Search results for "Heating temperature"

showing 3 items of 3 documents

Post-warm-up muscle temperature maintenance: blood flow contribution and external heating optimisation

2015

Passive muscle heating has been shown to reduce the drop in post-warm-up muscle temperature (T m) by about 25 % over 30 min, with concomitant sprint/power performance improvements. We sought to determine the role of leg blood flow in this cooling and whether optimising the heating procedure would further benefit post-warm-up T m maintenance. Ten male cyclists completed 15-min sprint-based warm-up followed by 30 min recovery. Vastus lateralis T m (T mvl) was measured at deep-, mid- and superficial-depths before and after the warm-up, and after the recovery period (POST-REC). During the recovery period, participants wore water-perfused trousers heated to 43 °C (WPT43) with either whole leg he…

Malemedicine.medical_specialtyMaterials scienceHot TemperatureWarm-Up ExercisePhysiology030204 cardiovascular system & hematologyCooling effectBody Temperature03 medical and health sciencesRecovery periodYoung Adult0302 clinical medicineAnimal sciencePhysiology (medical)Heating temperaturemedicineHumansOrthopedics and Sports MedicineMuscle SkeletalPassive heatingLegOcclusionPublic Health Environmental and Occupational HealthPower performance030229 sport sciencesGeneral MedicineHuman physiologyBlood flowBlood flowMuscle temperatureSurgeryPassive heatingSprintRegional Blood FlowWater perfused trousersOriginal ArticleBody Temperature RegulationEuropean Journal of Applied Physiology
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Phase Transition in Niobophosphate Glass-Ceramic

2011

Phase transition during crystallization of glass to glass-ceramic in system P2O5-CaO-Nb2O5-Na2O was studied. Several heating rates were compared – 1, 2, 5, 11 and 20°Cmin-1. DTA, XRD, FTIR and Raman analyses were performed. Niobophosphate glass-ceramic is found to form utterly different crystalline phases depending on maximal heating temperature, heating rate and time of maximal temperature maintenance. Crystallization temperatures of the same phases are strongly dependent on heating rate, while crystallinity of obtained phases is not. At lower temperatures poorly crystalline phosphates (Ca3(PO4)2, Ca10Na(PO4)7, Ca2P2O7) and niobates (NaNbO3 and Nb2O5) are identified. At higher temperatures…

Phase transitionGlass-ceramicMaterials scienceGeneral Engineeringlaw.inventionCrystallinityCrystallographysymbols.namesakeChemical engineeringlawHeating temperaturesymbolsCrystallizationFourier transform infrared spectroscopyRaman spectroscopyAdvanced Materials Research
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The non-isothermal rheological behaviour of molten polymers: Shear and elongational stress growth of polyisobutylene under heating

1981

Data of stress growth under both shear and elongational kinematics have been taken in presence of heating temperature ramps on a commerical polyisobutylene.

chemistry.chemical_classificationMaterials sciencemusculoskeletal neural and ocular physiologyPolymerCondensed Matter PhysicsIsothermal processchemistryShear (geology)RheologyHeating temperatureShear stressGeneral Materials ScienceComposite materialhuman activitiesPolymer meltRheologica Acta
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