Effect of swaging on Young[U+05F3]s modulus of β Ti-33.6Nb-4Sn alloy

Shuji Hanada, Naoya Masahashi, Taek Kyun Jung, Masahiro Miyake, Yutaka S. Sato, Hiroyuki Kokawa

Research output: Contribution to journalArticle

14 Citations (Scopus)

Abstract

The effect of swaging on the Young's modulus of β Ti-33.6Nb-4Sn rods was investigated by X-ray diffraction, thermography, microstructural observations, deformation simulator analysis and cyclic tensile deformation. Stress-induced α″ martensite was stabilized by swaging, dependent on the diameter reduction rate during swaging. Thermography and deformation simulator analysis revealed that swaged rods were adiabatically heated, and consequently, stress-induced α″ underwent reverse transformation. Young's modulus, which was measured by the slope of the initial portion of the stress-strain curve, decreased from 56. GPa in the hot-forged/quenched rod to 44. GPa in the rapidly swaged rod with a high reduction rate and to 45. GPa in the gradually swaged rod with a low reduction rate. The tangent modulus, which was measured by the slope of the tangent to any point on the stress-strain curve, decreased with strain even in the linear range of the stress-strain curve of the hot-forged/quenched rod and the rapidly swaged rod, while the tangent modulus remained unchanged for the gradually swaged rod. It was found that Young's moduli in swaged β Ti-33.6Nb-4Sn rods were affected by stabilized α″ martensite. Low Young's modulus of 45. GPa and high strength over 800. MPa were obtained when the reverse transformation by adiabatic heating was suppressed and the stress-induced α″ was sufficiently stabilized by gradual swaging to a 75% reduction in cross section area.

Original languageEnglish
Pages (from-to)310-320
Number of pages11
JournalJournal of the Mechanical Behavior of Biomedical Materials
Volume32
DOIs
Publication statusPublished - 2014 Apr

Keywords

  • Adiabatic heating
  • Beta titanium alloy
  • Strength
  • Stress-induced martensite
  • Swaging
  • Young's modulus

ASJC Scopus subject areas

  • Biomaterials
  • Biomedical Engineering
  • Mechanics of Materials

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