Acceptable Risk in Military Bridge Evaluation

Authors

  • Andrew James MacDonald Royal Military College of Canada, Kingston, Ontario, Canada; McCall Engineering Limited, Victoria, British Columbia, Canada
  • R. Gordon Wight Professor, Dept. of Civil Engineering, Royal Military College of Canada, Kingston, Ontario, Canada.
  • F. Michael Bartlett Associate Dean (Undergraduate Studies), Faculty of Engineering, Western University, London, Ontario, Canada and Adjunct Professor, Dept. of Civil Engineering, Royal Military College of Canada, Kingston, Ontario, Canada

DOI:

https://doi.org/10.3849/aimt.01106

Keywords:

acceptable risk, bridge evaluation, life-safety, military risk, operations

Abstract

In military bridge evaluation, acceptable life-safety risk in crossings should be aligned with the acceptable life-safety risk of the associated military operation.  A continuum of acceptable life-safety risk exists for military operations, thus a continuum of acceptable life-safety risk for military vehicles crossing bridges exists.  The paper relates military mission life-safety acceptable risk levels to acceptable bridge crossing life-safety risk in an approximate quantitative manner. A continuum of acceptable life-safety risk for military bridge crossings provides flexibility in mission planning and execution, while providing engineers a basis to conduct military bridge evaluation that is consistent with the mission intent.

Author Biographies

  • Andrew James MacDonald, Royal Military College of Canada, Kingston, Ontario, Canada; McCall Engineering Limited, Victoria, British Columbia, Canada

    Research Associate, Military Engineering Research Group, Royal Military College of Canada

  • F. Michael Bartlett, Associate Dean (Undergraduate Studies), Faculty of Engineering, Western University, London, Ontario, Canada and Adjunct Professor, Dept. of Civil Engineering, Royal Military College of Canada, Kingston, Ontario, Canada
    ff of Civil and Environmental EngineeringDepartment of Civil and Environmental EngineeringDepartment of Civil and Environmental EngineeringAssociate Dean (Undergraduate Studies), Faculty of Engineering, Western University, London, Ontario, Canada and Adjunct Professor, Dept. of Civil Engineering, Royal Military College of Canada, Kingston, Ontario, Canada

References

CANADIAN STANDARDS ASSOCIATION (CSA) S408-2011:2011, Guidelines for the development of limit states design standards, CSA Special Publication. Rexdale, Ontario, Canada.

CONSTRUCTION INDUSTRY RESEARCH AND INFORMATION ASSOCIATION (CIRIA), Report 63, Rationalisation of safety and serviceability factors in structural codes [Report]. London, United Kingdom : Construction Industry Research and Information Association, 1977.

CANADIAN DEFENCE ACADEMY, CANADIAN FORCES LEADERSHIP INSTITUE. Leadership in the Canadian Forces, Leading People. Ottawa, Ontario, Canada : Her Majesty the Queen in Right of Canada, 2007.

MAUCH, S.P. and SCHNEIDER, TH. The direct endangering of the living space (A proposed set of quantitative concepts) [Die unmittelbare Gefährdung unseres Leensraumes (Versuch eines quantitative Begriffssystems). Schweizer Archiv, 37 (6): 175-185, 1971]. NRC Technical Translation TT-1636. Ottawa, Ontario, Canada : National Research Council, 1973.

SYKORA, M., HOLICKY M., LENNER R. and MAŇAS P. Target Reliability Levels for Existing Bridges Considering Emergency and Crisis Situations. Advances in Military Technology, 2014, 9(1): 45-57.

ARMED FORCES EPIDEMIOLOGICAL BOARD. Injuries in the Military - A Hidden Epidemic [Report]. Washington, District Columbia, United States of America. : Armed Forces Epidemiological Board, 1996.

CANADIAN DEPARTMENT OF NATIONAL DEFENCE. Risk Management for CF Operations, Change 1 (B-GJ-005-502/FP-000). Ottawa, Ontario, Canada : Government of Canada, 2007.

