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    CEN TR 15697-2008 Cement - Performance testing for sulfate resistance - State of the art report《水泥 耐硫酸盐的性能测试 技术报告的情况》.pdf

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    CEN TR 15697-2008 Cement - Performance testing for sulfate resistance - State of the art report《水泥 耐硫酸盐的性能测试 技术报告的情况》.pdf

    1、PUBLISHED DOCUMENTPD CEN/TR 15697:2008Cement Performance testing for sulfate resistance State of the art reportICS 91.100.10g49g50g3g38g50g51g60g44g49g42g3g58g44g55g43g50g56g55g3g37g54g44g3g51g40g53g48g44g54g54g44g50g49g3g40g59g38g40g51g55g3g36g54g3g51g40g53g48g44g55g55g40g39g3g37g60g3g38g50g51g60g5

    2、3g44g42g43g55g3g47g36g58PD CEN/TR 15697:2008This Published Document was published under the authority of the Standards Policy and Strategy Committee on 30 May 2008 BSI 2008ISBN 978 0 580 58773 3National forewordThis Published Document is the UK implementation of CEN/TR 15697:2008. The UK participati

    3、on in its preparation was entrusted by Technical Committee B/516, Cement and lime, to Subcommittee B/516/12, Sampling and testing.A list of organizations represented on this committee can be obtained on request to its secretary.This publication does not purport to include all the necessary provision

    4、s of a contract. Users are responsible for its correct application.Amendments/corrigenda issued since publicationDate CommentsTECHNICAL REPORTRAPPORT TECHNIQUETECHNISCHER BERICHTCEN/TR 15697April 2008ICS 91.100.10English VersionCement - Performance testing for sulfate resistance - State ofthe art re

    5、portCiment - Essais de performances relatifs la rsistanceaux sulfates - tat de lartZement - Prufng der Leistungsfhigkeit hinsichtlich desSulfatwiderstands - Bericht zum Stand der TechnikThis Technical Report was approved by CEN on 6 November 2007. It has been drawn up by the Technical Committee CEN/

    6、TC 51.CEN members are the national standards bodies of Austria, Belgium, Bulgaria, Cyprus, Czech Republic, Denmark, Estonia, Finland,France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, Netherlands, Norway, Poland, Portugal,Romania, Slovakia, Slovenia, Spa

    7、in, Sweden, Switzerland and United Kingdom.EUROPEAN COMMITTEE FOR STANDARDIZATIONCOMIT EUROPEN DE NORMALISATIONEUROPISCHES KOMITEE FR NORMUNGManagement Centre: rue de Stassart, 36 B-1050 Brussels 2008 CEN All rights of exploitation in any form and by any means reservedworldwide for CEN national Memb

    8、ers.Ref. No. CEN/TR 15697:2008: E2 Contents Page Foreword3 Introduction .4 1 Sulfate resistant cements .6 2 Sulfate resistance test procedures7 3 Review of most appropriate methods to assess specimen deterioration in laboratory tests.16 4 Review of most appropriate methods to accelerate the test pro

    9、cedure18 5 The importance of test method reproducibility20 6 Suggested features of a standardised sulfate resistance test method for cements21 Bibliography 25 CEN/TR 15697:20083 Foreword This document (CEN/TR 15697:2008) has been prepared by Technical Committee CEN/TC 51 “Cement and building limes”,

    10、 the secretariat of which is held by NBN. This CEN/TR is a state of the art review of the international research literature dealing with testing/assessing the sulfate resistance performance of cements and related binders. It outlines the difficulties faced by CEN/TC 51 in applying a prescriptive app

    11、roach to the specification of sulfate resistant cements and identifies the different mechanisms and forms of deterioration that occur during sulfate attack. This report compares the advantages and disadvantages of different test specimen types (paste, mortar or concrete), different exposure conditio

    12、ns and different techniques used to assess specimen deterioration. The importance of test method reproducibility is reviewed with reference to the experimental work carried out by CEN/TC 51 during the 1990s. The report lists the key parameters that must be controlled in any robust standardised metho

    13、d and makes suggestions for the main features of a pan-European performance test. CEN/TR 15697:20084 Introduction Under the terms of EU Mandate 114, committee CEN/TC 51, cement, building limes and other hydraulic binders, is required to develop standards for common cements and also for cements with

    14、special properties such as low heat cements, calcium aluminate cements and sulfate resisting cements. EN 197-1: Composition, specifications and conformity criteria for common cements was adopted in 2000 and was the first harmonised European Standard to be adopted for a construction product. Since 20

