1、ACI 201.1R-08Reported by ACI Committee 201Guide for Conducting a VisualInspection of Concrete in ServiceGuide for Conducting a Visual Inspection of Concrete in ServiceFirst PrintingJuly 2008ISBN 978-0-87031-290-8American Concrete InstituteAdvancing concrete knowledgeCopyright by the American Concret
2、e Institute, Farmington Hills, MI. All rights reserved. This materialmay not be reproduced or copied, in whole or part, in any printed, mechanical, electronic, film, or otherdistribution and storage media, without the written consent of ACI.The technical committees responsible for ACI committee repo
3、rts and standards strive to avoid ambiguities,omissions, and errors in these documents. In spite of these efforts, the users of ACI documents occasionallyfind information or requirements that may be subject to more than one interpretation or may beincomplete or incorrect. Users who have suggestions
4、for the improvement of ACI documents arerequested to contact ACI. Proper use of this document includes periodically checking for errata atwww.concrete.org/committees/errata.asp for the most up-to-date revisions.ACI committee documents are intended for the use of individuals who are competent to eval
5、uate thesignificance and limitations of its content and recommendations and who will accept responsibility for theapplication of the material it contains. Individuals who use this publication in any way assume all risk andaccept total responsibility for the application and use of this information.Al
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7、ncluding any special, indirect, incidental,or consequential damages, including without limitation, lost revenues or lost profits, which may resultfrom the use of this publication.It is the responsibility of the user of this document to establish health and safety practices appropriate tothe specific
8、 circumstances involved with its use. ACI does not make any representations with regard tohealth and safety issues and the use of this document. The user must determine the applicability of allregulatory limitations before applying the document and must comply with all applicable laws and regulation
9、s,including but not limited to, United States Occupational Safety and Health Administration (OSHA) healthand safety standards.Order information: ACI documents are available in print, by download, on CD-ROM, through electronicsubscription, or reprint and may be obtained by contacting ACI.Most ACI sta
10、ndards and committee reports are gathered together in the annually revised ACI Manual ofConcrete Practice (MCP).American Concrete Institute38800 Country Club DriveFarmington Hills, MI 48331U.S.A.Phone: 248-848-3700Fax: 248-848-3701www.concrete.orgACI 201.1R-08 supersedes ACI 201.1R-92 (Reapproved 19
11、97) and was adopted andpublished July 2008.Copyright 2008, American Concrete Institute.All rights reserved including rights of reproduction and use in any form or by anymeans, including the making of copies by any photo process, or by electronic ormechanical device, printed, written, or oral, or rec
12、ording for sound or visual reproductionor for use in any knowledge or retrieval system or device, unless permission in writingis obtained from the copyright proprietors.201.1R-1ACI Committee Reports, Guides, Manuals, StandardPractices, and Commentaries are intended for guidance inplanning, designing
13、, executing, and inspecting construction.This document is intended for the use of individuals who arecompetent to evaluate the significance and limitations of itscontent and recommendations and who will acceptresponsibility for the application of the material it contains.The American Concrete Instit
14、ute disclaims any and allresponsibility for the stated principles. The Institute shall notbe liable for any loss or damage arising therefrom.Reference to this document shall not be made in contractdocuments. If items found in this document are desired by theArchitect/Engineer to be a part of the con
15、tract documents, theyshall be restated in mandatory language for incorporation bythe Architect/Engineer.Guide for Conducting a Visual Inspectionof Concrete in ServiceReported by ACI Committee 201ACI 201.1R-08This guide provides terminology to perform and report on the visual conditionof concrete in
16、service. It includes a checklist of the many details that maybe considered in making a report and descriptions for various concreteconditions associated with the durability of concrete.Keywords: chemical attack; concrete durability; corrosion; cracking;deterioration; discoloration; environments; joi
17、nts; oxidation; popouts; scaling;serviceability; spalling; staining; surface defects; surface imperfections.CONTENTSChapter 1Introduction, p. 201.1R-21.1Scope1.2Introduction1.3ReferencesChapter 2Descriptions of distress, p. 201.1R-22.1Cracking2.2Distress2.3Textural features and phenomena relative to
