Trends in Reactor Pressure Vessel and Circuit DevelopmentR. W. Nichols |
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Page 233
R. W. Nichols. ( ii ) Improved properties of steels : ( a ) tougher steel with required strength level , as well as cleaner and sounder internal quality ; ( b ) improved through thickness mechanical properties , even for a thickness over ...
R. W. Nichols. ( ii ) Improved properties of steels : ( a ) tougher steel with required strength level , as well as cleaner and sounder internal quality ; ( b ) improved through thickness mechanical properties , even for a thickness over ...
Page 235
... Mechanical Properties of the Same Forgings as in Section 2.1.1 . Figure 2 is the through thickness mechanical properties for the two flange forgings mentioned above . Note the distributions are almost flat even for the thickness of 550 ...
... Mechanical Properties of the Same Forgings as in Section 2.1.1 . Figure 2 is the through thickness mechanical properties for the two flange forgings mentioned above . Note the distributions are almost flat even for the thickness of 550 ...
Page 333
... mechanical properties in different points and for various orientations of the pieces is therefore also less . In the ... mechanical properties are concerned , the sulphides type is very important , as the type II sulphides are harmful to ...
... mechanical properties in different points and for various orientations of the pieces is therefore also less . In the ... mechanical properties are concerned , the sulphides type is very important , as the type II sulphides are harmful to ...
Contents
Current Technical Technical Aspects Concerning PWR Vessel | 7 |
Some Remarks Related to the Requirements for Development | 15 |
Utilisation of Indian Point Unit 1 for Research to Support | 27 |
Copyright | |
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alloy analysis ASME Code austenite bainite brittle capsules carbide casting CEGB cladding components cooling corrosion crack arrest temperature crack growth rates defect ductile effects examination fabrication factor failure fatigue crack growth ferritic flange flaws forging fracture mechanics fracture toughness grain boundary grain boundary segregation heat treatment heat-affected zone hydrogen ingot inservice inspection integral irradiation Japan light water reactor load manufacturing material mechanical properties metallurgical method microstructure mock-up neutron nondestructive nondestructive testing notch nozzle nuclear power operation parameters pipe plant plate pressure boundary pressure vessel steels Pressurised problems procedures programme quenching reactor pressure vessel reactor vessel recrystallised reduce reliability requirements safety Section shell shown in Fig Škoda specimens steam steelmaking stress corrosion cracking stress intensity stress relief cracks structure surface surveillance temper embrittlement tensile thickness transients transition temperature tube ultrasonic variation weld seams yield strength