题名

以脈衝電流法量測混凝土中鋼筋腐蝕劣化之研究

并列篇名

Reinforcement Corrosion in Concrete Measured by Galvanostatic Pulse

DOI

10.3966/101632122014060088013

作者

陳建忠(Chien-Jung Chen);吳靖賢(Ching-Hsien Wu);陳君弢(Chun-Tao Chen)

关键词

混凝土 ; 鋼筋腐蝕 ; 脈衝電流 ; Concrete ; Reinforcement Corrosion ; Galvanostatic Pulse

期刊名称

建築學報

卷期/出版年月

88_S期(2014 / 06 / 30)

页次

1 - 16

内容语文

繁體中文
中文摘要

鋼筋混凝土為現今土木工程大量使用,如何評估其耐久性為重要的研究課題之一。其中,鋼筋腐蝕關係到結構物的力學及耐震性能評估,但目前量測技術仍具有相當地不確定性,量測結果不全然反應實際鋼筋腐蝕的情形。有鑑於此,本計畫探討混凝土中鋼筋腐蝕的量測技術,同時利用小尺寸及足尺寸試體,比較直流極化法與脈衝腐蝕量測法,探討影響量測鋼筋腐蝕電流的因子。結果發現,脈衝腐蝕量測法較直流極化法更能準確計算腐蝕量。其中,計算腐蝕量約與重量損失成正比,但兩者關係受到保護層水灰比、保護層厚度、保護層粗細粒料比例及鋼筋配置影響。欲得到可靠量測值,試體必須保持面乾飽和,不具表面披覆,量測前必須先界定主筋與箍筋位置,量測時必須區分箍筋間與鋼筋疊置處分別量測。
英文摘要

Reinforced concrete is widely used in civil engineering nowadays, and its durability is one of the research focuses. Among all the durability issues, the corrosion of the reinforcement is drawing more and more attentions since it is associated with the mechanical and seismic performance of reinforced concrete structure. However, the modern measurement techniques have limitations and the results show great uncertainties. In view of these issues, this study explores the factors influencing the reinforcement corrosion measurements in reduced or full- scaled concrete specimens using the linear polarizations and the galvanostatic pulses. Results show that the galvanostatic pulse provides more accurate results than the linear polarization. The calculated weight loss through the measurements is proportional to the weight loss, but their linear relationships are influenced by the water-cement ratio of the cover, thickness of the cover, the ratio of the coarse to fine aggregates of the cover, and the arrangement of the reinforcement. To obtain reliable results, specimens must be in saturated surface dry and have no coatings. The locations of the stirrups and the main bars must be identified in advance and then the corrosion measurements must be conducted at those locations separately.
主题分类 工程學 > 土木與建築工程
参考文献
  1. ASTM C876-09(2009).Standard Test Method for Corrosion Potentials of Uncoated Reinforcing Steel in Concrete.PA, USA:ASTM Intemational.
  2. ASTM G59-97(1997).Standard Test Method for Conducting Potentiaodynamic Polarization Resistance Measurement.PA, USA:ASTM Intemational.
  3. Bentz, D. P.,Jensen, O. M.,Coats, A. M.,Glasser, F. P.(2000).Influence of silica fume on diffusivity in cement-based materials: I. Experimental and computer modeling studies on cement pastes.Cement and Concrete Research,30(6),953-962.
  4. Broomfield, J. P.(1997).Corrosion of Steel in Concrete: Understanding, Investigation and Repair.London,UK:E & FN Spon.
  5. Dou, Y. T.,Hao, B. H.,Meng, B.,Xie, J.,Dong, M. L.,Zhang, A. L.(2014).The study to the corrosion of reinforcing steel in concrete by using Galvanostatic pulse technique.Applied Mechanics and Materials,501-504,916-919.
  6. Ford, S. J.,Shane, J. D.,Mason, T. O.(1998).Assignment of features in impedance spectra of the cement-paste/steel system.Cement and Concrete Research,28(12),1737-1751.
  7. Germann Instruments A/S.(2012).GalvaPluse GP-5000 Instruction and Maintenance Manual.Copenhagen,Denmark:Germann Instruments A/S..
  8. Jones, D. A.(1996).Principles and Prevention of Corrosion.NJ, USA:Prentice Hall.
  9. Klinghoffer, O.(2006).In situ monitoring of reinforcement corrosion by means of electrochemical methods.Nordic Concrete Research,95(1),5-12.
  10. Klioghoffer, O.,Frolund, T.,Poulsen, E.(2000).Rebar corrosion rate measurements for service life estimates.Proceedings of ACI Fall Convention 2000, Committee 365 "Practical Application of Service Life Models",NY, USA:
  11. Lee, S. Y.,Won, J. P.,Park, D. H.,Lee, M. H.,Moon,K. M.(2013).The effect of cover thickness to corrosion characteristics of reinforced steel bar emedded in mortar specimen (W/C: 0.6) aged 5 years in seawater.Advanced Materials Research,785,1176-1180.
  12. Malhotra, V. M.,Carette, G. G.(1982).Silica fume: A pozzolan of new interest for use in some concretes.Concrete Construction,May,445-446.
  13. Mehta, P. K.(2001).Reducing the environmental irnpact of concrete.Concrete International,23(10),61-66.
  14. Newton, C. J.,Sykes, J.(1988).A Galvanostatic pulse technique for investigation of steel corrosion in concrete.Corrosion Science,28(11),1051-1074.
  15. Rodriguez, P.,Ramirez, E.,Gonzalez, J. A.(1994).Methods for studying corrosion in reinforced concrete.Magazine of Concrete Research,46(167),81-90.
  16. Stem, M.(1958).A method for determining corrosion rates from linear polarization data.Corrosion,14(9),60-64.
  17. 王鼎智(2002)。台南市=Tainan,國立成功大學土木工程所=Department of Civil Engineering, National Cheng Kung University。
  18. 柯賢文(1995)。腐蝕及其防制。台北市=Taipei:全華圖書公司=Chuan Hwa Book Co., LTD.。
print cancel