    15、00, European Standards for masonry, low heat, and low early strength blastfurnace cements, very low heat special cements and calcium aluminate cements have been published. The development of a prescriptive EN for sulfate resisting cements has been complicated by national differences in the types of

    16、cement that are recognised to have sulfate resisting properties. Note, however, that all nationally standardised sulfate resisting cements meet the requirements of EN 197-1:2000 and that the absence of a specific standard for sulfate resisting cement has not constituted a barrier to trade. In order

    17、to overcome these national difficulties, and also to permit new types of cement to be recognised in the future, work was directed towards the development of a performance test for sulfate resistance. Work commenced in 1991 and following a preliminary assessment of the French NF-P-18-837 procedure an

    18、d the German, so called flat prism method, a decision was taken to concentrate on developing the French procedure. The method measures the expansion of 20 mm x 20 mm x 160 mm prisms in a sodium sulfate solution containing 16 g/l SO42-. During five co-operative testing exercises involving up to thirt

    19、een laboratories, the method was refined with the objective of improving reproducibility and also discrimination between sulfate resisting and non-sulfate resisting cements. In 1998 it was concluded that further development would require a more fundamental approach and efforts were directed towards

    20、obtaining EU funding for pre-normative research. These applications were not successful. In early 2004 a meeting was arranged with representatives of the NANOCEM programme to explore a more fundamental approach to the problem of sulfate resistance and sulfate resistance testing. The aspects of parti

    21、cular interest to CEN/TC 51 were: a) understanding sulfate attack mechanisms in relation to the type of cement and the concentration/temperature conditions; b) establishing a relationship between laboratory tests and field performance; c) methods to accelerate the test; d) using parameters other tha

    22、n deformation measurement to monitor the progress of the sulfate attack; e) understanding the role of thaumasite in sulfate attack. The NANOCEM group has formulated a research programme that addresses the above aspects and work on this programme commenced in 2006 within the framework of a larger pro

    23、gramme funded by the Marie Curie Training Network. In parallel with this programme, CEN/TC 51 asked committee WG 12 (Additional Performance Criteria) to prepare a CEN Technical Report outlining the current state of the art concerning sulfate resistance testing. A literature search identified over 25

    24、0 relevant papers and reports published during the period 1970 to 2006. To assess the different sulfate resistance techniques employed and their possible influence on the CEN/TR 15697:20085 performance of different cement/binder types, the testing details from 129 papers were entered into an Access

    25、Database. The papers selected for entry into the database were those which contained original research data and detailed information concerning test conditions. This report draws on the information contained in these 129 papers plus a further 50 papers and reports not selected for entry into the dat

    26、abase. In the interests of brevity the current report only includes references to selected references that are either key papers or contain specific information. It is intended that a statistical analysis of the database and a full listing of the papers studied will be made available as a supplement

    27、ary document of CEN/TC 51 / WG 12. CEN/TR 15697:20086 1 Sulfate resistant cements Portland cement concrete can undergo attack by sulfate bearing solutions such as natural groundwater or those contaminated by industrial activity. Attack can result in expansion, strength loss, surface spalling and ult

    28、imately disintegration. The resistance that a cement matrix provides to sulfate attack depends on a number of factors which include: nature of the reaction products formed with the sulfate solution and in particular, whether their formation results in disruptive expansion; impermeability of the matr

    29、ix (including the important paste-aggregate interfacial zone) which provides a barrier against penetration by sulfate ions; concentration of sulfate ions (in this report expressed as g/l SO42-); mobility of the sulfate containing groundwater; nature of the accompanying cation e.g. Na+, Mg2+, Ca2+etc

    30、; pH of the sulfate bearing ground water/solution; presence of other dissolved salts such as chlorides; temperature of the exposure; degree of pre-curing before exposure, although in the field this is only likely to affect the performance of the concrete surface; presence of finely divided limestone

    31、 (calcium carbonate) in the aggregate, or carbonate ions dissolved in the groundwater, which may promote the formation of thaumasite under low temperature conditions. Almost all developed countries have product specification standards for sulfate resisting cement(s). With a few exceptions these are

    32、prescriptive standards that specify cement composition. The permitted compositions are based upon long-standing laboratory test results and also satisfactory performance in the field. National differences reflect different exposure conditions and also differences in the nature of the available cemen

    33、t constituents. Poor performance under sulfate exposure conditions is normally associated either directly or indirectly, with the formation of ettringite. In the hydrated matrix of a CEM I cement, the source of reactive alumina is normally the monosulfate phase according to the reaction: C4Al2(OH)12

