D. S. Brodie scite author profile

D. S. Brodie

3Publications

9Citation Statements Received

26Citation Statements Given

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Heriot-Watt University

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Shear horizontal surface acoustic wave induced microfluidic flow

Brodie

et al. 2011

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In this letter, we demonstrate that surface acoustic waves (SAWs) excited on 36°Y-X LiTaO3 have both Rayleigh and shear horizontal components, which can result in different acoustic streaming patterns in micro-droplets. The shear horizontal surface acoustic wave streaming pattern exhibits a quasi-stable counterflow in the SAW propagation direction with velocities of up to 16 mm/s, with minimal damping observed within the droplets. A pumping function was realized at a threshold power of 30 dBm with a large rotation vector on hydrophobically treated devices.

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Toward a better understanding of morphology changes in solders using phase field theories: Quantitative modeling and experimental verification

Brodie

Gunn

Müller³

et al.

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This paper concentrates on open problems regarding recently published work [l-31 in the field of modeling micromorphologica1 changes in lead-free solders using phase field theories of the Cahn-Hilliard type. Specific examples will be eutectic SnPb, SnAg, and AgCu. After a short review of the phenomenology all the relevant equations will be set up, which are required for describing the state of stress and the temporalhpatial distribution of the atomic species in these alloys. The numerical procedures used for solution of these equations will be briefly touched upon. Examples of simulations will be given and the material parameters used therein will be discussed in detail.In particular the available data for the so-called higher gradient coefficients (I-IGCs) will be carefully examined. In order to obtain reliable HGC data an atomistic point-of-view is proposed. To this end an atomistic interpretation of the Gibbs free energy of a binary alloy is presented and, by comparison with a phenomenological Redlich-Kistler ansatz, as well as data for the compressibility and for the sublimation energy of the alloy the Lennard-Jones potentials of all participating atomic species are determined. These in turn allow to numerically obtain the gradient energy coefficients through summation w.r.t. nearest and higher neighbor interactions. Deviations to the classical theory as outlined in the seminal paper by Cahn and Hilliard are also presented, various other higher gradient terms for the extended difhsion flux are derived, and their influence on microstructural development is assessed. All steps and procedures involved are outlined and evaluated numerically for the special cases of eutectic AgCu solder showing pronounced phase separation and coarsening behavior.

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Test Structures for Characterizing the Integration of EWOD and SAW Technologies for Microfluidics

Winters

et al. 2012

IEEE Trans. Semicond. Manufact.

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D. S. Brodie

Shear horizontal surface acoustic wave induced microfluidic flow

Toward a better understanding of morphology changes in solders using phase field theories: Quantitative modeling and experimental verification

Test Structures for Characterizing the Integration of EWOD and SAW Technologies for Microfluidics

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