Studies of Energetic and Non‐Energetic Plasticizers
Binders with energetic plasticizers besides boosting energy also enhance the structural integrity of the propellant composition. In recent energetic compositions, energetic plasticizers such as NG, BTTN, DEGDN and TEGDN replace conventional plasticizers as they possess positive heat of the explosion and energetic groups in the same molecule.
Energetic Polymers: Binders and Plasticizers for Enhancing
Energetic Polymers: Binders and Plasticizers for Enhancing Performance | Wiley This up-to-date overview provides the latest information on the performance, sensitivity, strength and processability aspects of propellants and explosive formulations, with the nature of polymer binder/plasticizer as the variable factor.
Energetic Polymers | Emerging nanoscience Research Institute
The role of plasticizers in energetic material composites are (a) to modify mechanical characteristics of composites by improving the elongation at break; (b) to improve on the low temperature properties of the composites . Plasticizers are classified into non- energetic and energetic.
Energetic plasticizers for gun & rocket propellants - Springer
In modern energetic propellant composition, conventional plasticizers are being gradually replaced by energetic plasticizers having nitro, nitroamino, azido and other energetic groups or combination of energetic groups in the same molecule.
New plasticizers for energetic materials | SpringerLink
Specific features of the synthesis of new nitroxy-containing N,N′-bis(alkylnitramine) mixtures have been considered. The results of studying the plasticizing ability of the mixtures with respect to various cellulose nitrates, as well as the performance data on energetic materials on their basis, have been reported. Combustion of both the plasticizers and compositions on their basis has been
- Are energetic plasticizers a good choice for solid propellant formulations?
- In modern solid propellant formulations, conventional plasticizers are being gradually replaced by energetic plasticizers (EPs), which usually have various energetic groups (such as nitro, nitroamino, azido, etc.) in the molecules to enhance the energy performance. Thus, extensive efforts have been devoted to the design and synthesis of new EPs.
- What is the practical application of Energetic plasticizers?
- The practical application of energetic plasticizers is still limited, and it is necessary to develop new energetic plasticizers. researchers can use computer simulation technology to study the structure, energy characteristics (such as detonation velocity, detonation pressure, and specific impulse), and stability of compounds.
- How many types of Energetic plasticizers are there?
- Fig. 1. Structure and properties of representative energetic plasticizers. Despite the reporting of over 20 types of azidonitramine energetic plasticizers, there is no comprehensive summary or analysis of these substances.
- What are plasticizers used for?
- As an important ingredient of composite explosives and solid propellants, plasticizers are usually liquid organic compounds that are added to propellants to improve their mechanical properties. In modern solid propellant formulations, conventional plasticizers are being gradually replaced by energetic plasti 2022 Focus and Perspective articles
- How many types of azidonitramine Energetic plasticizers are there?
- Despite the reporting of over 20 types of azidonitramine energetic plasticizers, there is no comprehensive summary or analysis of these substances. Hence, this review comprehensively analyzes the synthesis, structure, physical and chemical properties, energy performance, and applications of azidonitramine energetic plasticizers.
- Which molecular skeletons are used in energetic plasticizers?
- From the molecular design perspective, the combination of flexible molecular skeletons (such as alkanes, aliphatic ethers, and aliphatic ester chains) with energetic groups (such as nitro, nitrate, nitramine, and azido) is the general design rule for energetic plasticizers [18, 19].
