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Erschienen in:
Introduction to Diagnosis Kapitel lesen Erstes Kapitel lesen

2021 | OriginalPaper | Buchkapitel

6. Accelerated Expansion Test: Japan

verfasst von : Tetsuya Katayama

Erschienen in: Diagnosis & Prognosis of AAR Affected Structures

Verlag: Springer International Publishing

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Abstract

This alkali-immersion accelerated test method (80 \(^\circ \)C, 1N NaOH,[1] was originally intended to rapidly identify the swelling potential of concrete core extracted from structure, e.g. [2, Sect. 5.3].

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Vorheriges Kapitel Summary of Reported Methods
Nächstes Kapitel Accelerated Expansion Test: Switzerland
Literatur
1.
JCI-TC115FS §4.3.: Method of measuring expansion ratio of core specimen immersed in alkali solution (immersion method using alkali solution). In: Committee Report on Diagnosis of ASR and its Ideal Future, pp. 316–319. Tokyo, in Japanese (2014)
2.
Katayama, T., Tagami, M., Sarai, Y., Izumi, S., Hira, T.: Alkali-aggregate reaction under the influence of deicing salts in the Hokuriku district. Jpn. Mater. Charact. 53, 105–122 (2004)
3.
4.
JCI-S-011-2017.: Method of measuring expansion ratio of core sampled from concrete structure, 10 pp. Tokyo, Japan (in Japanese) (2017)
5.
JCI-DD2.: Determination of expansion ratio of AAR-damaged structure using concrete core. Jpn. Concr. Inst. 5–9 (in Japanese) (1989)
6.
Katayama, T., Oshiro, T., Sarai, Y., Zaha, K., Yamato, T.: Late-expansive ASR due to imported sand and local aggregates in Okinawa Island, southwestern Japan. In: Proceedings of 13th International Conference on Alkali-Aggregate Reaction (ICAAR). Trondheim, Norway, pp. 862–873 (2008)
7.
Bérubé, M., Dupont, N., Pigeon, M., Stoian, A.: Expansion test methods for mass concrete exposed to alkali-aggregate reaction. In: International Conference on Concrete Alkali-Aggregate Reactions in Hydroelectric Plants and Dams. project CEA No.715 G 687. Fredericton, New Brunswick, Canada (1992)
8.
Mukai, K.: Influence of reading time on core expansion in the alkali immersion test. Technical Report. Unpublished data, Taiheiyo Consultant (in Japanese) (2014)
9.
Endo, H., Tanaka, H., Goto, T.: Inter-laboratory test of the residual expansion tests of concrete core specimens. In: Proceedings, Japan Society of Civil Engineers 517, pp. 1033–1034 (in Japanese) (2013)
10.
Nomura, M., Torii, K.: Evaluation of ASR residual expansivity of cones by accelerated curing testing. Cem. Sci. Concr. Technol. 59 139–145 (in Japanese) (2005)
11.
Fournier, B., Bérubé, M., Folliard, K., Thomas, M.: Report on the diagnosis, prognosis, and mitigation of Alkali-Silica Reaction (ASR) in transportation structures. Technical Report, FHWA-HIF-09-004. 154 p. Federal Highway Administration, 2010
12.
Katayama, T.: An attempt to estimate past expansion of concrete based on petrographic stage of alkali-silica reaction. In: Proceedings of 39th International Conference on Cement Microscopy, pp. 217–236. Toronto, Canada (2017)
13.
Buford, A.: In situ monitoring of alkali-silica reaction (ASR) affected concrete: a study on crack indexing and damage rating index to assess the severity of ASR and to monitor ASR progression. Technical Report Position Paper: Memorandum to Trapp, J.M. Washington D.C.: United States Nuclear Regulatory Commission (2013)
14.
Saouma, V., Martin, R., Hariri-Ardebili, M.A., Katayama, T.: A mathematical model for the kinetics of the alkali-silica chemical reaction. Cem. Concr. Res. 68, 184–195 (2015)CrossRef
15.
Katayama, T., Sarai, Y., Higashi, Y., Honma, A.: Late-expansive alkali silica reaction in the Ohnyu and Furikusa headwork structures, central Japan. In: Proceedings of 12th International Conference on Alkali-Aggregate Reaction (ICAAR), pp. 1086–1094. Beijing, China (2004)
16.
Sellier, A., Bourdarot, E., Multon, S., Cyr, M., Grimal, E.: Combination of structural monitoring and laboratory tests for assessment of alkali-aggregate reaction swelling: application to gate structure dam. ACI Mater. J. 106(3), 281–290 (2009)
17.
Brunetaud, X.: Étude de l’influence de différents paramètres et de leurs interactions sur la cinétique de l’amplitude de la réaction sulfatique interne au béton. Ph.D. thesis. Chôtenay-Malabry, Ecole centrale de Paris, 2005
