[VI.1] INTERNATIONAL ATOMIC ENERGY AGENCY, Guidelines for the Safe Design of Shipping Packages against Brittle Fracture, IAEA-TECDOC-717, IAEA, Vienna (1993).
[VI.2] AMERICAN SOCIETY FOR TESTING AND MATERIALS, Annual Book of ASTM Standards: Standard Test Method for Drop Weight Test to Determine Nil Ductility Transition Temperature of Ferritic Steels, Vol. 03.01, ASTM E208-87a, ASTM, Philadelphia, PA (1987).
[VI.3] BRITISH STANDARDS INSTITUTION, Specification for Unfired Fusion Welded Pressure Vessels, BS 5500, BSI, London (1991).
[VI.4] AMERICAN SOCIETY OF MECHANICAL ENGINEERS, Boiler and Pressure Vessel Code, Section III, Division 1, Rules for the Construction of Nuclear Power Plant Components, ASME, New York (1992).
[VI.5] AMERICAN SOCIETY OF MECHANICAL ENGINEERS, Boiler and Pressure Vessel Code, Section VIII, Division 1, Rules for the Construction of Pressure Vessels, ASME, New York (1992).
[VI.6] ASSOCIATION FRANCAISE POUR LES REGLES DE CONCEPTION ET DE CONSTRUCTION DES MATERIELS DES CHAUDIERES ELECTRONUCLEAIRES (AFCEN), French Nuclear Construction Code; RCCM: Design and Construction Rules For Mechanical Components of PWR Nuclear Facilities, Subsection Z, Appendix ZG, Fast Fracture Resistance, Framatome, Paris (1985).
[VI.7] UNITED STATES NUCLEAR REGULATORY COMMISSION, Fracture Toughness Criteria for Ferritic Steel Shipping Cask Containment Vessels with a Wall Thickness Greater than Four Inches (0,1 m), Regulatory Guide 7.12, USNRC, Washington, DC (1991).
[VI.8] UNITED STATES NUCLEAR REGULATORY COMMISSION, Fracture Toughness Criteria of Base Material for Ferritic Steel Shipping Cask Containment Vessels with a Maximum Wall Thickness of Four Inches (0,1 m), Regulatory Guide 7.11, USNRC, Washington, DC (1991).
[VI.9] ROLFE, S.T., BARSOM, J.M., Fracture and fatigue control in structures, Prentice-Hall, Englewood Cliffs, NJ (1977).
[VI.10] HOLMAN, W.R., LANGLAND, R.T., Recommendations for Protecting Against Failure by Brittle Fracture in Ferritic Steel Shipping Containers up to Four Inches Thick, NUREG/CR-1815, US Nuclear Regulatory Commission, Washington, DC (1981).
[VI.11] SCHWARTZ, M.W., Recommendations for Protecting Against Failure by Brittle Fracture in Ferritic Steel Shipping Containers Greater than Four Inches Thick, NUREG/CR-3826, US Nuclear Regulatory Commission, Washington, DC (1984).
[VI.12] AMERICAN SOCIETY OF MECHANICAL ENGINEERS, Boiler and Pressure Vessel Code, Section III, Division 1 - Appendices, Appendix G: Protection Against Nonductile Failure, ASME, New York (1992).
[VI.13] ASSOCIATION FRANCAISE POUR LES REGLES DE CONCEPTION ET DE CONSTRUCTION DES MATERIELS DES CHAUDIERES ELECTRONUCLEAIRES (AFCEN), French Nuclear Construction Code, RCC-MR: Design and Construction Rules For Mechanical Components of FBR Nuclear Islands, Framatome, Paris (1985, with addendum 1987).
[VI.14] MINISTRY FOR INTERNATIONAL TRADE AND INDUSTRY, Technical Criteria for Nuclear Power Structure, Notification N 501, MITI, Tokyo (1980).