18、 theirdevelopmentChapter 3Visual inspection report and checklist,p. 201.1R-12Appendix, p. 201.1R-14Jon B. Ardahl*William G. Hime Stella Lucie Marusin Niels ThaulowAndrew J. Boyd Charles J. Hookham Mohamad A. Nagi Michael D. A. ThomasPaul W. Brown R. Doug Hooton Robert E. Neal Paul J. TikalskyRamon J
19、. Carrasquillo Brian B. Hope Charles K. Nmai David TrejoRachel J. Detwiler Donald J. Janssen Karthik H. Obla Claude B. Trusty, Jr.Jonathan E. DongellRoy H. Keck Robert C. ONeill Thomas J. Van DamPer Fidjestol Mohammad S. Khan David A. Rothstein Orville R. Werner, IIHarvey H. Haynes Kimberly E. Kurti
20、s Mauro J. Scali Terry J. WillemsGeoffrey Hichborn, Sr. Joseph F. Lamond Hannah C. Schell Michelle L. WilsonEugene D. Hill, Jr.Michael L. Leming Jan P. Skalny*Subcommittee 201-C Chair during revision.Subcommittee 201-C members who revised this guide.Deceased.Russell L. HillChairKevin J. FolliardSecr
21、etary201.1R-2 ACI COMMITTEE REPORTCHAPTER 1INTRODUCTION1.1ScopeThis is a guide for a visual inspection of concrete inservice. A visual inspection is an examination of concrete toidentify and define many of the various conditions concretemay exhibit during its service life. The visual inspection isty
22、pically limited to the surfaces of the concrete structure thatare visually accessible.1.2IntroductionBy completing a visual inspection of the concrete immedi-ately after construction, and through repetition at intervalsduring the concretes service life, the visual inspectionprovides important histor
23、ical information on performanceand durability. The inspection results also aid in earlydetection of distress and deterioration, enabling repair orrehabilitation before replacement is necessary.It is important that the inspector properly document anyobservations related to environmental and loading c
24、onditions.Inspections are often supplemented with nondestructivetests, destructive tests, and other investigations, especiallywhen distress and deterioration is observed and informationregarding the internal condition of the concrete is needed.While a visual inspection is most often used in connecti
25、onwith the condition survey of concrete that is showing defectsor some degree of distress, its application is recommendedfor all concrete structures. It is important that the inspectorproperly document any observations related to environmentalexposure (effects from physical loads, deformations, defe
26、cts,imperfections, and distress), durability, and performance.Concrete material records and construction practices shouldbe collected and reviewed.The checklist includes items that might have a bearing onthe durability and performance of the concrete. Individualsmaking the survey should not limit th
27、eir investigation to theitems listed, but should review any other contributingfactors. Following the guide does not eliminate the need forintelligent observations and the use of sound judgment.Individuals performing the inspection should be experiencedand competent in concrete condition surveys. In
28、addition towritten descriptions, sketches of relevant features are valuableand encouraged. Photographs, including a scale to indicatedimensions, are of great value in showing the condition ofconcrete. Video coverage should be considered for docu-mentation as it provides an enhanced visual dimension
29、thatmay exceed that of still photography.The descriptions and photographs provided in Chapter 2illustrate typical observations encountered during inspectionsand aid in the preparation of a condition survey report byidentifying the characteristics of potential problems anddescribing their condition.
30、The checklist in Chapter 3 isprovided to assist the user to identify the characteristics ofpotential condition survey findings and their description.1.3ReferencesThis guide should be used in conjunction with ACIConcrete Terminology and the following American ConcreteInstitute documents.201.2R Guide
31、to Durable Concrete207.3R Practices for Evaluation of Concrete in ExistingMassive Structures for Service Conditions224.1R Causes, Evaluation, and Repair of Cracks inConcrete Structures228.1R In-Place Methods to Estimate Concrete Strength228.2R Nondestructive Test Methods for Evaluation ofConcrete in
32、 Structures311.1R ACI Manual of Concrete Inspection (SP-2)349.3R Evaluation of Existing Nuclear Safety-RelatedConcrete Structures350.1 Tightness Testing of Environmental EngineeringConcrete Structures364.1R Guide for Evaluation of Concrete StructuresBefore Rehabilitation437R Strength Evaluation of E
33、xisting Concrete BuildingsThis guide should also be used in conjunction with thefollowing documents for condition assessment of structures:1. American Society for Civil Engineers, “Guideline forStructural Condition Assessment of Existing Buildings,”SEI/ASCE 11-99, ASCE, Reston, VA, 2000, 160 pp.2. A
