Effects of cycle load amplitude and count on fatigue damage progression in wooden furniture mortise-and-tenon joints quantified using porosity, fit, friction coefficient, and direct withdrawal load resistance | Synapse
March 3, 2026
Effects of cycle load amplitude and count on fatigue damage progression in wooden furniture mortise-and-tenon joints quantified using porosity, fit, friction coefficient, and direct withdrawal load resistance
Key Points
Fatigue damage progression increases with higher cycle load amplitudes and counts, impacting joint integrity.
Critical findings show a direct correlation between porosity levels, friction coefficient, and withdrawal load resistance.
Analysis of joint performance involved quantifying features such as fit, snugness, and mechanical resistance under stress.
Understanding these factors helps improve furniture design and longevity, leading to more durable products.