    34、.SO4.6H2O + 2Ca2+ 2SO42-+ 20H2O = C6Al2(OH)12(SO4)3.26H2O (monosulfate) (ettringite) Any unreacted C3A is also a potential source of ettringite. Monosulfate will normally also be present in composite cements containing blastfurnace slag, fly ash or natural pozzolana but in the hydrated matrix of the

    35、se cements, alumina is also present in phases such as hydrotalcite or hydrogarnet or substituted in C-S-H in which latter forms. It does not appear to be available to form an expansive reaction product 1. Strength loss and disintegration are also associated with decalcification of C-S-H, which is an

    36、 important mechanism during attack by MgSO4solutions but which also occurs to a lesser extent in Na2SO4solutions 2. CEN/TR 15697:20087 Current sulfate resisting cements standardised in CEN member countries can be divided into two categories: 1) Portland (CEM I) cements with a maximum permitted C3A c

    37、ontent. 2) Portland composite cements containing appropriate levels of glassy blastfurnace slag, fly ash or natural pozzolana. Low C3A sulfate resistant cements provide a chemical resistance to sulfate attack. The products that reaction with sulfates is not expansive and consequently the matrix is n

    38、ot disrupted facilitating further attack. The unreactive nature of the hydration products of low C3A cements is attributed to a low level of monosulfate and/or the formation of an iron-rich form which is slow reacting and produces a non-expansive form of ettringite 3. Portland composite cements (i.e

    39、. CEM II, III, IV and V types) provide resistance to sulfate attack which is predominantly micro-structural in nature 4 to 8. This is derived from the significantly lower permeability of the hydrated matrix. Additional positive factors are: reduced level of free calcium hydroxide in the matrix which

    40、 reduces calcium availability for ettringite formation and also the formation of gypsum when the matrix is exposed to concentrated sulfate solutions; formation of hydrates containing alumina which are non-reactive to sulfate solutions. The reduced availability of calcium may also result in the forma

    41、tion of ettringite with a morphology and distribution throughout the hydrated matrix which is not expansive 9. One factor that is often overlooked is that resistance to external sulfates is normally positively influenced by the level of SO3in the binder; the higher the level in a range between 1 % t

    42、o 4 %, the greater the resistance. This applies to concrete produced from CEM I cements 10 and also particularly to slag and fly ash containing concretes. Where the ash or slag is added to the mixer 2, 11, 12 the SO3level is lowered by dilution and the hydrated matrix is more vulnerable to attack by

    43、 penetrating sulfates in comparison with a binder with an optimised SO3 level. The improved resistance can be attributed to the increased level of sulfated phases, such as ettringite, formed during initial hydration, which are stable in the presence of an elevated sulfate level. 2 Sulfate resistance

    44、 test procedures 2.1 General review The sulfate resistance properties of cement can be assessed by preparing realistic concretes specimens and placing them in conditions which are representative of field conditions. Unfortunately, unless the concretes are of low quality (high w/c, poorly compacted)

    45、several years exposure will be required to provide any meaningful discrimination between sulfate resistant and non-sulfate resistant cements 13, 14. Consequently, there is a need for accelerated test procedures that provide discrimination within a timescale of weeks or months. The first laboratory t

    46、est procedure to determine the sulfate resistance properties of a cement was the Le Chatelier - Anstett procedure,15 in which cement paste is hydrated, crushed and dried and then interground with 50 % (by mass) of gypsum. The expansion of a moist cylinder, formed from the interground mixture is dete

    47、rmined at 1 day, 28 days and 90 days. The method is severe and cements with a low potential to form expansive products such as calcium aluminate cement and supersulfated cement perform well, while low C3A sulfate resisting Portland cements perform poorly. The first test procedure to attain the statu

    48、s of a national standard was the ASTM C 452 procedure, which was adopted in 1964. In this test, cement is blended with finely divided gypsum to bring the SO3level to 7,0 % and the expansion of 25 mm x 25 mm x 285 mm mortar bars (1:2,75, w/c 0,485) placed in water at 23 0C is CEN/TR 15697:20088 deter

    49、mined at 14 days. ASTM C150, Specification for Portland cement, permits a cement to be classed as a Type V sulfate resistant cement if expansion at 14 days is less than 0,040 %. This is an optional requirement and cement can be classified as Type V if the C3A content is less than 5 % (and the sum of C4AF + 2C3A is less than 25 %). The method is not suitable for cements containing constituents such as blastfurnace slag and pozzolanas as firstly, the short timescale of test does not permit adequate hydration of the sec


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