Standard methods of determining frost resistance of concrete (GOST 10060-76)

1. Yu. V. Chekhovskii, Reduction of the Permeability of Concrete [in Russian], Énergiya, Moscow (1968).

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2. A. E. Sheikin, Yu. V. Chekhovskii, and M. I. Brusser, Structure and Properties of Cement Concretes [in Russian], Stroiizdat, Moscow (1979).

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3. Yu. V. Chekhovskii, V. É. Leirikh, and V. M. Kazanskii, “Differentiation of water according to forms of binding in set cement,” Kolloidn. Zh., No. 3 (1964).

4. Yu. V. Chekhovskii, V. M. Kazanskii, and V. É. Leirikh, “Structure of pores and forms of binding of water in set cement,” Inzh. Fiz. Zh., No. 5 (1963).

5. G. I. Gorchakov, Composition, Structure, and Properties of Cement Concretes [in Russian], Stroiizdat, Moscow (1976).

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6. A. S. Kaplan and V. B. Grapp, “Interrelation between acoustical, strength, and structural characteristics when testing the frost resistance of concrete,” Konstr. Mater. Stroit., No. 5 (1976).

7. G. I. Gorchakov, A. P. Merkin, S. N. Levin, and A. D. Dikun, “Accelerated prediction of frost resistance of cellular concretes,” Beton Zhelezobeton, No. 2 (1978).

8. S. N. Korotkov, L. P. Veshchikova, É. S. Mazur, and G. F. Voevoda, “Improvement of the standard method of testing the frost resistance of concrete,” Prom. Stroit. Mater., No. 3 (1977).

9. G. I. Gorchakov, V. I. Ivanov, I. I. Lifanov, and É. N. Yurchenko, “Effect of ice formation in pores of concrete on frost resistance,” Beton Zhelezobeton, No. 2 (1977).

10. T. Powers, “Basic considerations pertaining to freezing-thawing tests,” Proc. ASTM,55 (1955).

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