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Journal of Zhejiang University SCIENCE A

ISSN 1673-565X(Print), 1862-1775(Online), Monthly

2016 Vol.17 No.9 P.689-701

Blast response of full-size concrete walls with chemically reactive enamel (CRE)-coated steel reinforcement

Dong-Ming Yan, Hua-Wei Yin, Cheng-Lin Wu, Yan-Long Li, Jason Baird, Gen-Da Chen

School of Civil and Architectural Engineering, Zhejiang University, Hangzhou 310058, China; College of Civil Engineering, Hunan University, Changsha 410082, China; Department of Civil, Architectural, and Environmental Engineering, Missouri University of Science and Technology, Rolla 654009, USA; State Key Laboratory Base of Eco-Hydraulic Engineering in Arid Area, Xi’an University of Technology, Xi’an 710048, China; Rock Mechanics and Explosives, Missouri University of Science and Technology, Rolla 654009, USA; Center for Infrastructure Engineering Studies, Missouri University of Science and Technology, Rolla 654009, USA

yhwzzy@163.com, gdchen@zju.edu.cn

Abstract: In this study, two full-size concrete walls were tested and analyzed to demonstrate the effectiveness of a chemically reactive enamel (CRE) coating in improving their mechanical behavior under blast loading: one with CRE-coated rebar and the other with uncoated rebar. Each wall was subjected in sequence to four explosive loads with equivalent 2, 4, 6-trinitrotoluene (TNT) charge weights of 1.82, 4.54, 13.6, and 20.4 kg. A finite element model of each wall under a close-in blast load was developed and validated with pressure and strain measurements, and used to predict rebar stresses and concrete surface strain distributions of the wall. The test results and visual inspections consistently indicated that, compared with the barrier wall with uncoated reinforcement, the wall with CRE-coated rebar has fewer concrete cracks on the front and back faces, more effective stress transfers from concrete to steel rebar, and stronger connections with its concrete base. The concrete surface strain distributions predicted by the model under various loading conditions are in good agreement with the crack patterns observed during the tests.

Key words: Chemically reactive enamel (CRE) coating, Blast loading, Crack pattern, Bond strength, Finite element model

Chinese Summary  <36> æ´»æ€§ç“·é‡‰æ¶‚层钢筋混å‡åœŸé˜²æŠ¤å¢™æŠ—爆性能研究

目的:活性瓷釉涂层能够显著增强钢筋的防è…蚀能力,åŒæ—¶èƒ½å¤Ÿæ˜Žæ˜¾æå‡é’¢ç­‹ä¸Žæ··å‡åœŸçš„粘结力。通过对活性瓷釉涂层钢筋混å‡åœŸé˜²æŠ¤å¢™åœ¨å†²å‡»è·è½½ä½œç”¨ä¸‹çš„ç ´å特å¾è¿›è¡Œè¯•éªŒå’Œæ•°å€¼æ¨¡æ‹Ÿï¼Œä¸ºæ´»æ€§ç“·é‡‰æ¶‚层技术在钢筋混å‡åœŸç»“构中的应用æä¾›ç†è®ºåŸºç¡€ã€‚
创新点:1. 对活性瓷釉涂层钢筋混å‡åœŸé˜²æŠ¤å¢™è¿›è¡Œçˆ†ç‚¸è·è½½ä½œç”¨ä¸‹çš„ç ´å试验;2. 通过数值模拟,探究活性瓷釉钢纤维对钢筋混å‡åœŸç»“构抗爆能力的影å“,为结构设计æ出建议。
方法1. 通过对活性瓷釉涂层钢筋防护墙进行爆炸试验(图2),æ­ç¤ºæ´»æ€§ç“·é‡‰æ¶‚层钢筋混å‡åœŸç»“构的动力破å特å¾ï¼ˆå›¾4å’Œ5);2. 通过数值方法研究活性瓷釉涂层对钢筋混å‡åœŸé˜²æŠ¤å¢™æŠ—爆性能的影å“,æ­ç¤ºåœ¨ä¸åŒé’¢ç­‹-æ··å‡åœŸç²˜ç»“强度时钢筋混å‡åœŸç»“构整体性的å˜åŒ–规律(图10ã€13å’Œ15);3. 在爆炸试验和数值分æžåŸºç¡€ä¸Šï¼Œæ出活性瓷釉涂层钢筋混å‡åœŸç»“构抗爆设计建议(图16)。
结论:1. 活性瓷釉涂层能够显著改善钢筋在混å‡åœŸç»“构中的传力性能;在爆炸è·è½½ä½œç”¨ä¸‹ï¼Œæ¶‚层钢筋混å‡åœŸç»“æž„çš„ç ´å程度明显å‡è½»ã€‚2. 活性瓷釉涂层能够显著改善钢筋混å‡åœŸç»“æž„çš„å˜å½¢ç‰¹æ€§ï¼Œå¹¶æ˜¾è‘—增强其耗能能力。3. 在采用活性瓷釉涂层进行抗爆设计时,采用直径较å°çš„钢筋å¯æ高结构的å¸èƒ½èƒ½åŠ›ã€‚

关键è¯ç»„:活性瓷釉涂层;爆炸è·è½½ï¼›ç ´å模å¼ï¼›ç²˜ç»“力;有é™å…ƒæ¨¡åž‹


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DOI:

10.1631/jzus.A1600480

CLC number:

TU375.2

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On-line Access:

2024-08-27

Received:

2023-10-17

Revision Accepted:

2024-05-08

Crosschecked:

2016-08-18

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