The philosophies of aircraft design were changed with aircraft development. Several aviation accidents show that safe-life design and fail-safe design cannot ensure structure safety of operation. In Federal Aviation Regulations, for each part of the structure which could contribute to a catastrophic failure must also be evaluated by damage-tolerance analysis. Landing gear is one of major light-sports aircraft structures, so damage-tolerance analysis is important. The purpose of this study is to use finite element analysis software FRANC2D and crack growth analysis software AFGROW to simulate damage-tolerance behavior in light-sports aircraft landing gear, and discuss the results of initial crack locations and materials. Materials are aluminum alloy 6061-T6, 6061-T651, 2024-T3, 7075-T6, titanium Ti-6Al-4V and alloy steel 4340. Landing gear load is 450kg from CH701 maximum take-off weight. The results showed that crack propagation life of 6061-T6 landing gear was about 48,000 cycles with 1mm initial crack and 450kg loading. Compare with 6061-T6, crack propagation life of 7075-T6, 2024-T3, 6061-T651 landing gear increased by 21%, 156%, 236% respectively. The crack propagation life of titanium and alloy steel were much higher than aluminum. Life of Ti-6Al-4V was 15 times higher than 6061-T6,and life of 4340 steel was 27 times higher than 6061-T6.