high purity New plasticizers for energetic materials

Simple and Green Synthesis of a Novel Fluoro-Nitrato

Classification:Chemical Auxiliary Agent, Chemical Auxiliary Agent
Other Names:Plasticizer
Purity:99.9%
Type:Adsorbent, Carbon Black
Usage:Coating Auxiliary Agents, Electronics Chemicals, Leather Auxiliary Agents, Paper Chemicals, Petroleum Additives, Plastic Auxiliary Agents, Rubber Auxiliary Agents, Surfactants, Textile Auxiliary Agents, Water Treatment Chemicals
MOQ:1000KG
Package:25kg/drum
Application:plasticizer

plasticizers known so far.3 Density is important for energetic plasticizers as it is a characteristic measure of the energetic content of a molecule. Furthermore, in terms of thermal stability, T dmax of ACR-ENP-1 was found to be ∼128 °C (Figure 3), which was much higher than most

Herein, we report a facile, simple, cost-effective, and green synthesis of a new fluoro-nitrato energetic plasticizer, 2-nitrato-1,3-di(trifluoroethoxy)propane (ACR-ENP-1). Compatible mixtures of ACR-ENP-1

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A New Energetic Mixed Formal Plasticizer, Using

Classification:Chemical Auxiliary Agent
Other Names:Plasticizer
Purity:99.5
Type:Chemical additives, Chemical plasticizer 1227%
Usage:Rubber Auxiliary Agents
MOQ:200kgs
Package:200kgs/battle
Advantage:Stable
Payment:T/T

A New Energetic Mixed Formal Plasticizer, Using Diformal as Eutectic Material Jeong Kook Kim*, Jin Seuk Kim, Keun Deuk Lee, Jin Rai Cho High Explosives Team, Agency for Defense

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

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The research progress of the azidonitramine plasticizers:

Classification:Chemical Auxiliary Agent
Other Names:Plasticizer
Purity:99.99, 99%
Type:Plasticizer
Usage:Leather Auxiliary Agents, Plastic Auxiliary Agents, Plasticizer
MOQ:25kg/bag
Package:200kg/drum
Shape:Powder
Payment:T/T
Application:PVC Plasticizer

Initially considered a by-product of DIANP synthesis, 3-nitraza-5-azido-pentanol nitrate (PNAN) has been found to have potential as an energetic plasticizer after high-purity

BAMO was found to be compatible with other energetic materials such as CL-20, N-HTPB is miscible with energetic plasticizers with superior oxygen balance and burn rate than HTPB. Gong C, Zeng X, Ju X.

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Energetic plasticizers for gun & rocket propellants

Classification:Chemical Auxiliary Agent, Chemical Auxiliary Agent
Other Names:Plasticizer
Purity:99.5% min.
Type:Adsorbent
Usage:Plastic Auxiliary Agents, Rubber Auxiliary Agents
MOQ:200kgs
Package:200kgs/battle
Application:plasticizer

Energetic plasticizers have been used in the propellant industry for improving mechanical properties of propellant formulations and to boost energy. In modern energetic

Detonation and combustion performance of energetic compounds were calculated with the thermochemical computer code EXPLO5V06.05. using the predicted heats of

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Promising Oxygen- and Nitrogen-Rich Azidonitramino Ether

Classification:Chemical Auxiliary Agent
Other Names:Plasticizer
Purity:99.9%
Type:Plastizer
Usage:Petroleum Additives, Plastic Auxiliary Agents, Rubber Auxiliary Agents
MOQ:200kgs
Package:200kgs/battle
Application:PVC Plasticizer
Item:T/T,L/C

1. Introduction. The unifying basis of most multicomponent energetic materials is a binder consisting of a polymer and a plasticizer. Previously, both an inert polymer and a

However, since HTPB is an inert component, it requires very high oxidizer content (>80%) to achieve acceptable performance level of the propellant charge. Energetic Plasticizers. The role of plasticizers in energetic material

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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 are energetic plasticizers?
Plasticizers are functional additives that have been widely utilized to enhance the mechanical properties and processing technology of explosive systems. However, due to the increasing demand for energetic formulations of explosives and propellants, traditional plasticizers are gradually being replaced by energetic plasticizers.
What are some examples of energetic plasticizers?
Energetic plasticizers are a type of nitro compounds and nitrate esters. Some examples include trimethyloethane trinitrate (TMETN) and trimethylene glycol dinitrate (TEGDN) or bisdinitropropyl formal and acetal mixture (BDNPF/A).
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 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 is the role of plasticizers in energetic material composites?
Plasticizers play several roles in the production of energetic material composites. They are responsible for modifying mechanical characteristics by improving the elongation at break (a) and enhancing the low temperature properties (b) of the composites. Plasticizers are further classified into non-energetic and energetic.