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- Title
Optimal design and dynamic impact tests of removable bollards.
- Authors
Chen, Suwen; Liu, Tianyi; Li, Guoqiang; Liu, Qing; Sun, Jianyun
- Abstract
Anti-ram bollard systems, which are installed around buildings and infrastructure, can prevent unauthorized vehicles from entering, maintain distance from vehicle-borne improvised explosive devices (VBIED) and reduce the corresponding damage. Compared with a fixed bollard system, a removable bollard system provides more flexibility as it can be removed when needed. This paper first proposes a new type of K4-rated removable anti-ram bollard system. To simulate the collision of a vehicle hitting the bollard system, a finite element model was then built and verified through comparison of numerical simulation results and existing experimental results. Based on the orthogonal design method, the factors influencing the safety and economy of this proposed system were examined and sorted according to their importance. An optimal design scheme was then produced. Finally, to validate the effectiveness of the proposed design scheme, four dynamic impact tests, including two front impact tests and two side impact tests, have been conducted according to BSI Specifications. The residual rotation angles of the specimen are smaller than 30º and satisfy the requirements of the BSI Specification.
- Subjects
BOLLARDS; TRAFFIC signs &; signals -- Supports; FINITE element method; TRAFFIC safety; NUMERICAL analysis
- Publication
Earthquake Engineering & Engineering Vibration, 2017, Vol 16, Issue 4, p793
- ISSN
1671-3664
- Publication type
Article
- DOI
10.1007/s11803-017-0415-8