Global ETD Search

1	Protocolo incremental de corrida: comportamento de variáveis eletromiográficas, cinemáticas e metabólicas Fraga, Carina Helena Wasem [UNESP] 10 May 2010 (has links) (PDF) Made available in DSpace on 2014-06-11T19:30:53Z (GMT). No. of bitstreams: 0 Previous issue date: 2010-05-10Bitstream added on 2014-06-13T20:40:44Z : No. of bitstreams: 1 fraga_chw_dr_rcla.pdf: 2287250 bytes, checksum: 19a31b7d57d53f1dce9bd848d8b99deb (MD5) / Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP) / O presente estudo teve como objetivos: (1) determinar e comparar os Limiares de Fadiga Eletromiográficos (EMGLF) de diferentes músculos com limiares metabólicos, durante protocolo de corrida incremental; (2) comparar o sinal eletromiográfico (EMG), a freqüência de passada (FP) e amplitude de passada (AP) entre três intensidades de exercício, correspondentes a 60%, 80% e 100% da velocidade máxima (Vmáx); (3) analisar o efeito de um protocolo incremental de corrida sobre o comportamento do sinal EMG obtido a partir de contrações isométricas e dinâmicas. Para cada objetivo proposto, será apresentado um artigo, nos quais foram avaliados indivíduos com diferentes experiências na modalidade: corredores recreacionais (CR), sem treinamento específico em corrida; e, corredores (CO) que treinavam para competições específicas da modalidade. Os protocolos de corrida foram realizados com velocidades iniciais de 8 km.h-1 para CR e de 10 km.h-1 para CO, com incrementos de 1 km.h-1 a cada três minutos até a exaustão. Esses protocolos diferiram de acordo com o intervalo entre cada estágio incremental: 30 segundos (protocolo A) e 120 segundos (protocolo B). Nos dois protocolos, foram coletados, nos intervalos, amostras de 25 μl de sangue para determinação dos limiares metabólicos. Apenas no protocolo B, foram coletados sinais EMG de contrações isométricas submáximas nos intervalos entre os estágios incrementais. Sinais eletromiográficos (EMG) foram registrados por meio de eletrodos de superfície bipolares posicionados sobre os músculos iliocostal lombar (IC), reto femoral (RF), vasto lateral (VL), vasto medial (VM), bíceps femoral (porção longa) (BF), tibial anterior (TA), e gastrocnêmio (porção lateral) (GL). Os principais resultados encontrados apontam que (1) o EMGLF mostrou-se similar entre os diferentes músculos analisados e entre a velocidade correspondente... / This study aimed to: (1) determine and compare the electromyographic fatigue threshold (EMGFT) of different muscles with metabolic thresholds during incremental running protocol, (2) compare the electromyographic signal (EMG), the stride frequency (SF) and the stride length (SL) in three exercise intensities corresponding to 60%, 80% and 100% of maximum velocity (Vmax), (3) analyze the influence of an incremental running protocol on the behavior of the EMG signal obtained from isometric and dynamic contractions. An article will be presented for each proposed aim. The subjects were divided according to their experiences in the sport in: Recreational Runners (RR), with no specific training in running, and Runners (RU) who trained specifically for running competitions. The running protocols were performed with initial speeds of 8 km.h-1 for RR and 10 km.h-1 for RU. The increments were of 1 km.h-1 in every three minutes until exhaustion. The two protocols used differed in their interval between each increments in: 30 seconds (protocol A) and 120 seconds (protocol B). In both protocols, blood samples of 25 μl were collected at the intervals between increments to determination the metabolic thresholds. Only in the protocol B, EMG signals were collected from submaximal isometric contractions in the intervals between incremental stages. Electromyographic signals (EMG) were recorded by bipolar surface electrodes placed over the lumbar iliocostal (IC), rectus femoris (RF), vastus lateralis (VL), vastus medialis (VM), biceps femoris (long portion) (BF), tibialis anterior (TA) and gastrocnemius (lateral portion) (GL). The main findings indicate that (1) EMGFT proved to be similar among the different muscles and between the speed at which the anaerobic threshold occurred. Therefore, the EMGFT allowed the estimation of the transition from aerobic to anaerobic metabolism noninvasively in the two... (Complete abstract click electronic access below) Cinesiologia Fadiga Eletromiografia Corridas Fadiga muscular Limiar de fadiga eletromiográfico Muscle fatigue Electromyographic fatigue threshold
