CONTACT US

Our Address

Science Avenue, High-tech Zone, Zhengzhou City, Henan Province, China

  • Vessel Crushing And Structural Collapse Relationships

    Vessel Crushing And Structural Collapse Relationships. Product capacity : 5-2200t/h. Max Feeding Size : 125-1500mm. Output Size : 10-400mm . This series of jaw crusher belongs to stone crushing equipment which is widely used in the works of metallurgy, mining, cement, chemistry, refractory and ceramics as well as highway construction and water conservancy.

  • Vessel Crushing and Structural Collapse Relationships

    Vessel Crushing and Structural Collapse Relationships for Bridge Design. Accounting for waterway vessel collision is an integral component of structural design for any bridge spanning a navigable waterway. Each time a vessel traverses a given waterway, there is an inherent risk that the vessel may become aberrant from the intended transit path ...

  • Vessel Crushing and Structural Collapse Relationships for ...

    2014-9-18  The structural reliability parameters are then, in turn, used to form structural collapse relationships that aid in the design of bridges subject to barge collision. Finally, to facilitate use of the improved probability of collapse expressions in design applications, vessel crushing behavior is characterized for a wide range of potential

  • A Probabilistic Analysis of the Frequency of Bridge ...

    2020-6-12  The collapse of the Queen Isabella Causeway in 2001, caused by a vessel collision, sent an alarming message to the state of Texas that vessel impact on bridges is a serious issue and that the possibility of such accidents needs to be considered in the design and evaluation of any bridge spanning a waterway. The Texas Department of Transportation (TxDOT) funded this research project at The ...

  • UF impact research

    2016-6-7  Vessel Crushing and Structural Collapse Relationships for Bridge Design [ PDF file ] A previously developed UF/FDOT barge impact load prediction model was updated to account for oblique impact scenarios. A new relationship was also developed to predict the probability that a bridge will collapse due to vessel collision.

  • Figure 6.20 from A Probabilistic Analysis of the

    Figure 6.20: Probability of collapse for Vessel 1 Pier 4 for the GIWW – PR 22 Bridge (from the VIOB Report). - "A Probabilistic Analysis of the Frequency of Bridge Collapses Due to Vessel Impact"

  • SDO - Structures Design Office - Completed Research

    Vessel Crushing and Structural Collapse Relationships for Bridge Design: Consolazio, Gary: University of Florida: Fallaha, Sam: BDK75 977-02 : 6/1/2010: Long Term Bridge Maintenance Monitoring Demonstration on a Moveable Bridge: Catbas, Necati: University of Central Florida: Ansley, Marcus: BD548-23: 1/11/2010

  • Gary Consolazio - Google Scholar Citations

    Vessel crushing and structural collapse relationships for bridge design. GR Consolazio, MT Davidson, DJ Getter. University of Florida, Department of Civil Coastal Engineering, 2010. 27: 2010: Barge impact testing of the St. George Island causeway bridge. GR Consolazio, RA

  • Collision analysis of ships and jack-up rigs

    collision scenarios. The platform or rig is treated as either rigid or flexible and its sensitivity on collision energy and structural damage is studied. An application example where an ice-strengthened supply vessel collides against a Jack-up rig is analyzed and the crushing resistance of the involved thin-walled structures is evaluated. 1.

  • Collisions damage assessment of ships and jack-up rigs

    scenarios. The platform or rig is treated as either rigid or flexible and its sensitivity on collision energy and structural damage is studied. An application example where an ice-strengthened supply vessel collides against a Jack-up rig is analyzed and the crushing resistance of