18.
Kawabata, Y., Yamada, K., Ogawa, S., Sagawa, Y.: Prediction of ASR expansion of field-exposed concrete based on accelerated concrete prism test with alkali-wrapping. Cem. Sci. Concr. Technol. 69, pp. 496–503 (in Japanese) (2015)
19.
Kawabata, Y., Yamada, K., Ogawa, S.: Modeling of environmental conditions and their impact on the expansion of concrete affected by the alkali-silica reaction. In: Sellier, A., Grimal, E., Multon, S., Bourdarot, E. (eds.) Swelling Concrete in Dams and Hydraulic Structures, pp. 163-175. ISTE Ltd., UK (2017)
20.
Kuroda, T., Inoue, S., Yoshino, A., Nishibayashi, S., Miyagawa, T.: Effects of accelerated test conditions on ASR expansion of concrete core. In: Proceedings of 13th International Conference on Alkali-Aggregate Reaction (ICAAR), pp. 195-203. Trondheim, Norway (2008)
21.
Iwatsuki, E., Morino, K.: ASR expansion behavior of concrete specimens containing chert aggregate immersed in NaOH solution. In: Proceedings of Japan Concrete Institute, vol. 28, pp. 827–832 (in Japanese) (2006)
22.
Li, K., Ulm, F., Coussy, O., Larive, C., Fan, L.: Chemoelastic modelling of alkali-silica reaction in concrete. In: Proceedings of 11th International Conference on Alkali-Aggregate Reaction (ICAAR), pp. 989–998. Quebec, Canada (2000)
23.
Diamond, S.: ASR-Another look at mechanisms. In: Proceedings of 8th International Conference on Alkali-Aggregate Reaction (ICAAR), pp. 83-94. Kyoto, Japan (1989)
24.
25.
Stark, D.: Immersion test to identify cement alkali levels and pozzolans to prevent ASR. In: Proceedings of 10th International Conference on Alkali-Aggregate Reaction (ICAAR), pp. 355-361. London, UK (1996)
26.
Kawabata, Y., Yamada, K., Ogawa, S., Martin, R., Sagawa, Y., Seignol, J.F., Toutlemonde, F.: Correlation between laboratory expansion and field expansion of concrete: prediction based on modified concrete expansion test. In: Proceedings of15th International Conference on Alkali-Aggregate Reaction (ICAAR). Sao Paolo, Brasil (2016)
27.
Fournier, B., Bérubé, M., Frenette, J.: Laboratory investigations for evaluating potential alkali-reactivity of aggregates and selecting preventive measures against alkali-aggregate reaction (AAR)—what do they really mean? In: Proceedings of 11th International Conference on Alkali-Aggregate Reaction (ICAAR), pp. 287–296. Quebec, Canada (2000)
28.
Blackwell, B., Thomas, M., Pettifer, K., Nixon, P.: An appraisal of UK greywacke deposits and current methods of avoiding AAR. In: Proceedings of 10th International Conference on Alkali-Aggregate Reaction (ICAAR), pp. 492–499. Melbourne, Australia (1996)
29.
Sibbick , G., Page, C.: Susceptibility of various UK aggregates to alkali aggregate reaction. In: Proceedings of 9th International Conference on Alkali-Aggregate Reaction (ICAAR), pp. 980-987. London, UK (1996)
30.
Nomura, M., Komatsubara, A., Kuroyanagi, M., Torii, K.: Evaluation of petrographic features of reactive aggregates in the Hokuriku district and residual expansion of core. Conc. J. (Japan Concrete Institute, JCI) 33(1), 953–958 (in Japanese) (2011)
31.
Kawabata, Y., Yamada, K., Ogawa, S., Osako, M.: An approach to prediction of ASR expansion of concrete using accelerated concrete prism test. In: Proceedings of 13 JSMS Symposium on Concrete Structures Scenarios, pp. 435–458. Kyoto, Japan (in Japanese) (2013)
32.
Tanaka, A., Yamada, K., Sagawa, Y., Ogawa, S.: Influence of curing temperature and alkali content on the expansion behaviour in the accelerated concrete prism test. In: Proceedings of Japan Concrete Institute, vol. 37, pp. 895–900 (in Japanese) (2015)
33.
Yamada, K., Karasuda, S., Ogawa, S., Sagawa, Y., Osako, M., Hamada, H., Isneini, M.: CPT as an evaluation method of concrete mixture for ASR expansion. Constr. Build. Mater. 64, 184–191 (2014)CrossRef
34.
JCI: Committee report on the testing of alkali-aggregate reaction by means of concrete prism method, Japan Concrete Institute (JCI), 85p. Tokyo (in Japanese) (1991)
35.
Nixon, P., Lane, S.: Experience from testing of the alkali reactivity of European aggregates according to several concrete prism test methods. In: Partner Report 3 (2006)
36.