2	Protocolo incremental de corrida : comportamento de variáveis eletromiográficas, cinemáticas e metabólicas / Fraga, Carina Helena Wasem. January 2010 (has links) Orientador: Mauro Gonçalves / Banca: Júlio Cerca Serrão / Banca: Luis Mochizuki / Banca: Adalgiso Coscrato Cardozo / Banca: Camila Coelho Greco / Resumo: O presente estudo teve como objetivos: (1) determinar e comparar os Limiares de Fadiga Eletromiográficos (EMGLF) de diferentes músculos com limiares metabólicos, durante protocolo de corrida incremental; (2) comparar o sinal eletromiográfico (EMG), a freqüência de passada (FP) e amplitude de passada (AP) entre três intensidades de exercício, correspondentes a 60%, 80% e 100% da velocidade máxima (Vmáx); (3) analisar o efeito de um protocolo incremental de corrida sobre o comportamento do sinal EMG obtido a partir de contrações isométricas e dinâmicas. Para cada objetivo proposto, será apresentado um artigo, nos quais foram avaliados indivíduos com diferentes experiências na modalidade: corredores recreacionais (CR), sem treinamento específico em corrida; e, corredores (CO) que treinavam para competições específicas da modalidade. Os protocolos de corrida foram realizados com velocidades iniciais de 8 km.h-1 para CR e de 10 km.h-1 para CO, com incrementos de 1 km.h-1 a cada três minutos até a exaustão. Esses protocolos diferiram de acordo com o intervalo entre cada estágio incremental: 30 segundos (protocolo A) e 120 segundos (protocolo B). Nos dois protocolos, foram coletados, nos intervalos, amostras de 25 μl de sangue para determinação dos limiares metabólicos. Apenas no protocolo B, foram coletados sinais EMG de contrações isométricas submáximas nos intervalos entre os estágios incrementais. Sinais eletromiográficos (EMG) foram registrados por meio de eletrodos de superfície bipolares posicionados sobre os músculos iliocostal lombar (IC), reto femoral (RF), vasto lateral (VL), vasto medial (VM), bíceps femoral (porção longa) (BF), tibial anterior (TA), e gastrocnêmio (porção lateral) (GL). Os principais resultados encontrados apontam que (1) o EMGLF mostrou-se similar entre os diferentes músculos analisados e entre a velocidade correspondente... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: This study aimed to: (1) determine and compare the electromyographic fatigue threshold (EMGFT) of different muscles with metabolic thresholds during incremental running protocol, (2) compare the electromyographic signal (EMG), the stride frequency (SF) and the stride length (SL) in three exercise intensities corresponding to 60%, 80% and 100% of maximum velocity (Vmax), (3) analyze the influence of an incremental running protocol on the behavior of the EMG signal obtained from isometric and dynamic contractions. An article will be presented for each proposed aim. The subjects were divided according to their experiences in the sport in: Recreational Runners (RR), with no specific training in running, and Runners (RU) who trained specifically for running competitions. The running protocols were performed with initial speeds of 8 km.h-1 for RR and 10 km.h-1 for RU. The increments were of 1 km.h-1 in every three minutes until exhaustion. The two protocols used differed in their interval between each increments in: 30 seconds (protocol A) and 120 seconds (protocol B). In both protocols, blood samples of 25 μl were collected at the intervals between increments to determination the metabolic thresholds. Only in the protocol B, EMG signals were collected from submaximal isometric contractions in the intervals between incremental stages. Electromyographic signals (EMG) were recorded by bipolar surface electrodes placed over the lumbar iliocostal (IC), rectus femoris (RF), vastus lateralis (VL), vastus medialis (VM), biceps femoris (long portion) (BF), tibialis anterior (TA) and gastrocnemius (lateral portion) (GL). The main findings indicate that (1) EMGFT proved to be similar among the different muscles and between the speed at which the anaerobic threshold occurred. Therefore, the EMGFT allowed the estimation of the transition from aerobic to anaerobic metabolism noninvasively in the two... (Complete abstract click electronic access below) / Doutor Cinesiologia. Fadiga. Eletromiografia. Corridas. Muscle fatigue. eng Electromyographic fatigue threshold. eng
