Microscale Laser Shock Peening of Thin Films, Part 2: High Spatial Resolution Material Characterization

Source: Journal of Manufacturing Science and Engineering:;2004:;volume( 126 ):;issue: 001::page 18
Author:
Wenwu Zhang
 ,
I. C. Noyan
 ,
Y. Lawrence Yao
DOI: 10.1115/1.1645879
Publisher: The American Society of Mechanical Engineers (ASME)
Abstract: Microscale Laser Shock Peening (LSP) is a technique that can be potentially applied to manipulate the residual stress distributions in metal film structures and thus improve the reliability of micro-devices. This paper reports high-spatial-resolution characterization of shock treated copper thin films on single-crystal silicon substrates, where scanning x-ray microtopography is used to map the relative variation of the stress/strain field with micron spatial resolution, and instrumented nanoindentation is applied to measure the distribution of hardness and deduce the sign of the stress/strain field. The measurement results are also compared with 3-D simulation results. The general trends in simulations agree with those from experimental measurements. Simulations and experiments show that there is a near linear correlation between strain energy density at the film-substrate interface and the X-ray diffraction intensity contrast.
keyword(s): Thin films , X-rays , Copper , X-ray diffraction , Stress , Resolution (Optics) , Shock (Mechanics) , Microscale devices , Laser hardening , Nanoindentation , Density , Silicon , Engineering simulation AND Measurement ,
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http://yetl.yabesh.ir/yetl1/handle/yetl/130411
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