[VI.15] KERNTECHNISCHER AUSSCHUSS, Sicherheitstechnische Regel des KTA, Komponenten des Primarkreises von Leichtwasserreaktoren, Teil 2: Auslegung, Konstruktion und Berechnung, KTA 3201.2, Fassung 3/84, KTA Geschaftsstelle, Bundesamt fur Strahlenschutz, Salzgitter (1985).
[VI.16] BRITISH STANDARDS INSTITUTION, Guidance on Methods for Assessing the Acceptability of Flaws in Fusion Welded Structures, PD 6493, BSI, London (1991).
[VI.17] ГОСТ 25.506-85. Определение характеристик хрупкой прочности при статических нагрузках. Москва (1985).
[VI.18] AMERICAN SOCIETY FOR TESTING AND MATERIALS, Annual Book of ASTM Standards: Standard Test Method for Plane Strain Fracture Toughness of Metallic Materials, Volume 03.01, ASTM E399-83, ASTM, Philadelphia, PA (1983).
[VI.19] THE JAPAN SOCIETY OF MECHANICAL ENGINEERS, Standard Test Method for CTOD Fracture Toughness Testing, JSME S001, JSME, Tokyo (1981).
[VI.20] AMERICAN SOCIETY FOR TESTING AND MATERIALS, Standard
Test Method for J , A Measure of Fracture Toughness, ASTM E813,
Ic
Annual Book of ASTM Standards, Vol. 03.01, ASTM, Philadelphia,
PA (1991).
[VI.21] BRITISH STANDARDS INSTITUTION, Fracture Mechanics
Toughness Tests, Method for Determination of K , Critical CTOD
IC
and Critical J Values of Welds in Metallic Materials, BS 7448-2,
BSI, London (1997).
[VI.22] AMERICAN SOCIETY FOR TESTING AND MATERIALS, Standard Test Method for Crack Tip Opening Displacement (CTOD) Fracture Toughness Measurement, ASTM E1290-93, Annual Book of ASTM Standards, ASTM, Philadelphia, PA (1993).
[VI.23] THE JAPAN WELDING ENGINEERING SOCIETY, Standard Test Method for CTOD Fracture Toughness Testing, JWES 2805, JWES, Tokyo (1980).
[VI.24] INTERNATIONAL ORGANIZATION FOR STANDARDIZATION, ISO/TC164/SC4 - Discussions on a Unified Method of Test for Quasi-static Fracture Toughness - N 128, ISO, Geneva (1994).
[VI.25] ZAHOOR, A., Ductile Fracture Handbook, Rep. NP 6301-D, EPRI, Palo Alto, CA (1991).
[VI.26] CENTRAL ELECTRICITY GENERATING BOARD, Assessment of the Integrity of Structures Containing Defects, Rep. R/H/R6-Rev. 3, CEGB, London (1986).
[VI.27] CENTRAL RESEARCH INSTITUTE OF ELECTRIC POWER INDUSTRY, Research on Quality Assurance of Ductile Cast Iron Casks, EL 87001, CRIEPI, Tokyo (1988).
[VI.28] DROSTE, В., SORENSON, K. (Eds), Brittle fracture safety assessment, Int. J. Radioact. Mater. Transp. 6 2 - 3 (1995) 101 - 223.
[VI.29] SHIRAI, K., et al., Integrity of cast iron cask against free drop test - Verification of brittle failure design criterion, Int. J. Radioact. Mater. Transp. 4 1 (1993) 5 - 13.
[VI.30] ARAI, Т., et al., Determination of lower bound fracture toughness for heavy section ductile cast iron (DCI) and small specimen tests, ASTM STP N 1207, ASTM, Philadelphia, PA (1995) 355 - 368.
[VI.31] Нормы расчета на прочность транспортных упаковочных комплектов для перевозки ядерных делящихся материалов. НРП-93.
[VI.32] Нормы расчета на прочность оборудования и трубопроводов атомных энергетических установок ПНАЭ Г-7-002-86.
[VI.33] Методические указания. Расчеты на прочность в машиностроении. Методы механических испытаний металлов. Определение характеристик вязкости разрушения (трещиностойкости) при статическом нагружении. РД 50-260-81.
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