Safety investigation and guidance for retrofitting existing approach guardrail transitions

Jennifer D. Schmidt, Eric R. Jowza, Scott K. Rosenbaugh, Ron Faller, John D. Reid

Research output: Chapter in Book/Report/Conference proceedingChapter

Abstract

Approach guardrail transition systems have been designed, tested, und evaluated according to various impact safety standards. Unfortunately, approach guardrail transitions that arc installed in the field may deviate from the as-tested configuration (e.g., by missing posts); this deviation reduces the desired lateral stiffness and strength of the transition system. Validated BARRIER VII computer models of 18-ft 9-in. (5.7-m)-long and 31-ft 3-in. (9.5-m) long systems of NCHRP Report 350 crashworthy approach guardrail transitions were used to gain an understanding of how they would perform, with and without deficiencies, when subjected to Test Level 3 impacts at various locations throughout each system. Each simulation was evaluated on the basis of three criteria: (a) maximum wheel-rim snag on the upstream edge of the bridge rail, (b) maximum dynamic deflection within the nested Thrie section, and (c) maximum vehicle pocketing angle within the nested Thrie section. According to simulation results, when transition posts were missing, installed adjacent to sloped terrain, or exposed more than 3 in. (76 mm), excessive dynamic deflection or vehicle snag on the upstream end of the bridge rail could occur. Recommendations and retrofits are provided to upgrade approach guardrail transitions for the safest performance.

Original languageEnglish (US)
Title of host publicationTransportation Research Record
PublisherNational Research Council
Pages52-62
Number of pages11
ISBN (Electronic)9780309295253
DOIs
StatePublished - Jan 1 2014

Publication series

NameTransportation Research Record
Volume2437
ISSN (Print)0361-1981

Fingerprint

Retrofitting
Rails
Wheels
Stiffness

ASJC Scopus subject areas

  • Civil and Structural Engineering
  • Mechanical Engineering

Cite this

Schmidt, J. D., Jowza, E. R., Rosenbaugh, S. K., Faller, R., & Reid, J. D. (2014). Safety investigation and guidance for retrofitting existing approach guardrail transitions. In Transportation Research Record (pp. 52-62). (Transportation Research Record; Vol. 2437). National Research Council. https://doi.org/10.3141/2437-06

Safety investigation and guidance for retrofitting existing approach guardrail transitions. / Schmidt, Jennifer D.; Jowza, Eric R.; Rosenbaugh, Scott K.; Faller, Ron; Reid, John D.

Transportation Research Record. National Research Council, 2014. p. 52-62 (Transportation Research Record; Vol. 2437).

Research output: Chapter in Book/Report/Conference proceedingChapter

Schmidt, JD, Jowza, ER, Rosenbaugh, SK, Faller, R & Reid, JD 2014, Safety investigation and guidance for retrofitting existing approach guardrail transitions. in Transportation Research Record. Transportation Research Record, vol. 2437, National Research Council, pp. 52-62. https://doi.org/10.3141/2437-06
Schmidt JD, Jowza ER, Rosenbaugh SK, Faller R, Reid JD. Safety investigation and guidance for retrofitting existing approach guardrail transitions. In Transportation Research Record. National Research Council. 2014. p. 52-62. (Transportation Research Record). https://doi.org/10.3141/2437-06
Schmidt, Jennifer D. ; Jowza, Eric R. ; Rosenbaugh, Scott K. ; Faller, Ron ; Reid, John D. / Safety investigation and guidance for retrofitting existing approach guardrail transitions. Transportation Research Record. National Research Council, 2014. pp. 52-62 (Transportation Research Record).
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