US DEPARTMENT OF THE ARMY. Risk Management (FM 100-14). Washington, District of Columbia, United States of America : United States Army, 1998.

WIGHT, T. Operational Commander's Risk Assessment: How much Can You Really Afford to Lose? [Naval War College - Thesis]. Newport, RI, United States of America : Defense Technical Information Center, 1997.

Canadian Socioeconomic Database [online 2012-05-30]. Statistics Canada. [cited: 2013-06-18]. Available from: <http://www5.statcan.gc.ca/cansim/>.

GOLDBERG, M.S. Death and Injury Rates of U.S. Military Personnel in Iraq. Military Medicine, 2010, pp. Vol 175, 4, p. 220-226.

icasualties.org. [online 2013-06-16]. icasualties.org. [cited: 2013-06-18]. Available from: <http://icasualties.org/OEF/Nationality.aspx?hndQry=Canada>.

Timeline: Canadian deaths in Afghanistan. [online 2011-03-28] Canada.com. [cited 2013-09-10]. Available from: <http://www.canada.com/news/Timeline+ Canadian+deaths+Afghanistan/1037437/story.html>.

Battle of the Bulge [online]. wikipedia.org. [cited 2014-11-03]. Available from: <http://en.wikipedia.org/wiki/Battle_of_the_Bulge>.

Siege of Bastogne [online]. wikipedia.org. [cited 2014-11-03]. Available from: <http://en.wikipedia.org/wiki/Seige_of_Bastogne>.

VANCATA, P. Statistics of the Battle of Britain [online]. Battle of Britain. [cited 2014-11-03]. Available from: <http://cz-raf.hyperlink.cz/BoB/stat.html>.

CHETTEO, C. S. The Military Classification of Bridges in Great Britain. In The Civil Engineer in War, A Symposium of Papers on War-Time Engineering Problems, Volume 1 Airfield, Roads, Railways, and Bridges. London, Britain : The Institution of Civil Engineer, 1948, pp. 360-364.

NATO Standardisation Agreement (STANAG) 2021. Military Load Classification of Bridges, Ferries, Rafts and Vehicles. Edition 6.

ALLEN, D.E. Canadian highway bridge evaluation: reliability index. Canadian Journal of Civil Engineering, 1992, Vol. 19(6): 987-991.

CREMONA, C. Structural Performance, Probability-based Assessment. Hoboken, New Jersey, United States of America : John Wiley & Sons, Inc., 2011.

MENZIES, J.B. Bridge failures, hazards and societal risks. [book auth.] Parag C. Das. Safety of Bridges. London, United Kingdom : Thomas Telford, 1997, pp. 36-41.

CHIEF REVIEW SERVICES. Evaluation of DND/CF Ammunition Safety Program - 1258-101-2 (CRS) [Report]. Canada : Department of National Defense, 2005.

US DEPARTMENT OF THE ARMY and US DEPARTMENT OF THE NAVY. Operational Terms and Graphics (FM 1-02/MCRP 5-12A). Washington, District Columbia, United States of America : 2004.

NOWAK, A.S. Live load model for highway bridges. Structural Safety, 1993, Vol. 13: 53-66.

NOWAK, A.S. and Hong, Y.K. Bridge Live-Load Models. Journal of Structural Engineering, 1991, Vol 117(9): 2757-2767.

KENNEDY, L.D.J. et al. Canadian highway bridge evaluation: load and resistance factors. Canadian Journal of Civil Engineering, 1992, Vol 19: 992-1006.

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Published

29-11-2016

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Research Paper

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How to Cite

MacDonald, A. J., Wight, R. G., & Bartlett, F. M. (2016). Acceptable Risk in Military Bridge Evaluation. Advances in Military Technology, 11(2), 197-209. https://doi.org/10.3849/aimt.01106

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