In this paper, viscometry, yield stress, and small shear strain oscillation experiments on monomethylhydrazine gels are presented. The goal is to define a gel formulation with a measurable yield stress under low-shear conditions and shear-thinning behavior at shear rates representative of typical rocket injectors. Hydroxypropylcellulose, fumed silica, and a hybrid of the two materials are investigated as gelling agents for monomethylhydrazine. The two gel formulations that included hydroxypropylcellulose exhibited similar shear-thinning behavior with power-law flow indices of to 0.2. The pure fumed silica gel samples exhibited highly shear-thinning behavior with negative power-law flow indices indicative of thixotropic behavior. Tests performed after a preshear cycle showed shear-thinning power-law flow indices of . Unlike the pure hydroxypropylcellulose and hybrid gels, the fumed silica gel exhibited a well-defined, measureable yield stress. Small-strain oscillatory experiments showed that hydroxypropylcellulose and hybrid gels behave like linear viscoelastic liquids below a critical strain value, whereas the fumed silica gel behaves like a viscoelastic solid with a distinguishable yield stress. The phase angle of these gelled propellants is also discussed as a function of frequency, as are the implications of these results to the physical processes of interest.
Rheological Characterization of Monomethylhydrazine Gels
Journal of Propulsion and Power ; 29 , 2 ; 313-320
2013-02-06
8 pages
Article (Journal)
Electronic Resource
English
Rheological Characterization of Monomethylhydrazine Gels
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