关系。研究结果表明:修正后的力磁模型在静力加载阶段呈三阶段变化规律,与试验结果一致,且模拟误差在8%左右;疲劳阶段模拟力磁的时变曲线与试验结果变化规律相一致,误差在15%以内;建立了混凝土梁疲劳寿命与特征磁信号的映射关系式,计算结果与试验结果基本吻合,可以作为受弯混凝土梁疲劳寿命的预测模型。

	服务
	把本文推荐给朋友
	加入引用管理器
	E-mail Alert
	RSS
	作者相关文章
	金伟良
	刘振东
	张军

关键词: 混凝土梁疲劳损伤磁效应力磁模型疲劳寿命

Abstract: The characteristics of four typical magneto-mechanical models were analyzed based on the magneto-mechanical effect mechanism of ferromagnetic materials. By comparing the numerical simulation results of the magneto-mechanical effect in the static loading stage of a flexural concrete beam, it was found that the stress-coercive force relationship representing macroscopic magnetic properties exhibited good applicability. A magneto-mechanical model suitable for the fatigue stage of concrete beams was established based on the decay mechanism of the magneto-mechanical effect under high stress levels, and numerical simulations of the magneto-mechanical effect in fatigue-induced flexural concrete beams were conducted to investigate the correlation between characteristic magnetic signals and fatigue life. The research results showed that the modified magneto-mechanical model exhibited a three-stage variation pattern in the static loading stage, consistent with experimental results, with a simulation error of approximately 8%. The simulated magneto-mechanical time-varying curve in the fatigue stage showed a consistent variation pattern with experimental results, with an error within 15%. A mapping relationship equation between fatigue life and characteristic magnetic signals in flexural concrete beams was established, and the calculated results were in good agreement with experimental results, serving as a predictive model for fatigue life in flexural concrete beams.

Key words: concrete beam fatigue damage magneto-mechanical effect magneto-mechanical model fatigue life

出版日期: 2025-01-10 发布日期: 2025-01-10

ZTFLH:

TU375

基金资助: 国家自然科学基金重点国际(地区)合作研究项目(51820105012;51278459);浙江省自然科学基金项目(LY23E080005);宁波市自然科学基金重点项目(2023J041)

通讯作者: *张军,副教授、博士、硕士研究生导师。现任浙大宁波理工学院土木建筑工程学院滨海工程结构与材料研究所副所长,浙江大学、浙江理工大学和河南工业大学硕士研究生导师。主要研究方向为混凝土结构耐久性能与疲劳性能。zj@nit.zju.edu.cn

作者简介: 金伟良,教授、博士、博士研究生导师。主要从事工程结构全寿命分析(含可靠性和可持续性)、混凝土结构基本性能(含耐久性、长期性能)、砌体结构等方面的研究工作。

引用本文:

金伟良, 刘振东, 张军. 混凝土梁疲劳致力磁效应及数值模拟方法[J]. 材料导报, 2025, 39(1): 24010127-9.
JIN Weiliang, LIU Zhendong, ZHANG Jun. Magneto-Mechanical Effect and Numerical Simulation Method for Fatigue of Concrete Beams. Materials Reports, 2025, 39(1): 24010127-9.

链接本文:

https://www.mater-rep.com/CN/10.11896/cldb.24010127 或 https://www.mater-rep.com/CN/Y2025/V39/I1/24010127

