"Three dimensional models." . . "Models Three dimensional." . . . . "Crack propagation." . . "Fatigue(mechanics)" . . "Safety." . . "Fracture(mechanics)" . . "Gear teeth." . . "Finite element analysis." . . "Gears." . . "NATIONAL AERONAUTICS AND SPACE ADMINISTRATION CLEVELAND OH LEWIS RESEARCH CENTER." . . . . . . . . . . . . . . . . . . . . . . . "Three-dimensional crack growth simulation was performed on a split-tooth gear design using boundary element modeling and linear elastic fracture mechanics. Initial cracks in the fillet of the teeth produced stress intensity factors of greater magnitude (and thus, greater crack growth rates) than those in the root or groove areas of the teeth. Crack growth simulation was performed on a case study to evaluate crack propagation paths. Tooth fracture was predicted from the crack growth simulation for an initial crack in the tooth fillet region. Tooth loads on the uncracked mesh of the split-tooth design were up to five times greater than those on the cracked mesh if equal deflections of the cracked and uncracked teeth were considered. Predicted crack shapes as well as crack propagation life are presented based on calculated stress intensity factors, mixed-mode crack propagation trajectory theories, and fatigue crack growth theories."@en . . . . . "Three-Dimensional Gear Crack Propagation Studies"@en . . . "Three-dimensional gear crack propagation studies"@en . "Machinery and Tools." . . "Cracking (Fracturing)" . . "Mechanics." . .