Fracture characterization in patterned thin films by cross-sectional nanoindentation

Fracture characterization in patterned thin films by cross-sectional nanoindentation

A testing technique based on cross-sectional nanoindentation has been used to assess the mechanical reliability of interconnect structures. A Berkovich indenter was used to initiate fracture in a silicon substrate and cracks propagated through the structure. To better control crack growth and to con...

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Veröffentlicht in:Acta materialia 2006-08, Vol.54 (13), p.3453-3462
Hauptverfasser: Ocaña, I., Molina-Aldareguia, J.M., Gonzalez, D., Elizalde, M.R., Sánchez, J.M., Martínez-Esnaola, J.M., Gil Sevillano, J., Scherban, T., Pantuso, D., Sun, B., Xu, G., Miner, B., He, J., Maiz, J.
Format: Artikel
Sprache:eng
Schlagworte:
Applied sciences
Cohesive model
Computer simulation
Crack initiation
Crack propagation
Cross sections
Exact sciences and technology
Fracture
Fracture mechanics
Fractures
Indenters
Interfaces
Mathematical models
Mechanical properties and methods of testing. Rheology. Fracture mechanics. Tribology
Metals. Metallurgy
Nanoindentation
Thin films
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Zusammenfassung:A testing technique based on cross-sectional nanoindentation has been used to assess the mechanical reliability of interconnect structures. A Berkovich indenter was used to initiate fracture in a silicon substrate and cracks propagated through the structure. To better control crack growth and to convert the problem into two dimensions, a trench parallel to the indentation surface was previously machined using a focused ion beam. The crack lengths obtained for different material systems in the interconnect structure correlate well with the fracture energies measured for the same materials in blanket films. Finite element model simulations incorporating cohesive elements have been used to model the fracture processes and to explain the different cracking behaviour observed.
ISSN:1359-6454
1873-2453
DOI:10.1016/j.actamat.2006.03.027