Fournier, B., Chevrier, R., de Grosbois, M., Lisella, R., Folliard, K., Ideker, J., Shehatad, M., Thomas, M., Baxter, S.: The accelerated concrete prism test: variability of the test method and proposed expansion limits. In: Proceedings of 12th International Conference on Alkali-Aggregate Reaction, pp. 314–323. Beijing, China (2004)
37.
Jensen, V.: Alkali aggregate reaction in southern Norway. The Norwegian Institute Technology, University of Trondheim, Doctoral thesis (Technicae) (1993)
38.
Durand, B.: More results about the use of lithium salts and minerals admixtures to inhibit ASR in concrete. In: Proceedings of 11th International Conference on Alkali-Aggregate Reaction, pp. 623–632. Quebec, Canada (2000)
39.
Haha, M.B., Gallucci, E., Guidoum, A., Scrivener, K.L.: Relation of expansion due to alkali silica reaction to the degree of reaction measured by SEM image analysis. In: Cement & Concrete Research, vol. 37, pp. 1206–1214 (2007)
40.
Sanchez, L., Kuperman, S.C., Helene, P., Kihara, Y.: Trial to correlate the accelerated mortar bar test, the standard and the accelerated concrete prism tests. In: Proceedings of 13th International Conference on Alkali-Aggregate Reaction, pp. 1131–1141. Trondheim, Norway (2008)
41.
Hayman, S., Thomas, M., Beaman, N., Gilks, P.: Selection of an effective ASR-prevention strategy for use with a highly reactive aggregate for the reconstruction of concrete structures at Mactaquac generating station. In: Cement & Concrete Research, vol. 40, pp. 605–610 (2010)
42.
Larive, C., Coussy, O.: Behavior of AAR-prevention concrete, modelling. In: Proceedings of 10th International Conference on Alkali-Aggregate Reaction, pp. 662–669. Melbourne, Australia (1996)
43.
Shayan, A., Diggins, R., Ivanusec, I.: Long-term effectiveness of fly ash in preventing deleterious expansion due to alkali-aggregate reaction in concrete. In: Proceedings 10th International Conference on Alkali-Aggregate Reaction (ICAAR), pp. 538–545. Melbourne, Australi (1996)
44.
Moisson, M., Cyr, M., Ringot, R., Carles-Gibergues, A.: Efficiency of reactive aggregate powder in controlling the expansion of concrete affected by alkali-silica reaction (ASR). In: Proceedings of 12th International Conference on Alkali-Aggregate Reaction, pp. 617–624. Beijing, China (2004)
45.
Stacey, S., Folliard, K., Drimalas, T., Thomas, M.: An accelerated and more accurate test method to ASTM C1293: The concrete cylinder test. In: Proceedings of the 15th International Conference on Alkali-Aggregate Reaction (ICAAR). paper No. 130. Sao Paolo, Brazil (2016)
46.
Folliard, K., Ideker, J., Thomas, M., Fournier, B.: Assessing aggregate reactivity using accelerated concrete prism test. In: Proceedings of 7th CANMET/ACI International Conference on recent Advances in Concrete Technology, Supplementary Papers, pp. 269–283. Las Vegas, US (2004)
47.
Rogers, C., Hooton, R.: Reduction in mortar and concrete expansion with reactive aggregates due to alkali leaching. Cem. Concr. Aggreg. 13(1), 42–49 (1993)
48.
Larive, C., Laplaud, A., Joly, M.: Behaviour of AAR-affected concrete, experimental data. In: Proceedings of 10th International Conference on Alkali-Aggregate Reaction (ICAAR), pp. 670–677. Melbourne, Australia (1996)
49.
Lindgard, J., Thomas, M., Sellevold, R., Pedersen, B., Andic-Cakir, O., Justness, H., Ronning, T.: Alkali-silica reaction (ASR) performance testing: influence of specimen pre-treatment, exposure conditions and prism size on alkali leaching and prism expansion. Cem. Concr. Res. 53 (2013)
50.
Ulm, F., Coussy, O., Li, K., Larive, C.: Thermo-chemo-mechanics of ASR expansion in concrete structures. ASCE J. Eng. Mech. 126(3), 233–242 (2000)CrossRef
51.
Gomes, J., Batista, A., Oliveira, S.: Analysis of concrete dams under swelling processes. In: Proceedings of 12th International Conference on Alkali-Aggregate Reaction (ICAAR), pp. 1148-1157. Beijing, China (2004)
52.
Poyet, S., Sellier, A., Capra, B., Foray, G., Torrenti, J., Cognon, H., Bourdarot, E.: Modelling of alkali-silica reaction in concrete, part 2: influence of water on ASR. In: Proceedings of 12th International Conference on Alkali-Aggregate Reaction, pp. 185–190. Beijing, China (2004)
Metadaten
Titel
Accelerated Expansion Test: Japan
verfasst von
Tetsuya Katayama
Copyright-Jahr
2021
Buch
Diagnosis & Prognosis of AAR Affected Structures

Print ISBN: 978-3-030-44013-8

Electronic ISBN: 978-3-030-44014-5

Copyright-Jahr: 2021

DOI
https://doi.org/10.1007/978-3-030-44014-5_6