1 Jin W L, Zhang J. Fatigue of concrete structure and its magnetic effect, Zhejiang University Press, China, 2022(in Chinese).
金伟良, 张军. 混凝土结构疲劳及其磁效应, 浙江大学出版社, 2022, pp. 16.
2 National Standard:Technical standard for in-situ inspection of concrete structure. GB/T 50784-2013.
国家标准:《混凝土结构现场检测技术标准[附条文说明]》GB/T 50784-2013.
3 Putterman S. A physicist links magnetism, force and fatigue. Nature, 2008, 454(7202), 257.
4 Jin W L, Zhang J, Chen C S, et al. Journal of Building Structures, 2016, 37(4), 133(in Chinese).
金伟良, 张军, 陈才生, 等. 建筑结构学报, 2016, 37(4), 133.
5 Zhang K. Study on fatigue crack growth behavior of corrected reinforced concrete structures corroded on weak magnetic effect. Ph. D. Thesis. Zhejiang University, China, 2022(in Chinese).
张凯. 基于弱磁效应腐蚀钢筋混凝土结构疲劳裂纹扩展行为研究. 博士学位论文, 浙江大学, 2022.
6 Huang S. Study on the fatigue behavior and piezomagnetic effect of reinforced concrete beams after corrosion and sustained loading. Master's Thesis, Zhejiang University, China, 2022 (in Chinese).
黄爽. 锈蚀及持荷作用后钢筋混凝土梁疲劳性能及压磁效应研究. 硕士学位论文, 浙江大学, 2022.
7 Xiang K X. The research on fatigue similarity of reinforced concrete beams based on piezomagnetism effect. Master's Thesis, Zhejiang University, China, 2022 (in Chinese).
项凯潇. 基于压磁效应的钢筋混凝土梁疲劳相似性研究. 硕士学位论文, 浙江大学, 2017.
8 Gao Z G Su S Q, Wang W, et al. Journal of Xi'an University of Science and Technology, 2019, 39(4), 626(in Chinese).
高志刚, 苏三庆, 王威, 等. 西安科技大学学报, 2019, 39(4), 626.
9 Wang S L, Wang W, Su S Q. Journal of Xi'an University of Science and Technology, 2005(3), 288(in Chinese).
王社良, 王威, 苏三庆. 西安科技大学学报, 2005(3), 288.
10 Doubov A A. Welding in the World, 1998, 41(3), 196.
11 Yang L J, Sun H L, Gao S W, et al. Nondestructive Testing, 2018, 40(3), 5(in Chinese).
杨理践, 孙宏亮, 高松巍, 等. 无损检测, 2018, 40(3),5.
12 Zhang J. Experimental study on fatigue performance of reinforced concrete structures based on piezomagnetism effect. Ph. D. Thesis. Zhejiang University, China, 2017 (in Chinese).
张军. 基于压磁效应的钢筋混凝土结构疲劳性能试验研究. 博士学位论文, 浙江大学, 2017.
13 Xiao W Q. Experimental study on shear fatigue properties of reinforced concrete beams. Master's Thesis, Zhejiang University, China, 2018 (in Chinese).
肖卫强. 钢筋混凝土梁剪切疲劳性能试验研究. 硕士学位论文, 浙江大学, 2022.
14 Ma H X, Zhou J T, Zhao R Q, et al. Journal of Jiangsu University (Na-tural Science Edition), 2018, 39(3), 349 (in Chinese).
马惠香, 周建庭, 赵瑞强, 等. 江苏大学学报(自然科学版), 2018, 39 (3), 349
15 Yang B H, Weng X Z, Fu J, et al. Materials Reports, 2015, 29 (22), 119(in Chinese).
杨博瀚, 翁兴中, 付婕, 等. 材料导报, 2015, 29(22), 119.
16 Xie L H, Li J H. ANSYS Electromagnetic Field Analysis, Electronic Industry Press, China, 2015, pp.46 (in Chinese).
谢龙汉, 李杰鸿. ANSYS电磁场分析, 电子工业出版社, 2015, pp. 46.
17 Wang Q, Wei J, Liu X C. Journal of Central South University (Science and Technology), 2016, 47(1), 247(in Chinese).
王青, 卫军, 刘晓春. 中南大学学报(自然科学版), 2016, 47(1), 247.
18 Feng X F. Research on the fatigue performance of partially prestressed concrete beams with hybrid reinforcement. Ph. D. Thesis, Dalian University of Technology, China, 2005(in Chinese).
冯秀峰. 混合配筋部分预应力混凝土梁疲劳性能研究. 博士学位论文, 大连理工大学, 2005.
19 Ren X H, Sun X, Li D W, et al. China Test, 2018, 44(3), 16(in Chinese).
任旭虎, 孙晓, 李德文, 等. 中国测试, 2018, 44(3), 16.
20 Bai S Z. Research on the evolution of piezomagnetic field of deep sea pipeline steel under cyclic tensile load. Master's Thesis, Zhejiang University, China, 2019 (in Chinese).
柏树壮. 循环拉伸荷载作用下深海管线钢压磁磁场演变规律研究. 硕士学位论文, 浙江大学, 2019.

