A Novel Interior Ballistic Prediction of Gun Propellants Based on Experimental Pressure-Apparent Burning Rate Model in Closed Vessel

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A Novel Interior Ballistic Prediction of Gun Propellants Based on... http://www.scientific.net/AMR.668.584 Log in My Cart Advanced Search PAPER TITLES Home Advanced Materials Research Materials Science and Engineering II A Novel Interior Ballistic Prediction of Gun... A Study of Strain Distribution and Cell Adhesion of MicroHA/CS Composite Scaffold under Mechanical Loading, p.565 Comparison of Conductivity of Al2O3 Nanofluids between Experiments and Maxwell Model, p.571 Mechanical Ch
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  Log inMy Cart Advanced Search A Study of Strain Distribution and CellA Study of Strain Distribution and CellAdhesion of MicroHA/CS Composite ScaffoldAdhesion of MicroHA/CS Composite Scaffoldunder Mechanical Loading, under Mechanical Loading, p.565p.565 Comparison of Conductivity of AlComparison of Conductivity of Al 22 OO 33 Nanofluids between Experiments and MaxwellNanofluids between Experiments and MaxwellModel, Model, p.571p.571 Mechanical Characteristic Study of the RollerMechanical Characteristic Study of the RollerForks' Main Girder Using Different Materials,Forks' Main Girder Using Different Materials, p.575p.575 The Thermal Stress Analysis of LangmuirThe Thermal Stress Analysis of LangmuirProbe and its Heat Dissipation System BasedProbe and its Heat Dissipation System Basedon the Finite Element Method, on the Finite Element Method, p.580p.580  A Novel Interior Ballistic Prediction of GunA Novel Interior Ballistic Prediction of GunPropellants Based on Experimental Pressure-Propellants Based on Experimental Pressure-Apparent Burning Rate Model in ClosedApparent Burning Rate Model in ClosedVessel, Vessel, p.584p.584 Calculation Analysis of Natural Frequency ofCalculation Analysis of Natural Frequency ofPipe Conveying Fluid Resting on PasternakPipe Conveying Fluid Resting on PasternakFoundation, Foundation, p.589p.589 The Multiaxial Creep Strength AnalysisThe Multiaxial Creep Strength AnalysisCoupling with Damage Evolution for 3DCoupling with Damage Evolution for 3DInnercasing of the USC Turbine System, Innercasing of the USC Turbine System, p.593p.593 Static Coupling Analysis of a Six-Axis ForceStatic Coupling Analysis of a Six-Axis ForceSensor Based on Double Layer E-TypeSensor Based on Double Layer E-TypeMembrane, Membrane, p.598p.598 Investigation on Heat Transfer PerformanceInvestigation on Heat Transfer Performanceand Mechanism of New Condensationand Mechanism of New CondensationEnhanced Tubes with Machined Surface, Enhanced Tubes with Machined Surface, p.603p.603 PAPER TITLESPAPER TITLES Home > Advanced Materials Research > Materials Science and Engineering II > A Novel Interior Ballistic Prediction of Gun... Paper Title: Periodical Advanced Materials Research (Volume 668) Main Theme Materials Science and Engineering II Edited by David M. Batisdas and Y.Q. Chang Pages 584-588 DOI 10.4028/www.scientific.net/AMR.668.584 Citation Zheng Gang Xiao et al., 2013, Advanced Materials Research, 668,584 Online since March, 2013 Authors Zheng Gang Xiao, San Jiu Ying, Wei Dong He, Fu Ming Xu Keywords Burning Rate Models, Closed Vessel, Interior Ballistic, Propellant, Simulation Price US$ 28,- A Novel Interior Ballistic Prediction of Gun Propellants Based on ExperimentalPressure-Apparent Burning Rate Model in Closed Vessel  Add to CartAdd to Cart A new experimental pressure-apparent burning rate model was established based on the recordedpressure-time data in the closed vessel to study the actual burning gas generate rate of a propellant whoseform function is not available. The new burning model can replace the Vieille’s law and form function ofpropellants in the interior ballistic equations to predict the interior ballistic performance of gun. As distinct fromthe traditional geometric form function based burning rate model, the new model introduced the concept ofrelative pressure impulse related to the actual burnt web thickness of propellant statistically. The apparentburning rate was expressed by the propellant mass fraction burnt vs. relative pressure impulse curve. Theinterior ballistic simulation of selected gun propellants was conducted using the new burning rate model. Theresults predicted by the new model show a good agreement with the classic interior ballistic predicationresults though the agreement with the experimental results is still to be improved. AbstractRelated Articles HELPHELP CONTACT USCONTACT US INFORMATIONINFORMATION TERMS & CONDITIONSTERMS & CONDITIONSPOLICY AND ETHICSPOLICY AND ETHICS A Novel Interior Ballistic Prediction of Gun Propellants Based on...http://www.scientific.net/AMR.668.5841 of 211/1/2013 8:00 AM  Copyright © 2013 Scientific.net. All rights reserved. A Novel Interior Ballistic Prediction of Gun Propellants Based on...http://www.scientific.net/AMR.668.5842 of 211/1/2013 8:00 AM
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