3	Limiar de fadiga neuromuscular determinado por diferentes periodos de analise do sinal eletromiografico / Neuromuscular fatigue threshold established by different analysis periods of electromyography signs Fontes, Eduardo Bodnariuc, 1979- 02 August 2008 (has links) Orientador: Antonio Carlos de Moraes / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Educação Fisica / Made available in DSpace on 2018-08-10T17:31:59Z (GMT). No. of bitstreams: 1 Fontes_EduardoBodnariuc_M.pdf: 546789 bytes, checksum: e5cf58e2e5bc2c9f182d7e783137819d (MD5) Previous issue date: 2008 / Resumo: LFNM estabelecido por diferentes períodos de análise do sinal eletromiográfico e comparar os mesmos com a Potência Crítica - PC em indivíduos saudáveis. A amostra foi composta por 17 voluntários saudáveis do sexo masculino (23,4 ± 5,2 anos, 73,6 ± 5,08 kg, 177,8 ± 7,0 cm). Para determinar o LFNM, cada sujeito realizou entre três e quatro cargas constantes no cicloergometro (modelo Corival 400, Quinton Inc, USA) até a exaustão voluntária, com cadência de 60 rpm. Utilizando um eletromiógrafo de 16 canais (MP150, Biopac Systems, Inc., USA), foram coletados sinais EMG do músculo Vasto Lateral. O LFNM foi calculado pelo modelo matemático proposto por (DEVRIES et al., 1982), no qual a taxa de aumento do sinal eletromiográfico atingido durante as cargas constantes é plotado em função das respectivas cargas, sendo o intercepto ¿y¿ do prolongamento desta reta considerado o LFNM. Tal procedimento foi reproduzido para cada um dos tempos de duração de análise, 30 segundos (T30s), um minuto (T1min), dois minutos (T2min) e tempo total (TTotal). PC foi determinada através do modelo hiperbólico. Utilizando a potência de LFNM encontrada por TTotal, foi verificado ainda a capacidade dos voluntários de permanecer em teste retangular de 30 min, sem evidência de fadiga neuromuscular. Foram encontradas diferenças significativas entre os períodos de análise para determinação de LFNM (ANOVA). Utilizando T30s a média alcançada foi 266,7 ± 23,1 W, com T1min ficou em 243,4 ± 16,2 W, para T2min obteve 232,6 ± 18,3 W, e utilizando TTotal a média foi de 217,2 ± 23,1 W, já para PC, foi encontrado valores médios de 177,9 ± 27,3 W. Foram encontradas diferenças estatisticamente significantes entre T30s e todos os outros períodos de análise, T1min, T2min e TTotal (p<0,01). O LFNM determinado com T1min, foi diferente estatisticamente também de TTotal (p<0,01). Todos os períodos de análise utilizados para determinar LFNM superestimaram estatisticamente PC (p<0,01). Foi encontrada correlação significativa apenas para TTotal e PC (R2 = 0,72). Durante o protocolo de carga retangular de 30 minutos, a média da exaustão ocorreu em 661,6 ± 303,9 segundos, apenas um dos voluntários completou os teste de 30 minutos. O nível de significância adotado para todas as análises foi de 5%. A partir dos resultados do presente estudo, é possível concluir que o tempo de análise influencia na determinação de LFNM, superestimando PC e a capacidade de adultos jovens em realizar exercícios de carga constante de 30 minutos em cicloergômetro / Abstract: The purpose of this study was to establish the Neuromuscular Fatigue Threshold - LFNM determinied by different analysis periods of electromyography sign and compare to the Critical Power - CP in healthy young men. 17 healthy men volunteers (23,4 ± 5,2 years, 73,6 ± 5,08 kg, 177,8 ± 7,0 cm) completed three or four constant loads tests on a cycling ergometer to establish LFNM (model Corival 400, Quinton Inc, USA) until exhaustion, and the pedal cadence was 60 rpm. Using an amplifier with 16 channels (MP150, Biopac Systems, Inc., USA), were collected EMG signs from Vastus Lateralis muscle from the dominant side. The LFNM were calculated by the mathematical model proposed by DeVries et al., (1982) where the LFNM was considered the y intercept of the regression line the EMG slopes from contant load tests plotted against its respective load. CP was calculated using the hyperbolic equation model. The LFNM procedure was done by each period of EMG analysis 30 seconds (T30s), one minute (T1min), two minutes (T2min) and total period (TTotal). Using LFNM established by TTotal, were verified the capacity of the volunteers to complete a 30 minutes constant load test, without neuromuscular fatigue. ANOVA found statistical differences between analysis periods. Using T30s, the mean found were 266,7 ± 23,1 W, with T1mn were 243,4 ± 16,2 W, for T2min were 232,6 ± 18,3 W, and with TTotal, the mean were 217,2 ± 23,1 W, however, for CP were found 177,9 ± 27,3 W. Were found statistical differences between T30s and all the others analysis periods, T1min, T2min and Total (p<0,01). The LFNM established by T1min were also different from TTotal (p<0,01). All the analysis periods overestimated PC (p<0,01). Were found significant correlation between only PC and TTotal (R2 = 0,72). During the 30 minutes constant load test completed, the exhaustion mean time were 661,6 ± 303,9 seconds, and only one volunteer completed all the 30 minutes. The significance level adopted for all analysis was 5%. According to the results of this study, it is possible to conclude that the analysis periods influences the determination of LFNM, and it overestimates CP and the capacity of the healthy adults to complete a 30 minutes constant load test in cycling ergometer / Mestrado / Ciencia do Desporto / Mestre em Educação Física Limiar de fadiga neuromuscular Eletromiografia Fadiga Limiar anaerobio Neuromuscular fatigue threshold Electromyography Fatigue Anaerobic threshold
