Experimental and numerical study of full-scale scissor type bridge
journal contributionposted on 24.06.2016 by Yuki Chikahiro, Ichiro Ario, Masatoshi Nakazawa, Syuichi Ono, Jan Holnicki-Szulc, Piotr Pawlowski, Cezary Graczykowski, Andrew Watson
Any type of content formally published in an academic journal, usually following a peer-review process.
Mobile Bridge™ is a deployable bridge that uses a scissors mechanism to achieve its useful structural form. The bridge has a compact size in its undeployed state and can be transported easily to where it is needed. Its rapid deployment makes this type of bridge very useful in areas struck by natural disasters by enabling vehicles to cross terrain that has been made impassable. In previous research, experiments and analyses were conducted on a small-scale bridge designed for pedestrians. In order to consider a bridge of increased size, it is necessary to assess whether design and analysis techniques of the small scale bridge are applicable to the full-scale one. In this paper, we consider a full-scale deployable bridge with a lower deck and two scissor units, that allows for a light vehicle to pass across. We have carried out a light vehicle loading test in order to investigate its basic structural characteristics. Furthermore, the paper presents the theoretical design method and numerical models based on the experimental work followed by validation and comparison with the obtained experimental values.
This research was supported for Dr. I. Ario by a Grant-in-Aid-Scientific-Research Base Research (B) of Japan Society for the Promotion of Science (JSPS) in 2011–2013. We appreciated that all manufacture of cradles and experimental bridge were supported by Akashin Corporation in Japan. Moreover, we appreciated that a sample of the aluminium materials of scissor members and the deck boards were offered by Hoshi-kei-kinzoku Industry Co., Ltd., and Sankyo Tateyama, Inc, Sankyo Material Co., in Japan.
- Aeronautical, Automotive, Chemical and Materials Engineering
- Aeronautical and Automotive Engineering