Deformation Studies in Workable Superalloys.

Abstract

The second and final year of a workability study of nickel-base superalloys is now complete. The objective was to study the high strain plastic flow behavior of high strength superalloys in the form of single crystals, rapidly solidified ingots and consolidated powder particles. The single crystal alloy studied was PWA 1444 (similar to Mar-M200) which had previously been well characterized at low strains. The flow characteristics of this alloy have now been documented out to 15% strain as a function of crystal orientation. The low to intermediate temperature flow stress has been measured after forming. Remarkable work hardening has been obtained at low strains for high modulus crystals worked below the solvus temperature. Rapidly solidified and cooled ingots were made by arc melting or electron beam skull melting or induction melting and then 'drip melting' into a cold copper mold. The compositions and heat treatment were tailored to promote workability. Some of these buttons were heavily deformed in uniaxial compression under isothermal conditions below the gamma prime solvus temperature, and several were deformed in the single phase gamma region. High strains were achieved under conditions of constant displacement rate, true strain rate or energy input rate.

Document Details

Document Type

Technical Report

Publication Date

Nov 30, 1981

Accession Number

ADA111113

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