| 779 - 781 |
1916-2016: The Berger Smoke Mixture turns 100
Koch EC |
| 783 - 788 |
Promising CL-20-Based Energetic Material by Cocrystallization
Anderson SR, Dube P, Krawiec M, Salan JS, Ende DJA, Samuels P |
| 789 - 792 |
Novel Melt-Castable Energetic Pyrazole: A Pyrazolyl-Furazan Framework Bearing Five Nitro Groups
Dalinger IL, Suponitsky KY, Pivkina AN, Sheremetev AB |
| 793 - 797 |
On the Origin and Use of the Emissivity Approximations for Alumina Particles
Kalman J, Hedman T |
| 798 - 805 |
Surface Migration and Enrichment of Fluorinated TiO2 Nanocomposite Additives Inside Propellants
Sun N, Tian CH, Xiao ZG |
| 806 - 813 |
Potential Energetic Plasticizers on the Basis of 2,2-Dinitropropane-1,3-diol and 2,2-Bis(azidomethyl)propane-1,3-diol
Hafner S, Hartdegen VA, Hofmayer MS, Klapotke TM |
| 814 - 821 |
Synthesis and Interfacial Adhesion Interaction of Borate Ester Bonding Agents Used for HTPB Propellants
Zhang XL, Liu ME, Liu WZ, Deng JR |
| 822 - 834 |
Mechanical Properties of Composite AP/HTPB Propellants Containing Novel Titania Nanoparticles
Thomas JC, Demko AR, Sammet TE, Reid DL, Seal S, Petersen EL |
| 835 - 843 |
Study on the Viscoelastic Poisson"s Ratio of Solid Propellants Using Digital Image Correlation Method
Cui HR, Tang GJ, Shen ZB |
| 844 - 849 |
Generalized Method for Gun Propellant Formulation Design
Sudarsan NV, Das SK, Naik SD |
| 850 - 854 |
Characterization of P(BAMO/AMMO) ETPE Prepared Using Different Diisocyanates
Wang G, Luo YJ |
| 855 - 863 |
Compressive Behavior of Idealized Granules for the Simulation of Composition C-4
Sweat ML, Parker AS, Beaudoin SP |
| 864 - 869 |
A Miniature Device for Shock Initiation of Hexanitrostilbene by High-Speed Flyer
Zeng QX, Li B, Li MY, Wu XY |
| 870 - 874 |
High Safety and Reliability Electric Detonator
Fousson E, Ritter A, Arnold T |
| 875 - 882 |
Confocal Scanning Laser Microscopic Study of the RDX Defect Structure in Deformed Polymer-Bonded Explosives
van der Heijden AEDM, Bouma RHB |
| 883 - 887 |
Investigation of the Solubility of 3,4-Diaminofurazan (DAF) and 3,3-Diamino-4,4-azoxyfurazan (DAAF) at Temperatures Between 293.15K and 313.15K
Qiu LL, Li YL, Wang Z, Xue M, Xu ZB, Meng ZH, Ma XQ, Yi D, Lin ZH |
| 888 - 892 |
Hermetic Thermal Behavior of 3,4-Diaminofurazan (DAF)
Li YF, Wang XF, Xu KZ, Wang BZ, Song JR, Zhao FQ |
| 893 - 898 |
An Efficient and Facile Synthesis of CL-20 from TADNO Using HNO3/N2O5 and Optimization of Reaction Parameters by Taguchi Method
Bayat Y, Hajighasemali F |
| 899 - 905 |
Microfluidic Synthesis of Size-Controlled and Morphologically Homogeneous Lead Trinitroresorcinate Produced by Segmented Flow
Zhou N, Zhu P, Rong Y, Xia HM, Shen RQ, Ye YH, Lv SL |
| 906 - 911 |
Synthesis, Crystal Structure, and Thermal Behavior of 3-(4-Aminofurazan-3-yl)-4-(4-nitrofurazan-3-yl)furazan (ANTF)
Yi QH, Liang DH, Ma Q, Huang M, Tan BS, Liu YC, Chi Y |
| 912 - 918 |
Role of Metal Oxide Nanomaterials on Thermal Stability of 1,3,6-Trinitrocarbazole
Pourmortazavi SM, Rahimi-Nasrabadi M, Rai H, Besharati-Seidani A, Javidan A |
| 919 - 925 |
Mn+Sb2O3 Thermite/Intermetallic Delay Compositions
Montgomery YC, Focke WW, Atanasova M, Del Fabbro O, Kelly C |
| 926 - 935 |
Reactive Materials for Evaporating Samarium
Abraham A, MacDonald NA, Dreizin EL |
| 936 - 941 |
Catalytic Effect of Two Shapes of Nano-Fe2O3 on Hexanitrohexaazaisowurtzitane Using a Non-Isothermal Decomposition Kinetic Method
Gao R, Zhao NN, Liu JB, Zhang T, Ma HX |
| 942 - 948 |
Recent Developments for Prediction of Power of Aromatic and Non-Aromatic Energetic Materials along with a Novel Computer Code for Prediction of Their Power
Keshavarz MH, Azarniamehraban J, Atabak HH, Ferdowsi M |