4	The Effects of Four Weeks of High Intensity Interval Training and β-hydroxy-β-methylbutyric Free Acid on the Onset of Neuromuscular Fatigue Miramonti, Amelia 01 January 2015 (has links) This study investigated the effects of high intensity interval training (HIIT) and β-hydroxy-β-methylbutyric free acid (HMBFA) on the onset of neuromuscular fatigue in healthy young men and women. Thirty-seven subjects (22 men and 15 women; mean ± SD age = 22.8 ± 3.4yrs) completed an incremental cycle ergometer test (GXT) to exhaustion. During the GXT, electromyography (EMG) signals from the right vastus lateralis were recorded to determine the power output at the onset of neuromuscular fatigue (PWCFT), and peak wattage was used to assign individual training loads. After baseline testing (PRE), subjects were randomly assigned to one of three groups: control (C, n = 9), training with placebo (P, n = 14), or training with supplementation (S, n = 14). Subjects assigned to P and S completed 12 HIIT sessions over 4 weeks while subjects assigned to C were asked to maintain their normal diet and activity patterns. After 4 weeks, subjects returned for post-testing (POST). The PWCFT values (W) were determined using a DMAX method. The EMG amplitude root mean square (µVrms) values were used to generate a third-order polynomial regression (3PR) representing the increase in µVrms versus time of the GXT. The onset of fatigue (TF) was defined as the x-value (time, s) of the point on the 3PR that measured the maximal perpendicular distance from the line between the first and last data points. TF was used to estimate PWCFT according to the equation: PWCFT = PO + a · (n/N), where PO is the power output of the stage in which TF occurred, a is the increment in power output between GXT stages (25W), n is the difference (s) between TF and the beginning of the stage during which TF occurred, and N is the duration of a stage (120s). A two-way repeated measures ANOVA was used to identify group × time interaction for PWCFT. If a significant interaction occurred, one-way factorial ANOVAs were used. Fisher's least significant difference post hoc comparisons were performed between groups. If a significant main effect occurred, dependent samples t-tests with Bonferroni corrections (p = [0.05/3] = 0.017) were performed across time for each group. The two-way ANOVA resulted in a significant interaction (F = 6.69, p = 0.004). Follow-up analysis with one-way ANOVA resulted in no difference among groups at PRE (F = 0.87, p = 0.43), however a significant difference was shown for POST values (F = 5.46, p = 0.009). Post-hoc analysis among POST values showed significant differences between S and both P (p = 0.034) and C (p = 0.003). No differences (p = 0.226) were noted between P and C. Paired samples t-tests detected significant changes following HIIT for S (p < 0.001) and P (p = 0.016), but no change in C (p = 0.473). Results of this study indicate that HIIT was effective in delaying the onset of fatigue, but supplementation with HMBFA in conjunction with HIIT was more effective than HIIT alone. An increase in PWCFT represents an increase in the maximal power output an individual can sustain without eliciting fatigue. Therefore, HIIT can be used to improve performance in both endurance activities as well as intermittent sports. In addition, HMBFA supplementation is a simple method that can be used to maximize the benefits of HIIT. Acknowledgments: Metabolic Technologies, Inc. provided the supplement and funding for this study. Beta hydroxy beta methylbutyrate electromyography fatigue threshold high intensity interval training hiit hmb hmbfa neuromuscular fatigue pwcft Education
