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1

Bahnfleth, William P. Three-dimensional modelling of heat transfer from slab floors. Champaign, Ill: US Army Corps of Engineers, Construction Engineering Research Laboratory, 1989.

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2

R, Naik Tarun, American Society for Testing and Materials. Committee C-9 on Concrete and Concrete Aggregates., and Symposium on Temperature Effects on Concrete (1983 : Kansas City, Mo.), eds. Temperature effects on concrete: A symposium sponsored by ASTM Committee C-9 on Concrete and Concrete Aggregates, Kansas City, MO, 21 June 1983. Philadelphia, PA: American Society for Testing and Materials, 1985.

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3

Angelakos, Bill. Experimental study of reinforced concrete slabs subjected to thermal and mechanical loads. Ottawa: National Library of Canada = Bibliothèque nationale du Canada, 1993.

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4

V, Zhukov V. Termostoĭkostʹ zhelezobetonnykh konstrukt͡s︡iĭ. Kiev: "Budivėlʹnyk", 1991.

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5

Shengxing, Wu, ed. Da ba hun ning tu zao qi re, li xue te zheng ji kai lie ji li. Zhengzhou Shi: Huang He shui li chu ban she, 2010.

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6

Trapeznikov, L. P. Temperaturnai͡a︡ treshchinostoĭkostʹ massivnykh betonnykh sooruzheniĭ. Moskva: Ėnergoatomizdat, 1986.

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7

Nat͡sievskiĭ, I͡Uriĭ Danilovich. Povyshenie teplozashchitnykh svoĭstv paneleĭ iz legkogo betona. Kiev: "Budivelʹnyk", 1986.

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8

Malhotra, Ashok. Brick veneer concrete masonry unit backing. Ottawa: Canada Mortgage and Housing Corporation, 1997.

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9

I͡Akovlev, Anatoliĭ Ivanovich. Raschet ognestoĭkosti stroitelʹnykh konstrukt͡siĭ. Moskva: Stroĭizdat, 1988.

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10

Evans, D. J. Thermal movements in a multi-storey car park. London: Cement and Concrete Association, 1986.

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11

Evans, D. J. Thermal movements in a multi-storey car park. Wexham Springs: Cement and Concrete Association, 1986.

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12

Hintzen, W. Zum Verhalten des jungen Betons unter zentrischem Zwang beim Abfliessen der Hydratationswärme. Düsseldorf: Bau+Technik, 1998.

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13

Renkun, Wang, Zhongguo shui li fa dian gong cheng xue hui. shi gong zhuan ye wei yuan hui, and Zhongguo shui dian gu wen ji tuan. Chengdu kan ce she ji yan jiu yuan, eds. Shui gong da ba hun ning tu cai liao he wen du kong zhi yan jiu yu jin zhan. Beijing Shi: Zhongguo shui li shui dian chu ban she, 2009.

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14

Zudong, Shi, ed. Experiment and calculation of reinforced concrete at elevated temperatures. Waltham, MA: Butterworth-Heinemann, 2011.

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15

author, Tang Chun'an, ed. Shui ni ji fu he cai liao gao wen lie hua yu sun shang: Thermal Deterioration and Damage of Cement-based Composites at Elevated Temperatures. Beijing: Ke xue chu ban she, 2012.

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16

Powers, D. A. Submission for the CSNI/GREST benchmark exercise on chemical thermodynamic modeling in core-concrete interaction releases of radionuclides. Washington, DC: Division of Systems Research, Office of Nuclear Regulatory Research, U.S. Nuclear Regulatory Commission, 1988.

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17

United States. Dept. of Housing and Urban Development. Office of Policy Development and Research. and NAHB Research Center, eds. Insulating concrete forms: Comparative thermal performance. [Washington, D.C: The Office, 1999.

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18

A, Imbsen Roy, and Engineering Computer Corporation, eds. Thermal effects in concrete bridge superstructures. Washington, D.C: Transportation Research Board, National Research Council, 1985.

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19

The thermal behaviour of fire-exposed composite steel/concrete slabs: Test report. Delft: Centium voor Brandveiligheid TNO, 1990.

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20

Bofang, Zhu. Thermal Stresses and Temperature Control of Mass Concrete. Elsevier Science & Technology Books, 2013.

