Keyword [detonation performance]
Result: 21 - 40 | Page: 2 of 4 |
| 21. | Oxygen-Rich Energetic Compounds:Molecular Design And Theoretical Study |
| 22. | Preparation And Detonation Mechanism Of Explosive Containing Hydrogen Storage Material |
| 23. | The Molecular Designing,Synthesizing And Properties Of Triazolone Energetic Compounds |
| 24. | Study Of The GAP/DNTF Based Booster Explosive Applied To The Explosion Network Of Microsize |
| 25. | Molecular Design And Theoretical Studies On New High Energetic Compounds Containing Fluorine |
| 26. | Effect Of Aluminum Powder On Detonation Performance And Thermal Stability Of Emulsion Explosives |
| 27. | The Synthesis And Physicochemical Properties Study Of The Triazolone Energetic Compounds |
| 28. | CL-20-based Explosive Ink:design And Micro-pen Direct Ink Writing |
| 29. | Studies On The Synthesis And Properties Of Imidazole Energetic Materials |
| 30. | Study On The Several Energetic Compounds:Structure Design,Synthesis And Performance |
| 31. | Synthesis And Properties Of Insensitive And High Energy Azole-based Energetic Salts |
| 32. | Studies On High-Nitrogen Contented Energetic Salts From Amino-triazoles |
| 33. | Research On The “hot Spot” Model Of High-energy Explosive Shock Initiation And The Detonation Performance Of Aluminum-containing Explosives |
| 34. | The Rational Synthesis,Characterization,Thermal Properties And Theoretical Investigation Of Nitrogen-richheterocycles Based On 4,4′-azo-1H-1,2,4-triazol-5-one |
| 35. | Synthesis,Structures And Physicochemical Properties For Energetic Compounds Based On 4,5-bis (1H-tetrazole)-1H-imidazole |
| 36. | Preparation,Structure And Thermal Decomposition Mechanism Of Cu/Pb-tetrazoly Energetic Complexes |
| 37. | Theoretic Studies Of The Structures And Properties Of Energetic Nitrogen-contained Compounds |
| 38. | Synthesis And Application Of Polyisobutylene Succinic Acid Glycol Ester In The Emulsion Explosives |
| 39. | Synthesis Process And Performance Study Of Dinitroacetyleneguanidine Derivatives |
| 40. | Detonation Performance And Application Of A New Emulsion Explosive Containing Common Clay |
|