5	Avaliação do sinal eletromiográfico como parâmetro para determinação do limiar de fadiga muscular / Evaluation of the eletromyographic signal as paameter for determination of muscle fatigue threshold Azevedo, Fábio Micolis de 01 October 2007 (has links) Embora a analise no domínio da freqüência do sinal Eletromiográfico (EMG) seja empregada na caracterização do processo de fadiga muscular localizada sua aplicação, especificamente a da Freqüência Mediana (Fmed), é pouco explorada para a determinação do Limiar de Fadiga Eletromiográfico (LFE). Neste estudo foram realizadas análises baseadas em procedimentos experimentais executados em três diferentes modalidades de exercício: i) isométrico; ii) isotônico com peso fixo; iii) isotônico no cicloergômetro; onde foi monitorado o comportamento da Fmed do sinal EMG em três porções do músculo quadríceps femoral: vasto lateral, vasto medial e reto femoral. Os resultados demonstraram ser possível determinar o LFE através da monitoração da Fmed, em qualquer modalidade de exercício para todas as três porções musculares avaliadas. Entretanto, para o exercício isométrico e isotônico com peso fixo a qualidade dos ajustes, utilizados para o calculo do LFE, apresentou melhores índices estatísticos em comparação com os resultados obtidos no cicloergômetro. Pode ser considerado um reflexo deste comportamento a menor variação nos valores do LFE observada nas duas primeiras modalidades de exercício. Por conseqüência, nestas modalidades, uma melhor caracterização do LFE, relacionada sua definição teórica, foi observada. A análise complementar das bandas de freqüência isoladas demonstrou a possibilidade de melhoramentos relacionados ao processo metodológico de tratamento do sinal EMG para determinação do LFE. Entende-se que a determinação do LFE é uma temática controversa, porém ao mesmo tempo apresenta um grande potencial de exploração científica caracterizando, neste contexto, a contribuição deste estudo para a área / Tthough the analysis in the frequency domain of the Electromyographic Signal (EMG) was used in the characterization of the localized muscular fatigue process their application, specifically the Median Frequency (MF), is rarely explored for the determination of Electromyographic Fatigue Threshold (EMGFT). In this study analysis based in experimental procedures were executed in three different modalities of exercise: i) isometric; ii) dynamic with fixed load; iii) dynamic in the cycle ergometer; where was monitored the behavior of the EMG signal through the MF in three portions of the quadriceps muscle: vastus lateralis, vastus medialis and rectus femoris. The results demonstrated that the determination of EMGFT through the monitorization of MF was possible, in any modality of exercises for all the three muscular portions evaluated. However for the isometric and dynamic exercise with fixed load the quality of the adjustments, used for estimate the EMGFT, presented better statistical index in comparison with the results obtained in the cycle ergometer. May be considered a reflex of this behavior the smallest variation in the values of EMGFT observed in the first two modalities of exercise. For consequence, in these modalities, a better characterization of EMGFT was observed when related with your theoretical definition. The complemental analysis of the isolated bands of frequency demonstrated the possibility of improvement related in the methodological process of EMG signal processing for determination of EMGFT. The understanding around the determination of EMGFT demonstrated a controversial theme, however at the same time it presents a great potential of scientific exploration characterizing, in this context, the contribution of present study for this area biomecânica Biomechanics Electromiography Electromyographic fatigue threshold eletromiografia fadiga muscular limiar de fadiga eletromiográfico Muscle fatigue músculo quadríceps Quadriceps muscle
6	Avaliação do sinal eletromiográfico como parâmetro para determinação do limiar de fadiga muscular / Evaluation of the eletromyographic signal as paameter for determination of muscle fatigue threshold Fábio Micolis de Azevedo 01 October 2007 (has links) Embora a analise no domínio da freqüência do sinal Eletromiográfico (EMG) seja empregada na caracterização do processo de fadiga muscular localizada sua aplicação, especificamente a da Freqüência Mediana (Fmed), é pouco explorada para a determinação do Limiar de Fadiga Eletromiográfico (LFE). Neste estudo foram realizadas análises baseadas em procedimentos experimentais executados em três diferentes modalidades de exercício: i) isométrico; ii) isotônico com peso fixo; iii) isotônico no cicloergômetro; onde foi monitorado o comportamento da Fmed do sinal EMG em três porções do músculo quadríceps femoral: vasto lateral, vasto medial e reto femoral. Os resultados demonstraram ser possível determinar o LFE através da monitoração da Fmed, em qualquer modalidade de exercício para todas as três porções musculares avaliadas. Entretanto, para o exercício isométrico e isotônico com peso fixo a qualidade dos ajustes, utilizados para o calculo do LFE, apresentou melhores índices estatísticos em comparação com os resultados obtidos no cicloergômetro. Pode ser considerado um reflexo