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21

Imbsen, R. A., and R. A. Vandershaf. Thermal Effects in Concrete Bridge Superstructures (Report (National Cooperative Highway Research Program)). Transportation Research Board National Resear, 1986.

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22

Thermal cracking in concrete at early ages. London: New York, 1995.

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23

Springenschmid, R. Thermal Cracking in Concrete at Early Ages. Taylor & Francis Group, 1994.

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24

Springenschmid, R. Thermal Cracking in Concrete at Early Ages. Taylor & Francis Group, 2019.

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25

Concrete heat development: Monitoring, prediction, and management : April 22-26, 2007, Atlanta, Georgia, USA. Farmington Hills, Mich: American Concrete Institute, 2007.

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26

American Association of State Highway and Transportation Officials., ed. AASHTO guide specifications: Thermal effects in concrete bridge superstructures. Washington, D.C: American Association of State Highway and Transportation Officials, 1989.

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27

Springenschmid, R. Prevention of Thermal Cracking in Concrete at Early Ages. Taylor & Francis Group, 2004.

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28

Springenschmid, R. Prevention of Thermal Cracking in Concrete at Early Ages. Taylor & Francis Group, 2004.

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29

Springenschmid, R. Prevention of Thermal Cracking in Concrete at Early Ages. Taylor & Francis Group, 2019.

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30

Mbwambo, William J. Structural response of prestressed concrete members subjected to elevated temperatures. 1995.

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31

Springenschmid, R. Prevention of Thermal Cracking in Concrete at Early Ages: State-Of-the-Art Report Prepared by Rilem Technical Committee 119 Avoidance of Thermal Cracking in Concrete at Early Ages. Taylor & Francis Group, 1998.

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32

1929-, Springenschmid R., and RILEM Technical Committee 119, Avoidance of Thermal Cracking in Concrete at EArly Ages., eds. Prevention of thermal cracking in concrete at early ages: State-of-the-art report prepared by RILEM Technical Committee 119, Avoidance of Thermal Cracking in Concrete at Early Ages. London: E & FN Spon, 1998.

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33

R, Copus E., U.S. Nuclear Regulatory Commission. Office of Nuclear Regulatory Research. Division of Systems Research., and Sandia National Laboratories, eds. Core-concrete interactions using molten urania with zirconium on a limestone concrete basemat: The SURC-1 experiment. Washington, DC: Division of Systems Research, Office of Nuclear Regulatory Research, U.S. Nuclear Regulatory Commission, 1989.

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34

Core-concrete interactions using molten urania with zirconium on a limestone concrete basemat: The SURC-1 experiment. Supt. of Docs., U.S. G.P.O. [distributor], 1992.

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35

Springenschmid, R. Thermal Cracking in Concrete at Early Ages: Proceedings of the International RILEM Symposium. Taylor & Francis Group, 1994.

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36

Thermal Cracking in Concrete at Early Ages: Proceedings of the International RILEM Symposium. Taylor & Francis Group, 1994.

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37

Core-concrete interactions using molten UO₂ with zirconium on a basaltic basemat: The SURC-2 experiment. Washington, DC: Division of Systems Research, Office of Nuclear Regulatory Research, U.S. Nuclear Regulatory Commission, 1989.

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38

Guo, Zhenhai, and Xudong Shi. Experiment and Calculation of Reinforced Concrete at Elevated Temperatures. Elsevier Science & Technology Books, 2011.

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39

Guo, Zhenhai, and Xudong Shi. Experiment and Calculation of Reinforced Concrete at Elevated Temperatures. Butterworth-Heinemann Limited, 2017.

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40

Efectos térmicos en presas y embalses. [Madrid: Colegio de Ingenieros de Caminos, Canales y Puertos, 1996.

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41

Aguado, Antonio, Jose Dolz, and Jeronimo Puertas. Efectos Termicos En Presas y Embalses (Monografias / Colegio de Ingenieros de Caminos, Canales y Puertos). Colegio de Ingenieros de Caminos Canales y Pu, 1999.

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42

Designers' guide to EN 1991-1-2, 1992-1-2, 1993-1-2 and 1994-1-2: Handbook for the fire design of steel, composite and concrete structures to the eurocodes. London: Thomas Telford, 2007.

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