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Mechanical Behavior Research of Solid Propellant for Medium and Gross Caliber Munitions under High Overload

abstract第5-6页
1 Introduction第17-24页
    1.1 Introduction第17-19页
    1.2 Description of the Problem第19-21页
    1.3 objectives第21-22页
    1.4 Review of Recent Models第22-24页
2 Propellants第24-39页
    2.1 General Presentation of energetic materials第24-27页
        2.1.1 Definition of energetic materials第24-25页
        2.1.2 Classification第25-27页
    2.2 Solid Propellants第27-39页
        2.2.1 Propellant ingredients第27-31页
        2.2.2 Classification of solid propellants第31-34页
        2.2.3 Utilization of solid propellants第34-35页
        2.2.4 Propellants microstruture第35-36页
        2.2.5 Mechanical behavior of solid propellants第36-39页
3 Viscoelastic approach第39-53页
    3.1 viscoelasticity第39-45页
        3.1.1 Overview第39-41页
        3.1.2 Characteristics of a Viscoelastic Material第41-45页
    3.2 Maxwell model第45-53页
        3.2.1 Constitutive model equations第46-51页
        3.2.2 Optimization in the Laplace domain第51-53页
4 Viscoplasticity approach第53-67页
    4.1 Viscoplasticity第53-57页
        4.1.1 Overview第53-55页
        4.1.2 Characteristics of a Viscoplastic Material第55-57页
    4.2 BOYCE model第57-67页
        4.2.1 Overview第57-58页
        4.2.2 Linear Elastic Spring第58-60页
        4.2.3 Rubber Elasticity,”Langevin Spring”第60-62页
        4.2.4 Viscoplastic Element第62-63页
        4.2.5 Mulliken-Boyce constitutive equations第63-67页
5 Experimental and prediction results第67-105页
    5.1 HTPB Propellants第67-88页
        5.1.1 Material and specimens第67-69页
        5.1.2 Low strain rate compression testing第69-70页
        5.1.3 Intermediate strain rate compression testing第70-74页
        5.1.4 High strain rate compression testing第74-79页
        5.1.5 Experimental results第79页
        5.1.6 Implementation of Maxwell model第79-80页
        5.1.7 Maxwell model parameters第80-87页
        5.1.8 Model vs Experimental curves第87-88页
    5.2 CMDB Propellants第88-105页
        5.2.1 Material and specimens第88-90页
        5.2.2 Low strain rate compression testing第90-91页
        5.2.3 Intermediate strain rate compression testing第91-93页
        5.2.4 High strain rate compression testing第93-97页
        5.2.5 Experimental results第97-99页
        5.2.6 Implementation of Mulliken-Boyce model第99-102页
        5.2.7 Model vs Experimental curves第102-105页
6 Conclusion第105-107页
Bibliography第107-111页

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