7,398 research outputs found
Drape optimization in woven composites manufacture.
This paper addresses the optimisation of forming in manufacturing of composites.
A simplified finite element model of draping is developed and implemented. The
model incorporates the non-linear shear response of textiles and wrinkling due
to buckling of tows. The model is validated against experimental results and it
is concluded that it reproduces successfully the most important features of the
process. The simple character of the model results in low computational times
that allow its use within an optimisation procedure. A genetic algorithm is used
to solve the optimisation problem of minimising the wrinkling in the formed
component by selecting a suitable holding force distribution. The effect of
regularisation is investigated and the L-curve is used to select a
regularisation parameter value. Optimised designs resulting from the inversion
procedure have significantly lower wrinkling than uniform holding force
profiles, while regularisation allows force gradients to be kept relatively low
so that suggested process designs are feasible
Legal and institutional aspects of Latin-American space cooperation AQUARELSat: The Water Monitoring Constellation
Since the 1960s Latin-American experts have supported the idea of regionalspace cooperation. Nevertheless, the way to implement this idea in legal termshas not been found yet. The lack of legal clarity in space cooperation haslimited its implementation in the region; thus, this research addresses the legaloptions available to Latin American countries for implementing regional spacecooperation, evolving from a non-institutional model to consolidated institutionalmodels of space cooperation
Intersubband transitions in nonpolar GaN/Al(Ga)N heterostructures in the short and mid-wavelength infrared regions
This paper assesses nonpolar m- and a-plane GaN/Al(Ga)N multi-quantum-wells
grown on bulk GaN for intersubband optoelectronics in the short- and
mid-wavelength infrared ranges. The characterization results are compared to
those for reference samples grown on the polar c-plane, and are verified by
self-consistent Schr\"odinger-Poisson calculations. The best results in terms
of mosaicity, surface roughness, photoluminescence linewidth and intensity, as
well as intersubband absorption are obtained from m-plane structures, which
display room-temperature intersubband absorption in the range from 1.5 to 2.9
um. Based on these results, a series of m-plane GaN/AlGaN multi-quantum-wells
were designed to determine the accessible spectral range in the mid-infrared.
These samples exhibit tunable room-temperature intersubband absorption from 4.0
to 5.8 um, the long-wavelength limit being set by the absorption associated
with the second order of the Reststrahlen band in the GaN substrates
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