Intertanks, the structure between tanks of launch vehicles, are prime candidates for weight reduction of rockets. This paper discusses the optimization and detailed analysis of a 96 inches (2.44 m) diameter, 77 inches (1.85 m) tall intertank, The structure has composite face sheets and an aluminum honeycomb core. The ends taper to a thick built-up laminate for a double lap bolted shear joint. It comprises 8 full length panels joined with bonded double lap joints. The nominal line lead is 4000 lb/in (7*105 N/m). Optimization is by Genetic Algorithm and minimizes weight by varying core thickness, number and orientation of acreage and build-up plies, and the size, number and spacing of bolts. A variety of cases were run with populations up to 2000 and chromosomes as long as 150 bits. Constraints were buckling, face stresses (normal, shear, wrinkling and dimpling), bolt stress, and bolt hole stresses (bearing, not tension, wedge splitting, shear out and tension/shear out). Analysis is by a combination of theoretical solutions and empirical data. After optimization, a series of coupon tests were performed in conjunction with a rigorous analysis involving a variety of finite element models. The analysis and test resulted in several small changes to the optimized design. The intertank has undergone a 265,000 lb (1.2*106 N) limit load test and been mated with a composite liquid hydrogen tank. The tank/intertank unit is being installed in a test stand where it will see 200 thermal/load cycles. Afterwards the intertank will be demated and loaded in compression to failure.
Design optimization and analysis of a composite honeycomb intertank
1999
10 Seiten, 6 Quellen
Aufsatz (Konferenz)
Englisch
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