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Title: Characterization of Blistering and Delamination in Depleted Uranium Hohlraums

Journal Article · · Fusion Science and Technology

Blistering and delamination are the primary failure mechanisms during the processing of depleted uranium (DU) hohlraums. These hohlraums consist of a sputter-deposited DU layer sandwiched between two sputter-deposited layers of gold; a final thick gold layer is electrodeposited on the exterior. The hohlraum is deposited on a copper-coated aluminum mandrel; the Al and Cu are removed with chemical etching after the gold and DU layers are deposited. After the mandrel is removed, blistering and delamination are observed on the interiors of some hohlraums, particularly at the radius region. It is hypothesized that blisters are caused by pinholes in the copper and gold layers; etchant leaking through these holes reaches the DU layer and causes it to oxidize, resulting in a blister. Depending on the residual stress in the deposited layers, blistering can initiate larger-scale delamination at layer interfaces. Scanning electron microscopy indicates that inhomogeneities in the machined aluminum mandrel are replicated in the sputter-deposited copper layer. Furthermore, the Cu layer exhibits columnar growth with pinholes that likely allow etchant to come in contact with the gold layer. Any inhomogeneities or pinholes in this initial gold layer then become nucleation sites for blistering. Using a focused ion beam system to etch through the gold layer and extract a cross-sectional sample for transmission electron microscopy, amorphous, intermixed layers at the gold/DU interfaces are observed. Nanometer-sized bubbles in the sputtered and electrodeposited gold layers are also present. Characterization of the morphology and composition of the deposited layers is the first step in determining modifications to processing parameters, with the goal of attaining a significant improvement in hohlraum yield.

Research Organization:
Lawrence Livermore National Lab. (LLNL), Livermore, CA (United States)
Sponsoring Organization:
USDOE
DOE Contract Number:
AC52-07NA27344
OSTI ID:
1358303
Report Number(s):
LLNL-JRNL-578336
Journal Information:
Fusion Science and Technology, Vol. 63, Issue 2; ISSN 1536-1055
Publisher:
American Nuclear Society
Country of Publication:
United States
Language:
English

References (24)

The velocity campaign for ignition on NIF journal May 2012
Atomic scale structure of sputtered metal multilayers journal November 2001
The low energy ion assisted control of interfacial structure: Ion incident energy effects journal June 2000
Mechanisms of inert gas impact induced interlayer mixing in metal multilayers grown by sputter deposition journal October 2001
Thermodynamic and kinetic aspects of the crystal to glass transformation in metallic materials journal January 1986
Amorphisation in solid metallic systems journal April 1988
Effects of backsputtering and amorphous silicon capping layer on the formation of TiSi 2 in sputtered Ti films on (001)Si by rapid thermal annealing journal April 1988
Phase sequence in the solid state amorphization reaction of metallic thin films journal July 1989
Formation of an Amorphous Alloy by Solid-State Reaction of the Pure Polycrystalline Metals journal August 1983
Amorphous alloys formed by solid state reaction journal May 1993
Reactive phase formation in sputter-deposited Ni/Al multilayer thin films journal January 1997
The thermodynamics of amorphous phases in immiscible systems: The example of sputter-deposited Nb–Cu alloys journal May 1997
Solid-state amorphization in Al-Pt multilayers by low-temperature annealing journal June 1989
A differential scanning calorimetry study of solid state amorphization in multilayer Ni/Zr journal January 1988
Observation of a rapid amorphization reaction journal August 1992
The diffusion of gold in gamma uranium journal January 1961
Characterization and modelling of helium bubbles in self-irradiated plutonium alloys journal February 2005
He bubble coarsening by migration and coalescence in annealed Pu–Ga alloys journal March 2011
Grain coarsening and gas bubbles in annealed gold films journal June 1975
Microporosity in thin films journal November 1979
Microporosity induced by nucleation and growth processes in crystalline and non-crystalline films journal September 1977
Argon bubbles in sputtered amorphous Nb3Ge films, studied by collective fluxpinning and transmission electron microscopy journal March 1987
Structure of Electroplated Hard Gold Observed by Transmission Electron Microscopy journal September 1976
Effect of the surface roughness of substrates on the corrosion properties of films coated by physical vapour deposition journal December 1991

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36 MATERIALS SCIENCE