Pressure-Induced Ductility

Abstract: The deformability of brittle composites, including a fiber-reinforced material, and the effect of plastic deformation on the tensile strength of such materials is investigated. The materials of interest are high-strength steel, carbide, and a composite of aluminum reinforced by 10 vol percent of Al3Ni fibers of 0.7 to 0.8 μ diameter. The Al-Ni composite was produced by unidirectional solidification. The plastic deformation was performed by hydrostatic extrusion into a receiver pressure. The effect of environme… Show more

“…The effect, of recei ver pressure was chosen as the variable of interest because of the known positive effect of increased environmental pressure on the deformation of brittle materials and materials with holes and/or inclusions. [8,9] The basic modes of flow for hard core composites are core fracture, core waviness, sound flow with homogeneous core deformation, non-uniform core deformation (multi-core only), and sleeve ironing.…”

Hydrostatic extrusion of aluminum clad superconductor wire. Final report

“…The effect, of recei ver pressure was chosen as the variable of interest because of the known positive effect of increased environmental pressure on the deformation of brittle materials and materials with holes and/or inclusions. [8,9] The basic modes of flow for hard core composites are core fracture, core waviness, sound flow with homogeneous core deformation, non-uniform core deformation (multi-core only), and sleeve ironing.…”

Hydrostatic extrusion of aluminum clad superconductor wire. Final report

Hydrostatic extrusion under back pressure of high‐density polyethylene

Deformation structure and the tensile fracture characteristics of a cold worked 1080 pearlitic steel