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Tests of reinforced concrete short columns laterally strengthened with wire rope units and steel elementsYang, Keun-Hyeok, Ashour, Ashraf January 2007 (has links)
Yes / The current paper presents a simple unbonded-type column strengthening technique with wire rope units and few
steel elements. Eleven short columns were strengthened using the proposed procedure and tested under monotonic
concentric axial loads. The main variables investigated to evaluate the confinement effectiveness of strengthened
concrete columns were the volume ratio, prestress, diameter, spacing and configuration of wire rope units. The
strength gain factor and ductility ratio increased with the increase of volume ratio of wire ropes. The prestress
applied to wire ropes had little influence on the strength gain factor but the ductility ratio decreased with the
increase of prestress in the wire ropes, owing to earlier rupture of wire ropes. At the same volume ratio of wire
ropes, the maximum strength of columns was nearly independent on the configuration of the wire ropes, but higher
ductility was exhibited by columns strengthened with rectangular spiral-type wire ropes than by columns strengthened
with hoop-type wire ropes, until rupture of the wire ropes. The strength gain factor and ductility ratio of
strengthened columns were compared with those of tied columns tested in a previous study. The load capacity of
strengthened columns was also predicted using the ACI 318-05 equation modified to reflect the load-carrying effect
of steel elements. A much higher strength gain factor and ductility ratio were exhibited by strengthened columns
than tied columns having the same lateral reinforcement, except for strengthened columns with wire rope spacing
above 0.5 times core width. The axial load capacity of strengthened columns was higher than that of unstrengthened
columns by 5¿20%, and could be reasonably predicted using the modified ACI 318-05 equation.
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[en] ASSESSMENT ON MIX DESIGN AND FLEXURAL PERFORMANCE OF REINFORCED CONCRETE SHORT BEAMS MADE WITH MIXED RECYCLED COARSE AGGREGATE / [pt] AVALIAÇÃO DA DOSAGEM E DESEMPENHO À FLEXÃO DE VIGAS CURTAS DE CONCRETO ARMADO PRODUZIDAS COM AGREGADO GRAÚDO RECICLADO MISTOFERNANDA DE ANDRADE SALGADO 03 July 2023 (has links)
[pt] Nas últimas décadas, o setor da construção tem procurado mitigar os efeitos
da sua atividade desenvolvendo novas formulações de materiais mais sustentáveis.
Diversos estudos têm analisado a viabilidade do uso de agregado reciclado a partir
de resíduos de construção e demolição, em substituição ao agregado natural. As
normas internacionais restringem o uso de agregados reciclados em concreto
estrutural, geralmente limitando-se a agregados reciclados compostos apenas por
fragmentos cimentícios. Entretanto, a utilização de agregado reciclado com certo
teor de fragmentos cerâmicos simplificaria o processo de separação antes da
reciclagem, tornando-a mais viável e barata. Neste trabalho, observou-se que
mesmo a substituição de 100 por cento do agregado natural por agregado reciclado misto
não causou impacto significativo nas propriedades do concreto fresco e endurecido.
Os resultados experimentais também mostraram que o Modelo do Empacotamento
Compressível pode ser aplicado com sucesso para a dosagem de concretos
produzidos com agregado reciclado misto até a classe de resistência C50. Por fim,
os resultados à flexão de vigas curtas de concreto armado mostraram que as
prescrições da norma brasileira ABNT NBR 6118:2014 para concretos
convencionais também podem ser aplicadas a vigas de concreto com agregado
reciclado misto com até 15 por cento de fragmentos cerâmicos. / [en] In the last decades, the construction sector has tried to mitigate the adverse
effects of its activity by developing new formulations for more sustainable
materials. Several studies have analyzed the feasibility of using recycled aggregate
from construction and demolition waste in concrete to replace natural aggregate.
International standards restrict the use of recycled aggregates in structural concrete,
usually limiting to recycled aggregates composed only of cement-based fragments.
However, using recycled aggregate with a certain content of ceramic fragments
would simplify the separation process before recycling, making it more feasible and
cheaper. In this work, it was observed that even replacing 100 percent of the natural
aggregate with mixed recycled aggregate did not cause a significant impact on fresh
and hardened concrete properties. The experimental results also showed that the
Compressible Packing Model could be successfully applied for the mix design of
mixed recycled aggregate concrete up to strength class C50. Finally, the results
regarding the flexural behavior of short reinforced concrete beams showed that the
prescriptions of the Brazilian standard ABNT NBR 6118:2014 for the bending
behavior of conventional concrete beams could also be applied to beams made with
concrete with mixed recycled aggregate up to 15 percent of ceramic fragments.
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