Deformation analysis of free loading propellant in storage

Yang Yu; Hong Yu Fan; Ning Fei Wang; Ping Zhang

Deformation analysis of free loading propellant in storage

Yang Yu^*, Hong Yu Fan, Ning Fei Wang, Ping Zhang

^*Corresponding author for this work

School of Aerospace Engineering

Research output: Contribution to journal › Article › peer-review

Abstract

Three-dimensional viscoelastic large deformation incremental constitutive equation was derived based on Total Lagrangian method. From materials property testing of composite modified double base (CMDB) propellant by dynamic mechanical analyzer (DMA), deformation, equivalent von mises stress and strain of free loading propellant in storage were obtained. The results show that the subsidence magnitude of solid propellant in the axis direction is about 0.16 mm. Outer diameter increases 0.04 mm and inner diameter is nearly unchanged. Stress between solid propellant and binder is about 11.8 kPa, which will not lead to dewetting. Balanceable time of the free loading propellant in long-term storage is about half a year. Thus the deformation of the free loading propellant grains in storage can be deduced by that of propellant stored for more than half a year.

Original language	English
Pages (from-to)	524-529
Number of pages	6
Journal	Hanneng Cailiao/Chinese Journal of Energetic Materials
Volume	15
Issue number	5
Publication status	Published - Oct 2007

Keywords

Aerospace propulsion theory and engineering
Dynamic mechanical analyzer (DMA)
Free loading propellant
Storage
Viscoelasticity

Cite this

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title = "Deformation analysis of free loading propellant in storage",

abstract = "Three-dimensional viscoelastic large deformation incremental constitutive equation was derived based on Total Lagrangian method. From materials property testing of composite modified double base (CMDB) propellant by dynamic mechanical analyzer (DMA), deformation, equivalent von mises stress and strain of free loading propellant in storage were obtained. The results show that the subsidence magnitude of solid propellant in the axis direction is about 0.16 mm. Outer diameter increases 0.04 mm and inner diameter is nearly unchanged. Stress between solid propellant and binder is about 11.8 kPa, which will not lead to dewetting. Balanceable time of the free loading propellant in long-term storage is about half a year. Thus the deformation of the free loading propellant grains in storage can be deduced by that of propellant stored for more than half a year.",

keywords = "Aerospace propulsion theory and engineering, Dynamic mechanical analyzer (DMA), Free loading propellant, Storage, Viscoelasticity",

author = "Yang Yu and Fan, {Hong Yu} and Wang, {Ning Fei} and Ping Zhang",

year = "2007",

month = oct,

language = "English",

volume = "15",

pages = "524--529",

journal = "Hanneng Cailiao/Chinese Journal of Energetic Materials",

issn = "1006-9941",

publisher = "Chinese Academy of Engineering Physics",

number = "5",

}

TY - JOUR

T1 - Deformation analysis of free loading propellant in storage

AU - Yu, Yang

AU - Fan, Hong Yu

AU - Wang, Ning Fei

AU - Zhang, Ping

PY - 2007/10

Y1 - 2007/10

N2 - Three-dimensional viscoelastic large deformation incremental constitutive equation was derived based on Total Lagrangian method. From materials property testing of composite modified double base (CMDB) propellant by dynamic mechanical analyzer (DMA), deformation, equivalent von mises stress and strain of free loading propellant in storage were obtained. The results show that the subsidence magnitude of solid propellant in the axis direction is about 0.16 mm. Outer diameter increases 0.04 mm and inner diameter is nearly unchanged. Stress between solid propellant and binder is about 11.8 kPa, which will not lead to dewetting. Balanceable time of the free loading propellant in long-term storage is about half a year. Thus the deformation of the free loading propellant grains in storage can be deduced by that of propellant stored for more than half a year.

AB - Three-dimensional viscoelastic large deformation incremental constitutive equation was derived based on Total Lagrangian method. From materials property testing of composite modified double base (CMDB) propellant by dynamic mechanical analyzer (DMA), deformation, equivalent von mises stress and strain of free loading propellant in storage were obtained. The results show that the subsidence magnitude of solid propellant in the axis direction is about 0.16 mm. Outer diameter increases 0.04 mm and inner diameter is nearly unchanged. Stress between solid propellant and binder is about 11.8 kPa, which will not lead to dewetting. Balanceable time of the free loading propellant in long-term storage is about half a year. Thus the deformation of the free loading propellant grains in storage can be deduced by that of propellant stored for more than half a year.

KW - Aerospace propulsion theory and engineering

KW - Dynamic mechanical analyzer (DMA)

KW - Free loading propellant

KW - Storage

KW - Viscoelasticity

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M3 - Article

AN - SCOPUS:36348955139

SN - 1006-9941

VL - 15

SP - 524

EP - 529

JO - Hanneng Cailiao/Chinese Journal of Energetic Materials

JF - Hanneng Cailiao/Chinese Journal of Energetic Materials

IS - 5

ER -

Deformation analysis of free loading propellant in storage

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