Shear capacity of reinforced concrete corbels using mechanism analysis

A mechanism analysis is developed to predict the shear capacity of reinforced concrete corbels. Based on shear failure observed in experimental tests, kinematically admissible failure mechanisms are idealised as an assemblage of two rigid blocks separated by a failure plane of displacement discontinuity. Shear capacity predictions obtained from the developed mechanism analysis are in better agreement with corbel test results of a comprehensive database compiled from the available literature than other existing models for corbels. The developed mechanism model shows that the shear capacity of corbels generally decreases with the increase of shear span-to-depth ratio, increases with the increase of main longitudinal reinforcement up to a certain limit beyond which it remains constant, and decreases with the increase of horizontal applied loads. It also demonstrates that the smaller the shear span-to-overall depth ratio of corbels, the more effective the horizontal shear reinforcement

Blood lactate in trained cyclists during cycle ergometry at critical power

The purposes of this investigation were to determine the validity of critical power (CP) as a measure of the work rate that can be maintained for a very long time without fatigue and to determine whether this corresponded with the maximal lactate steady-state (lass,max). Eight highly trained endurance cyclists (maximal oxygen uptake 74.1 ml.kg-1.min-1, SD 5.3) completed four cycle ergometer tests to exhaustion at pre-determined work rates (360, 425, 480 and 520 W). From these four co-ordinates of work and time to fatigue the regression of work limit on time limit was calculated for each individual (CP). The cyclists were then asked to exercise at their CP for 30 min. If CP could not be maintained, the resistance was reduced minimally to allow the subject to complete the test and maintain a blood lactate plateau. Capillary blood was sampled at 0,5,10,20 and 30 min into exercise for the analysis of lactate. Six of the eight cyclists were unable to maintain CP for 30 min without fatigue. In these subjects, the mean power attained was 6.4% below that estimated by CP. Mean blood lactates (n = 8) reached a steady-state (8.9 mmol.l-1 SD 1.6) during the last 20 min of exercise indicating that CP slightly overestimated lass,max, Individual blood lactates during the last 20 min of exercise were more closely related to the gamma-intercept of the CP curve (r = 0.78, P less than 0.05) than either CP (0.34, NS) or mean power output (r = 0.42, NS)

Freqüência cardíaca máxima em esteira ergométrica em diferentes horários Frecuencia cardíaca máxima en cinta ergométrica a diferentes horarios Maximal heart rate on treadmill at different times

Como muitas medidas do desempenho humano apresentam variações circadianas que parecem acompanhar o ritmo da temperatura corporal, o objetivo deste estudo foi comparar a freqüência cardíaca máxima (FCmax) no teste de Bruce (Tbruce) em diferentes horários do dia. Foram estudados 11 indivíduos do gênero masculino, com 22,0 ± 1,6 anos, fisicamente ativos e do cronotipo intermediário. Observaram-se FC de repouso (FCrep), FC máxima (FCmax), percepção de esforço (PE) e tempo até a exaustão (TBruce). Para medir a FC, foi utilizado o cardiofreqüencímetro Polar Vantage NV. A PE foi obtida pela escala de Borg (6-20). Aplicou-se o protocolo de Bruce para esteira ergométrica, até a exaustão, em seis horários distintos: 9:00, 12:00, 15:00, 18:00, 21:00 e 24:00 horas. Os resultados foram submetidos à análise de variância para medidas repetidas, seguida do teste de Tukey (p < 0,05) e ao ajuste Cosinor para identificação de padrões rítmicos. Houve diferença significativa entre a FCrep das 15:00 e 24:00 horas (67,2 ± 6,9 e 60,4 ± 6,4bpm) e na FCmax das 12:00 e 24:00 horas (197,4 ± 7,9 e 191,3 ± 5,8bpm). Não foi observada diferença na PE e no TBruce. Foi encontrada ritmicidade em um indivíduo na FCrep, um na FCmax e dois no TBruce. Concluiu-se que, em condições não controladas, mantendo-se as atividades diárias, tanto a FCrep quanto a Fcmax apresentam valores mais baixos por volta das 24:00 horas, sem perda no desempenho aeróbio máximo e sem alteração da PE. Esses achados devem ser considerados na avaliação aeróbia e na prescrição de exercícios em horários mais tardios.<br>Debido a que muchas medidas de desempeño humano presentan variaciones circadianas que parecen acompañar el ritmo de la temperatura corporal, el objetivo de este estudio ha sido el de comparar la frecuencia cardíaca máxima (FCmax) en el test de Bruce (TBruce) en diferentes horarios del día. Fueron estudiados 11 individuos del género masculino, con 22,0 ± 1,6 años, físicamente activos y de cronotipo intermedio. Se observó la FC de reposo (FCrep), FC máxima (FCmax), percepción de esfuerzo (PE) y tiempo hasta la extenuación (TBruce). Para medir la FC se usó el cardiofrecuencímetro Polar Vantage NV. La PE se obtuvo por la escala de Borg (6-20). Se aplicó el protocolo de Bruce para cinta ergométrica, hasta la extenuación, en 6 horarios distintos: 9:00, 12:00, 15:00, 18:00, 21:00 y 24:00 horas. Los resultados fueron sometidos a análisis de varianza para medidas repetidas, seguida del test de Tukey (p < 0,05) y al ajuste Cosinor para identificación de los padrones rítmicos. Hubo diferencia significativa entre la FCrep de las 15:00 y 24:00 h (67,2 ± 6,9 y 60,4 ± 6,4 bpm) y en la FCmax de las 12:00 y 24:00 horas (197,4 ± 7,9 y 191,3 ± 5,8 bpm). No fue observada diferencia en la PE y en el TBruce. Se encontró ritmo en 1 individuo en la FCrep, 1 en la FCmax y 2 en el TBruce. A partir de esto se concluyó que, en condiciones no controladas, manteniéndose las actividades diarias, tanto la FCrep, como la Fcmax, presentan valores más bajos alrededor de las 24:00 horas, sin pérdida en el desempeño aeróbico máximo y sin alteración de PE. Estos resultados deben ser considerados en la evaluación aeróbica y en la prescripción de ejercicios en horarios más tardíos.<br>The aim of this study was to compare the maximal heart rate (HRmax) in the Bruce test (TBruce) at different times of the day, since several measurements of the human performance present circadian variations which seem to follow the body temperature rhythm. Eleven male individuals, with 22.0 ± 1.6 years, physically active and from the intermediate chronotype were studied. The resting HR (HRres), maximal HR (HRmax), perceived exertion (PE) and time until exhaustion (TBruce) were observed. The Polar Vantage NV cardiofrequencymeter was used in order to measure the HR. The PE was obtained through the Borg's scale (6-20). The protocol by Bruce for treadmill was applied until exhaustion, at 6 different times: 9:00; 12:00; 15:00; 18:00; 21:00 and 24:00 hours. The results were submitted to the variance analysis for repeated measurements, followed by Tukey test (p < 0.05) and the Cosinor adjustment for identification of rhythmic patterns. There was significant difference between the HRres of the 15:00 and 24:00 h (67.2 ± 6.9 and 60.4 bpm) and in the HR max of the 12:00 and 24:00 hours (197.4 ± 7.9 and 191.3 ± 5.8 bpm). No difference was identified in the PE and in the TBruce. Rhythmicity was found in 1 individual in the HRres, 1 in the HRmax and 2 in the TBruce. It was concluded that in uncontrolled conditions, whenever daily activities are kept, both HRres and HRmax present lower indices around 24:00 hours, with no loss in the maximal aerobic performance and no PE alteration. These findings should be considered in the aerobic evaluation and in the exercises prescription at later times