Misalignment in Mechanical Interlocking Heterogeneous Integration: Emergent Behavior and Geometry Optimization
Matthew Nakamura, Corrisa Heyes, Ethan Rocheville, Kirsten Peterson, Joseph J. Brown

TL;DR
This paper studies how misalignment affects the mechanical performance of interlocking structures used in integrating circuits, offering design insights to improve reliability.
Contribution
The study introduces a design template for optimizing misalignment tolerance in cantilever arrays using nonlinear mechanics.
Findings
X-axis misalignment below 15% increases snap-through force by less than 5%.
Y-axis misalignment up to 20% reduces force by less than 5%.
Polynomial fits provide a design template for cantilever interactions with minimal computational load.
Abstract
This paper addresses the challenge of misalignment in cantilever-based mechanical interlocking structures used for the heterogeneous integration of integrated circuits (ICs). As IC applications expand into flexible and multi-functional platforms, precise alignment becomes critical to maintaining optimal mechanical and electrical performance. We investigate the effects of X and Y misalignment on snap-through forces in cantilever arrays, focusing on their impact on mechanical integrity. The experimental results demonstrate that for X-axis misalignments below 15%, the increase in the required snap-through force is less than 5%. In contrast, Y-axis misalignment shows an even more negligible impact, with less than a 5% reduction in force for up to 20% misalignment. Additionally, through polynomial fits of the model across a range of cantilever angles, this study provides a design template…
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Taxonomy
TopicsAdhesion, Friction, and Surface Interactions · 3D IC and TSV technologies · Electronic Packaging and Soldering Technologies
