2023
DOI: 10.3390/polym15193869
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Study on Mechanical Properties and Failure Mechanisms of Highly Filled Hydroxy-Terminated Polybutadiene Propellant under Different Tensile Loading Conditions

Chengfeng Wu,
Yingying Lu,
Ming Jiang
et al.

Abstract: To study the mechanical properties of highly filled hydroxy-terminated polybutadiene (HTPB) propellant with 90 wt% solid fillers, the stress–strain curves of the propellant under different temperatures (−50 to 70 °C) and strain rates (0.000476 to 0.119048 s−1) were obtained by uniaxial tensile test. Moreover, to obtain the glass transition temperature and understand the effect of low temperatures on the mechanical properties of the propellant, DMA experiments were carried out. On this basis, the mechanical res… Show more

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“…Once the applied strain beyond a specific critical threshold, the stress exhibits a discernible decline with the strain continues to grow. This is attributable to the fact that when the strain reaches the extreme value (about 0.45), the propellant particle dewetting phenomenon is significant, and the matrix is elongated to the point of tearing by completely bearing the external load, resulting in the macroscopic failure of the propellant within a short period of time [38]. This decline aligns with the decreasing segment of the stress-strain curve.…”
Section: Mechanical Responsementioning
confidence: 96%
“…Once the applied strain beyond a specific critical threshold, the stress exhibits a discernible decline with the strain continues to grow. This is attributable to the fact that when the strain reaches the extreme value (about 0.45), the propellant particle dewetting phenomenon is significant, and the matrix is elongated to the point of tearing by completely bearing the external load, resulting in the macroscopic failure of the propellant within a short period of time [38]. This decline aligns with the decreasing segment of the stress-strain curve.…”
Section: Mechanical Responsementioning
confidence: 96%