Rapid prediction of polymer stab resistance performance
Rapid and accurate estimation of a material's stab-resistance performance is important for the design of personal protective clothing. In this work, the stab-resistance performance was investigated and compared on five commercially used polymers—PA (polyamide) 6, PA11, PA12, PC (polycarbonate),...
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| Published in | Materials & design Vol. 192; p. 108721 |
|---|---|
| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Elsevier Ltd
01.07.2020
Elsevier |
| Subjects | |
| Online Access | Get full text |
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| Abstract | Rapid and accurate estimation of a material's stab-resistance performance is important for the design of personal protective clothing. In this work, the stab-resistance performance was investigated and compared on five commercially used polymers—PA (polyamide) 6, PA11, PA12, PC (polycarbonate), and PE (polyethylene)—by conducting impact tests as described in the GA 68-2008 National Standard. The relationship between the penetration depth and impact energy was studied. Rockwell hardness tests, shear strength tests, and 3D tomography observations were performed to characterize the response mechanisms of the five polymers. The process of a knife impacting a substrate was described and verified. It was revealed that the surface hardness and shear strength were the key mechanical properties that affected the overall stab-resistance performance. A theoretical model was proposed, which combined the mechanical properties to quantitatively predict the material's response behavior under a knife impact, and it was validated with a prediction error between 5% and 20%. The results can be used in the selection process of stab-resistant candidates and predicting the knife-penetration performances of different materials under various impact energies.
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•The knife impact process was characterized as cavitation, penetration, and perforation.•The relationship between the critical plate thickness and impact energy on different polymers were characterized.•The surface hardness and shear strength were key mechanical properties that affected the overall stab-resist performance.•A theoretical model to rapidly predict the stab-resist performance of polymers was established and verified. |
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| AbstractList | Rapid and accurate estimation of a material's stab-resistance performance is important for the design of personal protective clothing. In this work, the stab-resistance performance was investigated and compared on five commercially used polymers—PA (polyamide) 6, PA11, PA12, PC (polycarbonate), and PE (polyethylene)—by conducting impact tests as described in the GA 68-2008 National Standard. The relationship between the penetration depth and impact energy was studied. Rockwell hardness tests, shear strength tests, and 3D tomography observations were performed to characterize the response mechanisms of the five polymers. The process of a knife impacting a substrate was described and verified. It was revealed that the surface hardness and shear strength were the key mechanical properties that affected the overall stab-resistance performance. A theoretical model was proposed, which combined the mechanical properties to quantitatively predict the material's response behavior under a knife impact, and it was validated with a prediction error between 5% and 20%. The results can be used in the selection process of stab-resistant candidates and predicting the knife-penetration performances of different materials under various impact energies. Rapid and accurate estimation of a material's stab-resistance performance is important for the design of personal protective clothing. In this work, the stab-resistance performance was investigated and compared on five commercially used polymers—PA (polyamide) 6, PA11, PA12, PC (polycarbonate), and PE (polyethylene)—by conducting impact tests as described in the GA 68-2008 National Standard. The relationship between the penetration depth and impact energy was studied. Rockwell hardness tests, shear strength tests, and 3D tomography observations were performed to characterize the response mechanisms of the five polymers. The process of a knife impacting a substrate was described and verified. It was revealed that the surface hardness and shear strength were the key mechanical properties that affected the overall stab-resistance performance. A theoretical model was proposed, which combined the mechanical properties to quantitatively predict the material's response behavior under a knife impact, and it was validated with a prediction error between 5% and 20%. The results can be used in the selection process of stab-resistant candidates and predicting the knife-penetration performances of different materials under various impact energies. [Display omitted] •The knife impact process was characterized as cavitation, penetration, and perforation.•The relationship between the critical plate thickness and impact energy on different polymers were characterized.•The surface hardness and shear strength were key mechanical properties that affected the overall stab-resist performance.•A theoretical model to rapidly predict the stab-resist performance of polymers was established and verified. |
| ArticleNumber | 108721 |
| Author | Yuan, Mengqi Guo, Yaxin Qian, Xinming Wei, Yuchen Liu, Yi |
| Author_xml | – sequence: 1 givenname: Yaxin surname: Guo fullname: Guo, Yaxin organization: State Key Laboratory of Explosion Science and Technology, Beijing Institute of Technology, Beijing 100081, China – sequence: 2 givenname: Mengqi surname: Yuan fullname: Yuan, Mengqi email: myuan@bit.edu.cn organization: State Key Laboratory of Explosion Science and Technology, Beijing Institute of Technology, Beijing 100081, China – sequence: 3 givenname: Xinming surname: Qian fullname: Qian, Xinming organization: State Key Laboratory of Explosion Science and Technology, Beijing Institute of Technology, Beijing 100081, China – sequence: 4 givenname: Yuchen surname: Wei fullname: Wei, Yuchen organization: State Key Laboratory of Explosion Science and Technology, Beijing Institute of Technology, Beijing 100081, China – sequence: 5 givenname: Yi surname: Liu fullname: Liu, Yi organization: Safety and Environmental Protection Branch, Sinopec Northwest Oil Filed Company, Xinjiang 130000, China |
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| Keywords | PA PC STF PE Mechanical properties HRR Stab resistant Impact behavior Finite element analysis |
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