deste comportamento a menor variação nos valores do LFE observada nas duas primeiras modalidades de exercício. Por conseqüência, nestas modalidades, uma melhor caracterização do LFE, relacionada sua definição teórica, foi observada. A análise complementar das bandas de freqüência isoladas demonstrou a possibilidade de melhoramentos relacionados ao processo metodológico de tratamento do sinal EMG para determinação do LFE. Entende-se que a determinação do LFE é uma temática controversa, porém ao mesmo tempo apresenta um grande potencial de exploração científica caracterizando, neste contexto, a contribuição deste estudo para a área / Tthough the analysis in the frequency domain of the Electromyographic Signal (EMG) was used in the characterization of the localized muscular fatigue process their application, specifically the Median Frequency (MF), is rarely explored for the determination of Electromyographic Fatigue Threshold (EMGFT). In this study analysis based in experimental procedures were executed in three different modalities of exercise: i) isometric; ii) dynamic with fixed load; iii) dynamic in the cycle ergometer; where was monitored the behavior of the EMG signal through the MF in three portions of the quadriceps muscle: vastus lateralis, vastus medialis and rectus femoris. The results demonstrated that the determination of EMGFT through the monitorization of MF was possible, in any modality of exercises for all the three muscular portions evaluated. However for the isometric and dynamic exercise with fixed load the quality of the adjustments, used for estimate the EMGFT, presented better statistical index in comparison with the results obtained in the cycle ergometer. May be considered a reflex of this behavior the smallest variation in the values of EMGFT observed in the first two modalities of exercise. For consequence, in these modalities, a better characterization of EMGFT was observed when related with your theoretical definition. The complemental analysis of the isolated bands of frequency demonstrated the possibility of improvement related in the methodological process of EMG signal processing for determination of EMGFT. The understanding around the determination of EMGFT demonstrated a controversial theme, however at the same time it presents a great potential of scientific exploration characterizing, in this context, the contribution of present study for this area biomecânica eletromiografia fadiga muscular limiar de fadiga eletromiográfico músculo quadríceps Biomechanics Electromiography Electromyographic fatigue threshold Muscle fatigue Quadriceps muscle
7	Failure of Sandwich Structures with Sub-Interface Damage Shipsha, Andrey January 2001 (has links) No description available. sandwich structure foam core fatigue crack growth stress intensity factor fatigue threshold fracture toughness damage tolerance impact damage crushed core bridging fracture analysis point-stress criterion
8	Failure of Sandwich Structures with Sub-Interface Damage Shipsha, Andrey January 2001 (has links) No description available. sandwich structure foam core fatigue crack growth stress intensity factor fatigue threshold fracture toughness damage tolerance impact damage crushed core bridging fracture analysis point-stress criterion
9	Šíření dlouhých únavových trhlin v austenitické oceli při smykových módech II a III / PROPAGATION OF LONG FATIGUE CRACKS IN AUSTENITIC STEEL UNDER SHEAR MODES II AND III Holáň, Libor January 2013 (has links) This work is focused on the realization of experiment allowing simultaneous loading under mode II and III in a single circular specimen. Proposed experiment allowed to minimize crack closure during the cyclic loading and obtained values of thresholds of stress intensity range can be considered to be very close to effective values. This was attained by means of an unique experimental devices and procedure of preparation of pre-crack of specimen with circumferential notch, which was made of stainless austenitic steel. The obtained values were compared with theoretical models with the support of molecular dynamics and ab-anitio calculation. Based on observation was found out, that fatigue crack propagation is controlled by decohesion model in austenitic steel. The morphology of fracture surfaces was studied by means of optical chromatographie and 3D stereophotogrammetry, which allowed a comparison of created morphology under shear modes II and III. Morphology of fracture surface formed (static and cyclic loading) by pre-crack was also studied by means of selected roughness parameters. The mechanism of deflection (kink) of crack growth under mode II was defined.

Search results