1.1 本试验方法包括通过测量混凝土棱柱的长度变化来测定骨料或骨料与火山灰或矿渣的组合对参与膨胀碱-二氧化硅反应的敏感性。 1.2 以国际单位制或英寸磅单位表示的数值应单独视为标准。每个系统中规定的值不一定是完全相等的；因此，为了确保符合标准，每个系统应独立使用，并且不得将两个系统的值组合使用。 注1: 筛网尺寸由其在规范中的标准名称确定 E11 括号中给出的备选名称仅供参考，不代表不同的标准筛尺寸。 1.3 本标准的文本是指提供解释性材料的注释和脚注。这些注释和脚注（不包括表和图中的注释和脚注）不应被视为本标准的要求。 1.4 本标准并不旨在解决与其使用相关的所有安全问题（如有）。 本标准的使用者有责任在使用前制定适当的安全、健康和环境实践，并确定监管限制的适用性。 ( 警告 新鲜的水硬性胶结混合物具有腐蚀性，长时间暴露可能会对皮肤和组织造成化学灼伤。 2. ) 1.5 本国际标准是根据世界贸易组织技术性贸易壁垒委员会发布的《关于制定国际标准、指南和建议的原则的决定》中确立的国际公认的标准化原则制定的。 ====意义和用途====== 4.1 碱硅酸反应是混凝土骨料中的一些硅质成分与氢氧根离子之间的化学相互作用 ( 1. ) . 5. 混凝土中氢氧根离子的浓度主要由钠和钾的浓度控制 ( 2. ) . 4.2 本试验方法旨在评估骨料或骨料与火山灰或矿渣的组合因任何形式的碱-二氧化硅反应性而发生有害膨胀的可能性 ( 3. , 4. ) . 4.3 如果用火山灰或矿渣测试骨料，结果用于确定防止有害膨胀所需的特定火山灰或炉渣的最小量。 特定来源的火山灰或矿渣可以单独测试，也可以与其他来源的火山灰质或矿渣组合测试。 4.4 在选择样品或决定测试样品的数量时，重要的是要识别来自给定来源的材料的岩性变化，无论是沙子、砾石沉积物还是任何来源的岩层。有关具体建议，请参阅指南 C295/C295M . 4.5 本试验方法旨在评估碱（碱金属氧化物）含量为5的混凝土中骨料的性能。 25千克/米 3. [8.85磅/码 3. ]或在含有火山灰或矿渣的混凝土中，其碱含量按比例从5.25kg/m减少 3. [8.85磅/码 3. ]Na 2. O相当于取代硅酸盐水泥或硅酸盐石灰石水泥的火山灰或矿渣的量。该试验方法通过在可能与现场条件不同的规定实验室养护条件下进行的试验，评估粗集料或细集料的碱硅反应引起的混凝土有害膨胀的可能性。因此，实际现场性能不会因混凝土碱含量、润湿和干燥、温度、其他因素或这些因素的组合而重复 ( 5. ) . 4.6 如本文所述，对骨料进行的试验结果应成为决定是否应采取预防措施防止碱-二氧化硅反应引起的过度膨胀的部分依据。有关测试结果的解释，请参阅指南 C1778 . 4.7 如果该试验方法中的膨胀大于指南中所示的极限 C1778 ，骨料或骨料与测试量的火山灰或矿渣的组合具有潜在的碱反应性。应提供补充信息，以确认膨胀实际上是由碱引起的- 二氧化硅反应。混凝土棱柱的岩石学检查应在使用实践进行测试后进行 C856/C856M 以确认存在已知的反应性成分并鉴定碱-二氧化硅反应性的产物。碱-二氧化硅反应的确认也来源于本程序补充的试验方法的结果（见指南 C1778 ). 4.8 本试验方法不涉及火山灰或矿渣在混凝土中使用的一般适用性。这些材料应符合规范 C618 规格 C989/C989M ，或规范 C1240 .

1.1 This test method covers the determination of the susceptibility of an aggregate or combination of an aggregate with pozzolan or slag for participation in expansive alkali-silica reaction by measurement of length change of concrete prisms. 1.2 The values stated in either SI units or inch-pound units are to be regarded separately as the standard. The values stated in each system are not necessarily exact equivalents; therefore, to ensure conformance with the standard, each system shall be used independently of the other, and values from the two systems shall not be combined. Note 1: Sieve size is identified by its standard designation in Specification E11 . The alternative designation given in parentheses is for information only and does not represent a different standard sieve size. 1.3 The text of this standard refers to notes and footnotes that provide explanatory material. These notes and footnotes (excluding those in tables and figures) shall not be considered as requirements of the standard. 1.4 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety, health, and environmental practices and determine the applicability of regulatory limitations prior to use. ( Warning— Fresh hydraulic cementitious mixtures are caustic and may cause chemical burns to skin and tissue upon prolonged exposure. 2 ) 1.5 This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee. ====== Significance And Use ====== 4.1 Alkali-silica reaction is a chemical interaction between some siliceous constituents of concrete aggregates and hydroxyl ions ( 1 ) . 5 The concentration of hydroxyl ion within the concrete is predominantly controlled by the concentration of sodium and potassium ( 2 ) . 4.2 This test method is intended to evaluate the potential of an aggregate or combination of an aggregate with pozzolan or slag to expand deleteriously due to any form of alkali-silica reactivity ( 3 , 4 ) . 4.3 If testing an aggregate with pozzolan or slag, the results are used to establish minimum amounts of the specific pozzolan or slag needed to prevent deleterious expansion. Pozzolan or slag from a specific source can be tested individually or in combination with pozzolan or slag from other sources. 4.4 When selecting a sample or deciding on the number of samples for test, it is important to recognize the variability in lithology of material from a given source, whether a deposit of sand, gravel, or a rock formation of any origin. For specific advice, see Guide C295/C295M . 4.5 This test method is intended for evaluating the behavior of aggregates in concrete with an alkali (alkali metal oxide) content of 5.25 kg/m 3 [8.85 lb/yd 3 ] or in concrete containing pozzolan or slag with an alkali content proportionally reduced from 5.25 kg/m 3 [8.85 lb/yd 3 ] Na 2 O equivalent by the amount of pozzolan or slag replacing portland cement or portland-limestone cement. This test method assesses the potential for deleterious expansion of concrete caused by alkali-silica reaction, of either coarse or fine aggregates, from tests performed under prescribed laboratory curing conditions that will probably differ from field conditions. Thus, actual field performance will not be duplicated due to differences in concrete alkali content, wetting and drying, temperature, other factors, or combinations of these ( 5 ) . 4.6 Results of tests conducted on an aggregate as described herein should form a part of the basis for a decision as to whether precautions should be taken against excessive expansion due to alkali-silica reaction. For interpretation of test results, refer to Guide C1778 . 4.7 If the expansions in this test method are greater than the limit shown in Guide C1778 , the aggregate or combination of aggregate with the tested amount of pozzolan or slag is potentially alkali-reactive. Supplemental information should be developed to confirm that the expansion is actually due to alkali-silica reaction. Petrographic examination of the concrete prisms should be conducted after the test using Practice C856/C856M to confirm that known reactive constituents are present and to identify the products of alkali-silica reactivity. Confirmation of alkali-silica reaction is also derived from the results of the test methods this procedure supplements (see Guide C1778 ). 4.8 This test method does not address the general suitability of pozzolans or slag for use in concrete. These materials should comply with Specification C618 , Specification C989/C989M , or Specification C1240 .