- Title
- Overview of SIMS-based experimental studies of tracer diffusion in solids and application to Mg self-diffusion
- Creator
- Kulkarni, Nagraj S.; Bruce Warmack, Robert J.; Radhakrishnan, Bala; Hunter, Jerry L.; Sohn, Yongho; Coffey, Kevin R.; Murch, Graeme E.; Belova, Irina V.
- Relation
- Journal of Phase Equilibria and Diffusion Vol. 35, Issue 6, p. 762-778
- Publisher Link
- http://dx.doi.org/10.1007/s11669-014-0344-4
- Publisher
- Springer
- Resource Type
- journal article
- Date
- 2014
- Description
- Tracer diffusivities provide the most fundamental information on diffusion in materials, and are the foundation of robust diffusion databases that enable the use of the Onsager phenomenological formalism with no major assumptions. Compared to traditional radiotracer techniques that utilize radioactive isotopes, the secondary ion mass spectrometry (SIMS)-based thin-film technique for tracer diffusion is based on the use of enriched stable isotopes that can be accurately profiled using SIMS. An overview of the thin-film method for tracer diffusion studies using stable isotopes is provided. Experimental procedures and techniques for the measurement of tracer diffusion coefficients are presented for pure magnesium, which presents some unique challenges due to the ease of oxidation. The development of a modified Shewmon-Rhines diffusion capsule for annealing Mg and an ultra-high vacuum system for sputter deposition of Mg isotopes are discussed. Optimized conditions for accurate SIMS depth profiling in polycrystalline Mg are provided. An automated procedure for correction of heat-up and cool-down times during tracer diffusion annealing is discussed. The non-linear fitting of a SIMS depth profile data using the thin-film Gaussian solution to obtain the tracer diffusivity along with the background tracer concentration and tracer film thickness is demonstrated. An Arrhenius fit of the Mg self-diffusion data obtained using the low-temperature SIMS measurements from this study and the high-temperature radiotracer measurements of Shewmon and Rhines (Trans. AIME 250:1021-1025, 1954) was found to be a good representation of both types of diffusion data over a broad range of temperatures between 250 and 627°C (523 and 900 K).
- Subject
- database; diffusion; isotope; magnesium; self diffusivity; SIMS; tracer diffusivity
- Identifier
- http://hdl.handle.net/1959.13/1299271
- Identifier
- uon:19832
- Identifier
- ISSN:1547-7037
- Language
- eng
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