Factors Influencing Fracture Toughness and Other Properties of Aluminum- Lithium Alloys

Abstract

An investigation was made to identify the microstructural features which control the fracture behavior of Al-Li alloys. Tensile, fracture toughness, and selected fatigue tests were conducted on candidate Al-Li alloys (Al-Mg-Li, Al-Cu-Li, and Al-Li). In all three alloy systems and most aging conditions investigated, the fracture mode was low energy, intergranular failure. Three microstructural features were considered to correlate with the intergranular failure--the shearable nature of the coherent Al3Li(delta') precipitates which leads to dislocation pile-ups at the grain boundaries; the growth of a solute depleted, precipitate free zone during aging, and the occurrence of the tramp elements sodium, potassium and sulfur presumably segregated in the grain boundaries. Furthermore, the hydrogen content of the alloys was also shown to be significantly higher than other high strength commercial alloys. All these features would contribute to the low toughness and would tend to promtoe intergranular failure.

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Document Details

Document Type
Technical Report
Publication Date
Jun 14, 1979
Accession Number
ADA071669

Entities

People

  • T. H. Sanders Jr.

Organizations

  • Alcoa

Tags

Communities of Interest

  • Advanced Electronics
  • Air Platforms
  • Ground and Sea Platforms
  • Weapons Technologies

DTIC Thesaurus Topics

  • Anodic Polarization
  • Castings
  • Chemical Analysis
  • Chemistry
  • Crystal Structure
  • Fatigue Tests (Mechanics)
  • Grain Size
  • Liquids
  • Materials
  • Materials Engineering
  • Materials Science
  • Measurement
  • Mechanical Properties
  • Mechanical Working
  • Modulus Of Elasticity
  • Solid Solutions
  • Tensile Properties

Fields of Study

  • Materials science

Readers

  • Powder metallurgy of Titanium alloys.