Mark W. Hilburger scite author profile

Directorate. The SBKF project has the current goal of developing less-conservative, robust shell buckling design factors (a.k.a. knockdown factors) and design and analysis technologies for light-weight stiffened metallic launch vehicle (LV) structures. Preliminary design studies indicate that implementation of these new knockdown factors can enable significant reductions in mass and mass-growth in these vehicles and can help mitigate some of NASA's LV development and performance risks. In particular, it is expected that the results from this project will help reduce the reliance on testing, provide high-fidelity estimates of structural performance, reliability, robustness, and enable increased payload capability. The SBKF project objectives and approach used to develop and validate new design technologies are presented, and provide a glimpse into the future of design of the next generation of buckling-critical launch vehicle structures.

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Effects of imperfections of the buckling response of composite shells

Hilburger

Starnes

2004

Thin-Walled Structures

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Buckling Behavior of Compression-Loaded Composite Cylindrical Shells with Reinforced Cutouts

Hilburger

Nemeth

2002

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Results from a numerical study of the response of thin-wall compression-loaded quasi-isotropic laminated composite cylindrical shells with reinforced and un- an unexpected increase in the magnitude of local deformations and stresses in the shell and cause a reduction in the buckling load. Specific cases are presented that suggest that the orthotropy, thickness, and size of a cutout reinforcement in a shell can be tailored to achieve improved response characteristics.

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Shell Buckling Design Criteria Based on Manufacturing Imperfection Signatures

2006

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Mark W. Hilburger

Geometric imperfections and lower-bound methods used to calculate knock-down factors for axially compressed composite cylindrical shells

Developing the Next Generation Shell Buckling Design Factors and Technologies

Effects of imperfections of the buckling response of composite shells

Buckling Behavior of Compression-Loaded Composite Cylindrical Shells with Reinforced Cutouts

Shell Buckling Design Criteria Based on Manufacturing Imperfection Signatures

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