Iterative method for obtaining nonuniform grinding-induced residual stress distribution of silicon wafers based on global deformation

Article Engineering, Manufacturing

Molecular dynamics study of crystal orientation effect on surface generation mechanism of single-crystal silicon during the nano-grinding process

Pengyue Zhao et al.

Summary: This study used molecular dynamics simulation method to investigate the nano-grinding process of single-crystal silicon workpieces with different surface crystal orientations, and compared the results with experimental results. It was found that while the machined surface quality was similar for workpieces with different surface crystal orientations, subsurface damage, processing force, phase transition, and residual stress varied significantly. Among the three types of workpieces, the single-crystal silicon workpiece with {110} surface crystal orientation showed the best processing effect.

JOURNAL OF MANUFACTURING PROCESSES (2022)

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Article Nanoscience & Nanotechnology

Modified Stoney formula for determining stress within thin films on large-deformation isotropic circular plates

Haijun Liu et al.

Summary: A modified Stoney formula is proposed in this study to accurately calculate residual stress in films under large deformations. The formula uses an exponential decay function to relate substrate curvature to stress in the film, and can be applied to isotropic circular plates of various dimensions and materials.

AIP ADVANCES (2021)

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Article Engineering, Electrical & Electronic

Obtainment of Residual Stress Distribution from Surface Deformation under Continuity Constraints for Thinned Silicon Wafers

Haijun Liu et al.

Summary: Precision machining-induced residual stress is difficult to directly obtain and often fluctuates greatly across the wafer surface. A regularization method with continuity constraints was proposed to solve this problem and successfully obtained stable and continuous residual stress distribution. This method can also be applied to estimate residual stress from surface deformation for thin substrate plates of other materials.

MACHINES (2021)

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Review Engineering, Electrical & Electronic