Abstract
Polymethylmethacrylate (PMMA) has been widely used as transparency in aerospace and automobile engineering to enhance structural reliability under impact loading such as bird strike events. This study investigates the confined compressive behaviour of PMMA at quasi-static 0.01 s−1, medium rate 1-100 s−1 and intermediate strain rates 100-1000 s−1 from room temperature to elevated temperatures. Constant intermediate strain rate loading is achieved by using pulse shaping technique on a bespoke in-house developed split Hopkinson compression bar equipped with a high-speed camera and an environmental chamber. The material presents significant strain rate, temperature and pressure sensitivities. The failure mode at intermediate strain rate changes from brittle fragmentation without confinement to adiabatic shear banding with medium lateral confinement (65.3 MPa), which can be seen from the post-peak slope in the constitutive behavior, melting flow PMMA filaments observed in high speed photography and microstructural analysis. A series of intermediate strain rate experiments at elevated temperatures indicate that the higher temperature results in ductile failure for corresponding pressures. The temperature and strain rate dependent Drucker-Prager (DP) model is found to describe the response of PMMA. The brittle-ductile transition and pressure dependent model provide a better understanding of PMMA at intermediate strain rates, which is appropriate for engineering applications.
Original language | English |
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Article number | 104026 |
Number of pages | 14 |
Journal | International Journal of Impact Engineering |
Volume | 158 |
Early online date | 15 Sept 2021 |
DOIs | |
Publication status | Published - 1 Dec 2021 |
Funding
The authors thank Mr. P. Tantrum, Mr. S. Carter, Mr. J. Fullerton, Mrs. K. Bamford, Dr. K. Dragnevski and Dr. M. Tkaczyk for their assistance. Mrs. N. Stivi and Mr. Y. Rozitski are appreciated for the in person introduction of the confinement technique proposed by Prof. D. Rittel at the Technion-Israel Institute of Technology. The discussion on thermomechanical response of polymers with Prof. C. Siviour is appreciated. Likewise, the finding of dynamic (adiabatic) shear failure of PMMA pointed out by Dr. R. Winter and Prof. J. Field in Cavendish Laboratory and by Prof. D. Rittel at the Technion is acknowledged.
Funders | Funder number |
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Technion - Israel Institute of Technology |
Keywords
- Confined compression
- Hopkinson bar
- Intermediate strain rate
- PMMA
- Pressure
- Shear localization
- Temperature
ASJC Scopus subject areas
- Civil and Structural Engineering
- Automotive Engineering
- Aerospace Engineering
- Safety, Risk, Reliability and Quality
- Ocean Engineering
- Mechanics of Materials
- Mechanical Engineering