Linked e-resources
Details
Table of Contents
Preface; Contents; Short Biography; Part I An Introduction to Energetic Materials for Propulsion; An Introduction to Energetic Materials for Propulsion; Nomenclature; 1 Background and Volume Introduction; 1.1 Sections of This Chapter; 2 New Ingredients for Chemical Propulsion; 2.1 Full Papers of This Part; 3 Metals as Energetic Fuels for Chemical Propulsion; 3.1 Full Papers of This Part; 4 Solid Rocket Propellant Formulation; 4.1 Full Papers of This Part; 5 Liquid Rocket Propulsion; 5.1 Full Papers of This Part; 6 Hybrid Rocket Propulsion; 6.1 Full Papers of This Part
7 New Concepts in Chemical Propulsion7.1 Advanced Energetic Materials; 7.2 Innovation of Energetic Materials by Materials Genome Initiative; 7.2.1 Conception and Significance; 7.2.2 A Tentative Plan of EMGI Development; 7.3 Surface Engineering of Energetic Materials by Atomic Layer Deposition; 7.4 Energetic Ionic Liquids for Space Propulsion; 7.5 Catalysts in Chemical Propulsion; 7.6 High-Performance/Low-Cost Solid Rocket Motors; 7.7 Space Commercialization; 7.8 Full Papers of This Part; 8 Life-Cycle Management of Energetic Materials; 8.1 Full Papers of This Part; 9 Rocket Propulsion Systems
9.1 Launch Vehicle Propulsion9.2 Solid Rocket Motor (SRM) Systems; 9.3 Full Papers of This Part; 10 Applications of Energetic Materials; 10.1 Full Papers of This Part; 11 History of Solid Rocket Propulsion in Russia; 11.1 Full Papers of This Part; 12 Gels for Rocket and Ramjet Propulsion; 12.1 Full Papers; References; Part II New Ingredients for Chemical Propulsion; Synthesis of New Oxidizers for Potential Use in Chemical Rocket Propulsion; 1 Solid Rocket Propellants; 2 Ammonium Perchlorate: Uses and Hazards
3 Requirements, Strategy Development, and Building Blocks for the Design of New Oxidizers4 Synthesized Materials; 4.1 Orthocarbonates [25, 38]; 4.2 2,5-Disubstituted Tetrazoles [29]; 4.3 Bi-1,2,4-Oxadiazoles [21]; 4.4 Carbamates and Nitrocarbamates [28]; 4.5 2,2,2-Trinitroethyl Carbamate and -Nitrocarbamate [23]; 5 Summary, Conclusions, and Continuing Investigations; References; High-Nitrogen Energetic Materials of 1,2,4,5-Tetrazine Family: Thermal and Combustion Behaviors; 1 Introduction; 2 General Schemes of Synthesis of Substituted s-Tetrazines
3 Energetic Materials Based on CHN-Tetrazines4 Energetic Materials Based on CHN-Tetrazines Annulated with Azoles; 5 Energetic Materials Based on CHNO-Tetrazines; 6 Salts of Substituted Tetrazines with Oxidizing Acids; 7 Coordination Compounds of Tetrazine; 8 Conclusions; References; Survey of New Energetic and Eco-friendly Materials for Propulsion of Space Vehicles; Nomenclature; 1 Introduction; 2 Powerful Oxidizers; 3 Energetic Binders; 4 Energetic Plasticizers; 5 Energetic Additives; 6 Conclusions; References; Performance Additives for Hybrid Rockets; Nomenclature
7 New Concepts in Chemical Propulsion7.1 Advanced Energetic Materials; 7.2 Innovation of Energetic Materials by Materials Genome Initiative; 7.2.1 Conception and Significance; 7.2.2 A Tentative Plan of EMGI Development; 7.3 Surface Engineering of Energetic Materials by Atomic Layer Deposition; 7.4 Energetic Ionic Liquids for Space Propulsion; 7.5 Catalysts in Chemical Propulsion; 7.6 High-Performance/Low-Cost Solid Rocket Motors; 7.7 Space Commercialization; 7.8 Full Papers of This Part; 8 Life-Cycle Management of Energetic Materials; 8.1 Full Papers of This Part; 9 Rocket Propulsion Systems
9.1 Launch Vehicle Propulsion9.2 Solid Rocket Motor (SRM) Systems; 9.3 Full Papers of This Part; 10 Applications of Energetic Materials; 10.1 Full Papers of This Part; 11 History of Solid Rocket Propulsion in Russia; 11.1 Full Papers of This Part; 12 Gels for Rocket and Ramjet Propulsion; 12.1 Full Papers; References; Part II New Ingredients for Chemical Propulsion; Synthesis of New Oxidizers for Potential Use in Chemical Rocket Propulsion; 1 Solid Rocket Propellants; 2 Ammonium Perchlorate: Uses and Hazards
3 Requirements, Strategy Development, and Building Blocks for the Design of New Oxidizers4 Synthesized Materials; 4.1 Orthocarbonates [25, 38]; 4.2 2,5-Disubstituted Tetrazoles [29]; 4.3 Bi-1,2,4-Oxadiazoles [21]; 4.4 Carbamates and Nitrocarbamates [28]; 4.5 2,2,2-Trinitroethyl Carbamate and -Nitrocarbamate [23]; 5 Summary, Conclusions, and Continuing Investigations; References; High-Nitrogen Energetic Materials of 1,2,4,5-Tetrazine Family: Thermal and Combustion Behaviors; 1 Introduction; 2 General Schemes of Synthesis of Substituted s-Tetrazines
3 Energetic Materials Based on CHN-Tetrazines4 Energetic Materials Based on CHN-Tetrazines Annulated with Azoles; 5 Energetic Materials Based on CHNO-Tetrazines; 6 Salts of Substituted Tetrazines with Oxidizing Acids; 7 Coordination Compounds of Tetrazine; 8 Conclusions; References; Survey of New Energetic and Eco-friendly Materials for Propulsion of Space Vehicles; Nomenclature; 1 Introduction; 2 Powerful Oxidizers; 3 Energetic Binders; 4 Energetic Plasticizers; 5 Energetic Additives; 6 Conclusions; References; Performance Additives for Hybrid Rockets; Nomenclature