Concrete Pavement Blowup Considering Generalized Boundary Conditions

An analytical expression for static stability of a rectangular slab with two simply supported and two elastically restrained edges is presented. The linear elastic isotropic slab can represent a rigid pavement resting on an elastic foundation and loaded by a uniform in-plane axial load per unit length along the edges. The partially restrained edges are connected to the ground by translational and rotational elastic springs; an appropriate magnitude of the springs can capture classical boundary conditions such as free, simply supported, and clamped edges. Results from classical boundary conditions and a finite-element model were used to validate the proposed stability equation. The generalized boundary conditions were found to change the critical load by a factor of two and greatly affected the first buckling mode shape of a typical concrete pavement. The critical load was not sensitive to the slab’s geometry if the length was four times longer than the width, but this was not the case for small aspect ratios. Finally, the translational spring was found to be a defining factor in determining the influence of the other variables on the critical load.

Record URL:
Supplemental Notes:
- © 2018 American Society of Civil Engineers.
Authors:
- Hernandez, Jaime A
- Al-Qadi, Imad
Publication Date: 2018-9

Language

English

Media Info

Media Type: Web
Features: References;
Pagination: 04018038
Serial:
- Journal of Transportation Engineering, Part B: Pavements
- Volume: 144
- Issue Number: 3
- Publisher: American Society of Civil Engineers
- EISSN: 2573-5438
- Serial URL: http://ascelibrary.org/journal/jpeodx

Subject/Index Terms

TRT Terms: Axial loads; Blowup (Pavements); Concrete pavements; Rigid pavements; Slabs; Static stability
Subject Areas: Highways; Pavements; Planning and Forecasting;

Filing Info

Accession Number: 01679071
Record Type: Publication
Files: TRIS, ASCE
Created Date: Aug 27 2018 2:05PM