A Case Study on the Static Behavior of a Pedestrian Bridge Built with a Steel Pratt Truss Deck Bridge Supported by an Inclined Roller Support

Authors

  • Angelito N. Angeles Civil Engineering Department, School of Engineering and Architecture, Holy Angel University, Angeles City, Philippines
  • Keith Zyren T. Almodovar Civil Engineering Department, School of Engineering and Architecture, Holy Angel University, Angeles City, Philippines
  • Gericho G. Gopez Civil Engineering Department, School of Engineering and Architecture, Holy Angel University, Angeles City, Philippines
  • Kezia Irielle N. Lebre Civil Engineering Department, School of Engineering and Architecture, Holy Angel University, Angeles City, Philippines
  • Sharina Jolene B. Nucup Civil Engineering Department, School of Engineering and Architecture, Holy Angel University, Angeles City, Philippines
  • Georvin P. Samson Civil Engineering Department, School of Engineering and Architecture, Holy Angel University, Angeles City, Philippines

DOI:

https://doi.org/10.69569/jip.2024.0072

Keywords:

Bridge, Bridge support, Inclined roller support, Plane truss, Graphic rapid analysis software, Program, Direct stiffness method

Abstract

Construction of bridges commonly uses trusses due to their lightweight design, which can endure heavy loads and span large distances. However, there are instances when the supports of these trusses do not lie normally on a horizontal surface. For some, the supports lie on inclined foundations, which is the focus of this study. The main objective of this study is to present the basic theory of plane truss analysis with an inclined roller support using the Direct Stiffness Method (DSM) in comparison to the use of the Graphic Rapid Analysis Software Program (GRASP) to analyze the static behavior of the structure. Furthermore, a case study is conducted to check the effects of inclined supports on a plane truss structure. Based on the results, it was discovered that the introduction of inclined roller supports does have a negative effect on the stability of the structure.

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References

Sennet, R. E. (1994). Matrix analysis of structures. United States of America: Waveland Press, Inc.

Kassimali, A. (2012). Matrix analysis of structures (2nd ed.). Stamford, CT: Cengage Learning. Kassimali, A. (2011). Structural analysis (4th ed.). Stamford, CT: Cengage Learning.

McGuire, Gallagher & Ziemian (2014). Matrix structural analysis (2nd ed.). New York, NY: John Wiley & Sons, Inc.

Sennet, R. E. (1994). Matrix analysis of structures. United States of America: Waveland Press, Inc.

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Published

2024-04-08

How to Cite

Angeles, A., Almodovar, K. Z., Gopez, G., Lebre, K. I., Nucup, S. J., & Samson, G. (2024). A Case Study on the Static Behavior of a Pedestrian Bridge Built with a Steel Pratt Truss Deck Bridge Supported by an Inclined Roller Support. Journal of Interdisciplinary Perspectives, 2(5), 144–160. https://doi.org/10.69569/jip.2024.0072

Issue

Vol. 2 No. 5 (2024): May 2024 Issue

Section

Articles

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Copyright (c) 2025 Journal of Interdisciplinary Perspectives

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