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Purpose

This study aims to investigate the fracture behavior and reliability of large-area sintered Cu for power electronic packaging, with a specific focus on the influence of the “edge effect” on interfacial performance and structural deformation.

Design/methodology/approach

By fabricating sintered Cu joints with different dimensions (8 × 8 mm2, 16 × 16 mm2 and 32 × 32 mm2) and evaluating their microstructures, mechanical properties and warpage behavior, the mechanism of nonuniform performance degradation induced by the “edge effect” is revealed.

Findings

As bonding area increases from 8 × 8 mm2 to 32 × 32 mm2, shear strength drops from 105.18 MPa to 61.36 MPa, while edge porosity rises from 13.92% to 28.87%. High-temperature storage and thermal cycling (TC) exacerbate void expansion, with edge porosity reaching 37.73% after TC. Simulation reveals that stress induced by coefficient of thermal expansion mismatch increases nonlinearly with area, correlating with strength degradation zones. Experimental warpage matches simulation results within 6% error.

Originality/value

This study provides a crucial experimental basis and theoretical support for the process optimization and reliability design of large-area sintered Cu.

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