A simple and rapid analysis method, consisting of a number of modular, 'strength-of-materials-type' models, is presented for predicting the nonlinear response and stiffener separation of postbuckled, flat, composite, shear panels. The analysis determines the maximum principal tensile stress in the skin surface layer under to toe. Failure is said to occur when this stress reaches the mean transverse tensile strength of the layer. The analysis methodology consists of a number of closed-form equations that can easily be used in a 'hand analysis. For expediency, they have been programmed into a preliminary design code called SNAPPS (Speedy Nonlinear Analysis of Postbuckled Panels in Shear), which rapidly predicts postbuckling response of the panel for each value of the applied shear load. SNAPPS response and failure predictions were found to agree well with test results for three panels with widely different geometries, laminates and stiffnesses. Design guidelines are given for increasing the load-carrying capacity of stiffened, composite shear panels. Sharp, Dave and Sobel, Larry Langley Research Center COMPOSITE STRUCTURES; TENSILE STRESS; TENSILE STRENGTH; MECHANICAL PROPERTIES; LOAD CARRYING CAPACITY; PANELS; BUCKLING; SHEAR STRENGTH; SHEAR STRAIN; SHEAR STRESS; FAILURE; FUSELAGES; LAMINATES; LOADS (FORCES); NONLINEARITY; SURFACE LAYERS; WINGS...
ThriftBooks sells millions of used books at the lowest everyday prices. We personally assess every book's quality and offer rare, out-of-print treasures. We deliver the joy of reading in recyclable packaging with free standard shipping on US orders over $20. ThriftBooks.com. Read more. Spend less.