DEVELOPMENT OF A DROP-WEIGHT-BULGE TEST, I
Abstract
A laboratory test is described in which plate specimens could be 1:1 biaxially strained at relatively high loading rates to produce deformations similar to those observed in the explosion-bulge test plates. Results of extensive experimentation indicate that the deformation distribution observed in explosion-bulge test plates can be simulated in a 1/2-inch-thick plate if a 14-inch-square test specimen is placed on top of a 9-inch-inside-diameter anvil and impacted by a 5-1/2-inch-diameter hemispherical striker. The striker transmits an energy of 20,000 ft-lb to the plate through aluminum pads that distribute the strain throughout the plate bulge. Examination of dropweight-bulge specimens of a 1/2-inch-thick, 150 ksi yield-strength 5Ni-Cr-Mo-V steel showed that the strain field was uniform throughout a 2-inch-diameter polar region. The surface strain in this region was 0.2 inches/ inch and the thickness reduction was 30 percent. Thus, the drop-weight-bulge test appears suitable for evaluating the capacity of plates and weldments to deform under high strain 1:1 biaxial loading.
Document Details
- Document Type
- Technical Report
- Publication Date
- Jul 01, 1964
- Accession Number
- AD0604871
Entities
People
- L. P. Connor
- S. T. Rolfe
Organizations
- U.S. Steel