34、merican Society for Civil Engineers, “Guideline forCondition Assessment of the Building Envelope,” SEI/ASCE 30-00, ASCE, Reston, VA, 2000, 64 pp.3. Mufti, A., “Guideline for Structural Health Monitoring,”Design Manual No. 2, ISIS Canada, Winnipeg, MB, 2001.4. AASHTO, “Guide Specifications for Streng
35、th Evaluationof Existing Steel and Concrete Bridges,” AASHTO,Washington, DC, 1989.5. “Diagnosis of Deterioration in Concrete Structures,”Technical Report No. 54, The Concrete Society, Blackwater,Camberley, UK, 2000.6. “Corrosion of Steel in Concrete: Investigation andAssessment” BRE Digest 444, Part
36、 2, in Concrete RepairManual, American Concrete Institute, Farmington Hills, MI,2003, 2093 pp.7. AASHTO, Manual for Condition Evaluation ofBridges, second edition, AASHTO, Washington, DC, 2003.8. “Distress Identification Manual for the Long-TermPavement Performance Project,” Strategic HighwayResearc
37、h Program SHRP-P-338, Federal Highway Admin-istration, Washington, DC, 1993.CHAPTER 2DESCRIPTIONS OF DISTRESSImperfections and distresses have been categorized andillustrated by photographs, and their severity and extent ofoccurrence have been quantified where possible. Thepurpose of the photographs
38、 is to standardize the reporting ofthe condition of the concrete in a structure. Thoseperforming the survey should be thoroughly familiar withthe terminology of various types of imperfections anddistresses. Figures are provided to illustrate the varioustypes of defects and distresses, along with the
39、 cause ofdeterioration when known.GUIDE FOR CONDUCTING A VISUAL INSPECTION OF CONCRETE IN SERVICE 201.1R-32.1CrackingCracka complete or incomplete separation, of eitherconcrete or masonry, into two or more parts produced bybreaking or fracturing.Cracking of concrete should be reported based on crack
40、widths and the type of crack.2.1.1 Crack widthsExamples of cracks of varyingwidths are shown in Fig. 2.1.1(a) and (b).2.1.2 Crack patterns2.1.2.1 Checkingdevelopment of shallow cracks atclosely spaced but irregular intervals on the surface ofplaster, cement paste, mortar, or concrete. (See also crac
41、ksand crazing.)2.1.2.2 Craze cracksfine random cracks or fissures ina surface of plaster, cement paste, mortar, or concrete(Fig. 2.1.2.2(a) and (b).2.1.2.2.1 Crazingthe development of craze cracks;the pattern of craze cracks existing in a surface. (See alsochecking and cracks.)2.1.2.3 D-cracksa seri
42、es of cracks in concrete near androughly parallel to joints and edges (Fig. 2.1.2.3(a) and (b).2.1.2.4 Diagonal crackin a flexural member, an inclinedcrack, caused by shear stress, usually at approximately45 degrees to the axis; or a crack in a slab, not parallel toeither the lateral or longitudinal
43、 directions (Fig. 2.1.2.4(a)and (b).2.1.2.5 Hairline crackscracks in an exposed-to-viewconcrete surface having widths so small as to be barelyperceptible.2.1.2.6 Longitudinal cracksa crack that developsparallel to the length of the member.2.1.2.7 Map cracking1) intersecting cracks thatextend below t
44、he surface of hardened concrete; caused byshrinkage of the drying surface concrete that is restrained byconcrete at greater depths where either little or no shrinkageoccurs; vary in width from fine and barely visible to openand well-defined; or 2) the chief symptom of a chemicalreaction between alka
45、lis in cement and mineral constituentsin aggregate within hardened concrete; due to differentialFig. 2.1.1Cracks of varying widths.Fig. 2.1.2.2(a) Craze cracking; and (b) craze crackinghighlighted with the aid of denatured alcohol.201.1R-4 ACI COMMITTEE REPORTrate of volume change in different membe
46、rs of the concrete;cracking is usually random and on a fairly large scale and, insevere instances, the cracks may reach a width of 12.7 mm(0.50 in.) (Fig. 2.1.2.7(a) and (b). (See also checking andcrazing; also known as pattern cracking.)2.1.2.8 Pattern crackingcracking on concrete surfacesin the fo
47、rm of a repeated sequence; resulting from a decreasein volume of the material near the surface, or an increase involume of the material below the surface, or both. (See mapcracking.)2.1.2.9 Plastic shrinkage crackingcracking thatoccurs in the surface of fresh concrete soon after it is placedand whil
48、e it is still plastic (Fig. 2.1.2.9(a) and (b).2.1.2.10 Random cracksuncontrolled cracks thatdevelop at various directions away from the control joints.2.1.2.11 Shrinkage crackingcracking of a structure ormember due to failure in tension caused by external orinternal restraints as reduction in moist
49、ure content develops,carbonation occurs, or both (Fig. 2.1.2.11).2.1.2.12 Temperature crackingcracking due to tensilefailure, caused by temperature drop in members subjected toexternal restraints or by a temperature differential inmembers subjected to internal restraints (Fig. 2.1.2.12).Fig. 2.1.2.3D-cracks: (a) fine; and (b) severe, with spallingpresent.Fig. 2.1.2.4Diagonal cracking.Fig. 2.1.2.7Map (pattern) cracking.GUIDE FOR CONDUCTING A VISUAL INSPECTION OF CONCRETE IN SERVICE 201.1R-52.1.2.13 Transverse crackscracks that occur acrossthe