02120nam 2200529Ia 450 991069700370332120230902161807.0(CKB)5470000002384870(OCoLC)682920240(EXLCZ)99547000000238487020101123d2005 ua 0engurmn|||||||||txtrdacontentcrdamediacrrdacarrierPerformance and mass modeling subtleties in closed-Brayton-cycle space power systems[electronic resource] /Michael J. Barrett, Paul K. Johnson ; prepared for the Third International Energy Conversion Engineering Conference sponsored by the American Institute of Aeronautics and Astronautics. San Francisco, California, August 15-18, 2005Cleveland, Ohio :National Aeronautics and Space Administration, Glenn Research Center,[2005]1 online resource (12 pages) illustrationsNASA TM- ;2005-213985Title from title screen (viewed on Nov. 23, 2010)."November 2005.""AIAA-2005-5700."Includes bibliographical references (page 12)NASA technical memorandum ;213985.Brayton cyclenasatClosed cyclesnasatSpacecraft power suppliesnasatPerformance predictionnasatDynamic modelsnasatRoboticsnasatBrayton cycle.Closed cycles.Spacecraft power supplies.Performance prediction.Dynamic models.Robotics.Barrett Michael J1422846Johnson Paul K144987NASA Glenn Research Center.International Energy Conversion Engineering Conference(3rd :2005 :San Francisco, Calif.)GPOGPOBOOK9910697003703321Performance and mass modeling subtleties in closed-Brayton-cycle space power systems3548487UNINA03989nam 2201225z- 450 991063779160332120240925224900.03-0365-5741-5(CKB)5470000001631620(oapen)https://directory.doabooks.org/handle/20.500.12854/94499(EXLCZ)99547000000163162020202212d2022 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierAdvanced Materials for Oral ApplicationBaselMDPI - Multidisciplinary Digital Publishing Institute20221 electronic resource (224 p.)3-0365-5742-3 This book consists of one editorial, 12 original research articles and two review papers from scientists across the world, with expertise in materials for dental application. The main subjects covered are: biomaterials and techniques for oral tissue engineering and regeneration; biomaterials for surgical reconstruction; CAD/CAM technologies and dedicated materials; novel restorative and endodontic materials and instruments.Medicinebicsscregenerative medicineregenerative dentistrytissue engineeringstem cellsbiomaterialsscaffoldsgrowth factorsadditive manufacturing3D printingfracture strengthprinting orientationanisotropystereolithography (SLA)fixed dental prosthesescalcium silicateconfocal laser scanning microscopytubule penetrationwarm vertical compactionmicro-computed tomographynickel-titanium instrumentsroot canal preparationendodontic drillsTF AdaptiveiRaceCAD/CAMpolymer infiltrated ceramic networknanocompositesilicarestorative materialdental materialbiomimeticsdental coredental crownmechanical propertiesmalignant neoplasiatransoral reconstructionpolydimethyl siloxaneAg nanoparticlesfatigue strengthprosthesiscalcium silicate-based root canal sealerhydraulic root canal sealerroot canal obturationroot canal treatmentdental bondingpolymerizationfinite element analysisdental materialsmesial-occlusal-distal (MOD) cavitiesfracture resistancebase materialsdental tray adhesivereusable brushdisinfectant additivecross-contamination riskdisinfectionA-PRF+fibroblast culturewound healingVEGFTGFβ2equine bone substitutebone formationxenograftanorganic bonezirconiacrowncolormasking abilityfluorescence propertiesrestorative materialsresin-based compositeenamelMedicineRusu Laura-Cristinaedt1293297Ardelean Lavinia CosminaedtRusu Laura-CristinaothArdelean Lavinia CosminaothBOOK9910637791603321Advanced Materials for Oral Application3022534UNINA