[1]	冷建成, 赵雷, 张新, 许宏伟. 基于磁记忆在线监测的再制造毛坯疲劳寿命预测方法[J]. 材料导报, 2025, 39(2): 23040250-6.
[2]	王超, 宋立昊, 孙彦广, 宫官雨. 道路沥青疲劳与断裂特性研究进展及发展趋势[J]. 材料导报, 2024, 38(9): 22090197-9.
[3]	闫凯, 张倩, 黄彬超, 张鑫. 火灾下活性粉末混凝土梁斜截面承载性能研究[J]. 材料导报, 2024, 38(9): 22110018-8.
[4]	冯炜森, 杨成鹏, 贾斐. 复合材料层压板疲劳损伤演化模型的综述与评估[J]. 材料导报, 2024, 38(9): 22100058-11.
[5]	汪愿, 孙运刚, 符彬, 刘文浩, 宣善勇, 刘鹏. 基于VARI工艺的碳纤维复合材料快速修理飞机铝合金裂纹的研究[J]. 材料导报, 2024, 38(6): 22020135-6.
[6]	梁宁慧, 毛金旺, 游秀菲, 刘新荣, 周侃. 多尺度聚丙烯纤维混凝土弯曲疲劳寿命试验及数值模拟[J]. 材料导报, 2024, 38(4): 22040023-8.
[7]	金浏, 杨健, 吴洁琼, 杜修力. 考虑混凝土细观非均质性的钢筋混凝土结构疲劳寿命预测概率模型[J]. 材料导报, 2024, 38(20): 23090009-8.
[8]	邱飒蔚, 雷贝, 叶拓, 张越, 蒋家传, 王涛. 铝合金自冲铆疲劳性能及寿命预测[J]. 材料导报, 2024, 38(18): 24030108-7.
[9]	杨志强, 李化建, 温家馨, 董昊良, 易忠来, 黄法礼, 王振. 高速铁路无砟轨道水泥基材料与结构的疲劳损伤及服役寿命综述[J]. 材料导报, 2023, 37(S1): 22100219-8.
[10]	房辰泽, 郭乃胜, 蒋继望, 冷真, 李辉, 陆国阳, 王昊鹏. 加载次序对沥青混合料疲劳损伤累积的影响[J]. 材料导报, 2023, 37(24): 22080209-6.
[11]	张吉哲, 郭晨晨, 胡学亮, 何亮, 吕鑫, 樊超, 姚占勇. 富油沥青砂浆再生设计与性能恢复规律研究[J]. 材料导报, 2023, 37(24): 22100098-7.
[12]	陈宗平, 黎盛欣, 周济, 戴上秦. 海洋环境GFRP筋海水海砂混凝土梁受力性能试验及承载力计算[J]. 材料导报, 2023, 37(20): 22040207-10.
[13]	何峻峰, 江胜华, 孙伟贺, 王廉强. 拉伸荷载作用下桥梁拉索钢丝/钢筋的力-磁效应研究[J]. 材料导报, 2023, 37(13): 21120159-8.
[14]	杨荣周, 陈佩圆, 葛进进, 徐颖, 王佳, 刘家兴, 谢昊天. 增幅循环荷载下CFRP约束型橡胶砂浆的疲劳特征[J]. 材料导报, 2022, 36(9): 21040223-10.
[15]	吴涛, 姚卫星, 黄杰. 纤维增强树脂基复合材料超高周疲劳研究进展[J]. 材料导报, 2022, 36(6): 20050117-9.

[1]	Wei ZHOU, Xixi WANG, Yinlong ZHU, Jie DAI, Yanping ZHU, Zongping SHAO. A Complete Review of Cobalt-based Electrocatalysts Applying to Metal-Air Batteries and Intermediate-Low Temperature Solid Oxide Fuel Cells[J]. Materials Reports, 2018, 32(3): 337 -356 .
[2]	Dongyong SI, Guangxu HUANG, Chuanxiang ZHANG, Baolin XING, Zehua CHEN, Liwei CHEN, Haoran ZHANG. Preparation and Electrochemical Performance of Humic Acid-based Graphitized Materials[J]. Materials Reports, 2018, 32(3): 368 -372 .
[3]	Yunzi LIU,Wei ZHANG,Zhanyong SONG. Technological Advances in Preparation and Posterior Treatment of Metal Nanoparticles-based Conductive Inks[J]. Materials Reports, 2018, 32(3): 391 -397 .
[4]	Bingwei LUO,Dabo LIU,Fei LUO,Ye TIAN,Dongsheng CHEN,Haitao ZHOU. Research on the Two Typical Infrared Detection Materials Serving at Low Temperatures: a Review[J]. Materials Reports, 2018, 32(3): 398 -404 .
[5]	Yingke WU,Jianzhong MA,Yan BAO. Advances in Interfacial Interaction Within Polymer Matrix Nanocomposites[J]. Materials Reports, 2018, 32(3): 434 -442 .
[6]	Zhengrong FU,Xiuchang WANG,Qinglin JIN,Jun TAN. A Review of the Preparation Techniques for Porous Amorphous Alloys and Their Composites[J]. Materials Reports, 2018, 32(3): 473 -482 .
[7]	Fangyuan DONG,Shansuo ZHENG,Mingchen SONG,Yixin ZHANG,Jie ZHENG,Qing QIN. Research Progress of High Performance ConcreteⅡ: Durability and Life Prediction Model[J]. Materials Reports, 2018, 32(3): 496 -502 .
[8]	Lixiong GAO,Ruqian DING,Yan YAO,Hui RONG,Hailiang WANG,Lei ZHANG. Microbial-induced Corrosion of Concrete: Mechanism, Influencing Factors,Evaluation Indices, and Proventive Techniques[J]. Materials Reports, 2018, 32(3): 503 -509 .
[9]	Ningning HE,Chenxi HOU,Xiaoyan SHU,Dengsheng MA,Xirui LU. Application of SHS Technique for the High-level Radioactive Waste Disposal[J]. Materials Reports, 2018, 32(3): 510 -514 .
[10]	Haoran CHEN, Yingdong XIA, Yonghua CHEN, Wei HUANG. Low-dimensional Perovskites: a Novel Candidate Light-harvesting Material for Solar Cells that Combines High Efficiency and Stability[J]. Materials Reports, 2018, 32(1): 1 -11 .

Viewed

Full text

Abstract

Cited

Shared

Discussed