The Use of Small-scale Specimens for Testing Irradiated Material: A Symposium Sponsored by ASTM Committee E-10 on Nuclear Technology and Applications, Albuquerque, N.M., 23 Sept. 1983W. R. Corwin, Glenn E. Lucas |
Contents
Introduction | 2 |
Use of the Disk Bend Test to Assess Irradiation Performance of Structural Alloys | 5 |
Miniaturized Disk Bend Test Technique Development and Application | 17 |
The MIT Miniaturized Disk Bend Test | 50 |
DiskBend Ductility Tests for Irradiated Materials | 66 |
Miniaturized Disk Bend Test | 83 |
Development of Small Punch Tests for DuctileBrittle Transition Temperature Measurement of Temper Embrittled NiCr Steels | 92 |
Shear Punch and Microhardness Tests for Strength and Ductility Measurements | 112 |
Comparison of Mechanical Properties in Thin Specimens of Stainless Steel with Bulk Material Behavior | 220 |
A Miniaturized Mechanical Testing System for SmallScale Specimen Testing | 233 |
PostIrradiation Creep Properties of ColdWorked 316 Stainless Steel As Measured with Small Creep Specimens | 252 |
Miniature CenterCrackedTension Specimen for Fatigue Crack Growth Testing | 259 |
Use of Subsize Fatigue Specimens for Reactor Irradiation Testing | 276 |
Use of Subsized Specimens for Evaluating the Fracture Toughness of Irradiated Materials | 290 |
Subsized Bend and Charpy VNotch Specimens for Irradiated Testing | 305 |
Discussion | 324 |
LowLoad Microhardness Changes in 14MeV Neutron Irradiated Copper Alloys | 141 |
Effects of Specimen Thickness and Grain Size on the Mechanical Properties of Types 304 and 316 Austenitic Stainless Steel | 161 |
Failure Strain for Irradiated Zircaloy Based on Subsized Specimen Testing and Analysis | 171 |
Discussion | 185 |
Wire Tensile Testing for RadiationHardening Experiments | 186 |
Design and Use of Nonstandard Tensile Specimens for Irradiated Materials Testing | 201 |
Discussion | 219 |
Effect of Specimen Size and Material Condition on the Charpy Impact Properties of 9Cr1MoVNb Steel | 325 |
SpecimenSize Considerations in CrackArrest Testing of Irradiated RPV Steels | 339 |
Experience in Subsized Specimen Testing | 353 |
Summary | 369 |
| 371 | |
| 373 | |
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The Use of Small-scale Specimens for Testing Irradiated Material: A ... W. R. Corwin,Glenn E. Lucas No preview available - 1986 |
Common terms and phrases
316 stainless steel alloys ASTM International ASTM STP austenitic behavior brittle bulk Central Deflection Charpy impact test cold-worked crack growth crack-arrest creep crosshead DBTT deformation developed diameter disk bend test displacement ductility effect embrittlement energy experimental finite element finite element analysis fluence Fracture Mechanics fracture toughness fusion reactor G. E. Lucas gage section geometry grain grain size hardening indenter load Irradiated Material irradiation Journal of Nuclear load/deflection curve machine MDBT measured mechanical properties metals microhardness miniature specimens Miniaturized Disk Bend neutron neutron irradiation niobium notch Nuclear Materials obtained plane strain plastic punch tests punch tip radiation range samples shear punch shown in Fig small specimens Society for Testing SP tests specimen thickness strain rate subsize specimens surface technique tensile data tensile specimens tensile tests Testing and Materials tion total elongation transition temperature uniaxial tensile unirradiated values weld wire specimens yield strength yield stress Zircaloy