Search results for "fatigue fracture"

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Regular physical exercise before entering military service may protect young adult men from fatigue fractures

2019

Background Bone stress fractures are overuse injuries commonly encountered in sports and military medicine. Some fatigue fractures lead to morbidity and loss of active, physically-demanding training days. We evaluated the incidence, anatomical location, risk factors, and preventive measures for fatigue fractures in young Finnish male conscripts. Methods Five cohorts of 1000 men performing military service, classified according to birth year (1969, 1974, 1979, 1984, 1989), were analysed. Each conscript was followed for his full military service period (180 days for conscripts with rank and file duties, 270 days for those with special training, 362 days for officers and highly trained conscri…

Malelcsh:Diseases of the musculoskeletal systemFractures StressFITNESSSports medicineStress fracturesFatigue fracturesEpidemiologyphysical activityMilitary medicineCohort StudiesRandom Allocation0302 clinical medicineEXTREMITY STRESS-FRACTURESOrthopedics and Sports MedicineepidemiologiaFinlandasepalvelusurheiluvammat2. Zero hunger030222 orthopedicsStress fracturesexerciseIncidenceMilitary Personnelinjury prevention Incidenceennaltaehkäisyfyysinen aktiivisuusResearch ArticleAdultmedicine.medical_specialtyAdolescentMilitary serviceYoung Adult03 medical and health sciencesRheumatologyInjury preventionmedicineHumansRisk factorMilitary Medicinemilitary trainingExercise030203 arthritis & rheumatologyPhysical activitybusiness.industrystress fracturesfatigue fracturesInjury prevention3126 Surgery anesthesiology intensive care radiologymedicine.diseasePREVENTIONPhysical activity levelSOLDIERS3121 General medicine internal medicine and other clinical medicineOrthopedic surgeryRISK-FACTORSPhysical therapyINJURIESMilitary trainingFEMORAL-NECKlcsh:RC925-935FOLLOW-UPbusinessFollow-Up StudiesBMC Musculoskeletal Disorders
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Optimization and analysis of processes with moving materials subjected to fatigue fracture and instability

2013

We study systems of traveling continuum modeling the web as a thin elastic plate of brittle material, traveling between a system of supports at a constant velocity, and subjected to bending, in-plane tension and small initial cracks. We study crack growth under cyclic in-plane tension and transverse buckling of the web analytically. We seek optimal in-plane tension that maximizes a performance vector function consisting of the number of cycles before fracture, the critical velocity and process effectiveness. The present way of applying optimization in the studies of fracture and stability is new and affords an analytical tool for process analysis. peerReviewed

Materials scienceGeneral MathematicstuottavuusAerospace EngineeringväsymismurtumaOcean EngineeringBendingInstabilitymoving materialsPhysics::GeophysicsstabiiliusBrittlenessta216Continuum ModelingCivil and Structural Engineeringbusiness.industryTension (physics)Mechanical EngineeringStructural engineeringstabilityCondensed Matter PhysicsCritical ionization velocityfatigue fracturemonitavoiteoptimointiBucklingmulti-objective optimizationMechanics of MaterialsAutomotive EngineeringFracture (geology)liikkuva materiaalibusiness
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