论文信息 - Fabrication of Active Thin Films for Vibration Damping In MEMS Devices for the Next Generation Army Munition Systems

Fabrication of Active Thin Films for Vibration Damping In MEMS Devices for the Next Generation Army Munition Systems

Abstract : This research combined continuum mechanics modeling, materials design, materials fabrication/processing, and experimental testing/characterization to promote a materials solution for passive damping of undesirable extrinsic vibrations in microelectromechanical-systems-based devices. Shape memory alloy, nickel titanium (NiTi) thin films were deposited by an in-situ reactive DC magnetron sputtering process and piezoelectric, barium strontium titanate (Ba0.80Sr0.20TiO3) were fabricated using pulsed laser deposition and metal organic solution deposition techniques. These films were integrated as a bi-layer structure on n+ platinum silicon substrates to form a vibration-damping pedestal module known as "active materials". The optimized post deposition annealing temperatures for the shape memory alloy and piezoelectric thin films were determined to be 500 and 750 degrees C, respectively. Crystalline, pinhole-free, and crackfree films of 250-400 nm thickness were fabricated. The surface roughness of the films was around 2.2 nm with average grain size of approximately 50 nm. Cross- sectional microscopy affirmed the dense and uniform microstructure. The bilayer pedestal design concept offers a solution for passive damping.

[1] Pavel M. Chaplya,et al. Investigation of energy absorption capabilities of piezoelectric ceramic , 2001, SPIE Smart Structures and Materials + Nondestructive Evaluation and Health Monitoring.

[2] Gregory P. Carman,et al. Composition and annealing effects on the mechanical properties of superelastic thin film nickel titanium , 2003, SPIE Smart Structures and Materials + Nondestructive Evaluation and Health Monitoring.

[3] J. Horwitz,et al. The effect of annealing on the microwave properties of Ba0.5Sr0.5TiO3 thin films , 1999 .

[4] M. Ervin,et al. La doped Ba1−xSrxTiO3 thin films for tunable device applications , 2001 .

[5] T. Morita,et al. Ferroelectric properties of an epitaxial lead zirconate titanate thin film deposited by a hydrothermal method below the Curie temperature , 2004 .

[6] F. Ren,et al. Improved Ni based composite Ohmic contact to n-SiC for high temperature and high power device applications , 2000 .

[7] P. Joshi,et al. Properties of Ba(Mg1/3Ta2/3)O3 thin films prepared by metalorganic solution deposition technique for microwave applications , 1998 .

[8] Melanie W. Cole,et al. The influence of Mg doping on the materials properties of Ba1−xSrxTiO3 thin films for tunable device applications , 2000 .