A theoretical study of the HCP to omega martensitic phase transition in titanium

Trinkle, Dallas Rhea, III

January 2003

No description available.

Physics, Condensed Matter

martensitic

titanium

omega phase

atomistic mechanism

impurities

molecular dynamics

nucleation

solid-solid transformation

Fázové transformace a mikrostrukturní změny ve slitině TIMET LCB / Fázové transformace a mikrostrukturní změny ve slitině TIMET LCB

Šmilauerová, Jana

January 2012

In the present work, phase transformations in TIMETAL LCB tita- nium alloy and their influence on mechanical properties were studied. Different initial conditions were prepared by solution treating above β-transus immedi- ately followed by heat treatment in α/β temperature regime. These resulted in different grain boundary α thicknesses and contiguities at a fixed α vol- ume fraction. The subsequent ageing response of this material was studied by low temperature ageing at 400 ◦ C, 450 ◦ C and 500 ◦ C. Phase transformations were studied by X-ray diffraction (XRD), scanning electron microscopy (SEM), differential scanning calorimetry (DSC) and resistivity measurements. Mechan- ical properties were investigated using microhardness measurements and tensile tests. It has been proved that metastable ω phase is formed during annealing at 400 ◦ C and 450 ◦ C. ω particles further transform to very fine precipitates of α phase when exposed to annealing for longer time periods. These fine precip- itates significantly contribute to increase of microhardness and achieving high value of yield stress. Keywords: Metastable beta Ti alloys, phase transformations, microstructure changes, ω phase 1

Structure and Properties of Titanium Tantalum Alloys for Biocompatibility

Huber, Daniel Edward

January 2016

No description available.

Materials Science

Metallurgy

Titanium

Martensite

Elastic Modulus

Metallic Biomaterials

Gum metal

Martensitic transformation

Omega phase

Composition Dependence