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Simulation of printer nozzle for 3D printing TNT/HMX based melt-cast explosive

by Hao, Yanjun , Guo, Hu , Cong, Qilun , Zong, Huzeng , Jiang, Wei , Zhang, Guangpu , Hu, Yubing , Hao, Gazi , Xiao, Lei , Zhang, Tengyue

in 3-D printers / Additive manufacturing / CAE) and Design / Computational fluid dynamics / Computer-Aided Engineering (CAD / Discrete element method / Energetic materials / Engineering / Explosives / Fluid flow / Fused deposition modeling / HMX / Industrial and Production Engineering / Mathematical models / Mechanical Engineering / Media Management / Nozzles / Original Article / Printers / Rapid prototyping / Three dimensional flow / Three dimensional printing / Viscosity

2022

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Simulation of printer nozzle for 3D printing TNT/HMX based melt-cast explosive

by Hao, Yanjun , Guo, Hu , Cong, Qilun , Zong, Huzeng , Jiang, Wei , Zhang, Guangpu , Hu, Yubing , Hao, Gazi , Xiao, Lei , Zhang, Tengyue

2022

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Simulation of printer nozzle for 3D printing TNT/HMX based melt-cast explosive

by Hao, Yanjun , Guo, Hu , Cong, Qilun , Zong, Huzeng , Jiang, Wei , Zhang, Guangpu , Hu, Yubing , Hao, Gazi , Xiao, Lei , Zhang, Tengyue

2022

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Journal Article

Simulation of printer nozzle for 3D printing TNT/HMX based melt-cast explosive

Hao, Yanjun,

Guo, Hu,

Cong, Qilun,

Zong, Huzeng,

Jiang, Wei,

Zhang, Guangpu,

Hu, Yubing,

Hao, Gazi,

Xiao, Lei,

Zhang, Tengyue

2022

Overview

Fused deposition modeling (FDM) as one of the additive manufacturing (AM) technologies has been widely used in various manufacturing industries to fabricate products with complex structures; however, the application of FDM in energetic materials (EMs) was still less common. In this work, the effect of HMX solid content and particle size on the viscosity of molten TNT/HMX explosives were investigated. Then, the computational fluid dynamics (CFD) and discrete element method (DEM) were used to simulate the influence of viscosity, pressure, temperature, nozzle diameter, and particles on the fluid flow inside the 3D printer nozzle. In addition, an FDM 3D printer was used to prepare TNT/HMX-based explosives, and various characterization methods were applied to explore the structure and morphology of printed samples. This work provided guidelines for FDM technology to fabricate EMs and proved that FDM was more suitable than the conventional melt-casting method to prepare explosives with high viscosity and special-shaped structures.

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Publisher

Springer London,Springer Nature B.V

Subject

3-D printers

/ Additive manufacturing

/ CAE) and Design

/ Computational fluid dynamics

/ Computer-Aided Engineering (CAD

/ Discrete element method

/ Energetic materials