Data underlying the PhD thesis: Structural reliability updating through proof load testing

DOI:10.4121/f14b0777-b06d-43a9-8282-e751b9e84555.v1
The DOI displayed above is for this specific version of this dataset, which is currently the latest. Newer versions may be published in the future. For a link that will always point to the latest version, please use
DOI: 10.4121/f14b0777-b06d-43a9-8282-e751b9e84555

Datacite citation style

de Vries, Rein; Lantsoght, Eva (2025): Data underlying the PhD thesis: Structural reliability updating through proof load testing. Version 1. 4TU.ResearchData. dataset. https://doi.org/10.4121/f14b0777-b06d-43a9-8282-e751b9e84555.v1
Other citation styles (APA, Harvard, MLA, Vancouver, Chicago, IEEE) available at Datacite

Dataset

This dataset belongs to the PhD thesis of Rein de Vries titled "Structural reliability updating through proof load testing – A Bayesian methodology applied to reinforced concrete road bridges and viaducts". The data is organised following the structure of the dissertation, which can be found via the TUD repository: https://repository.tudelft.nl/


The dissertation followed from the PhD project "Probabilistic substantiation of proof load testing" executed at the Concrete Structures department of the Delft University of Technology (TUD) from 1 September 2020 to 1 September 2025. The project number is CS3B09, and the Directorate-General for Public Works and Water Management (Rijkswaterstaat, RWS) has financed the work. This project was a collaboration between TUD, TNO and RWS.


Description of files:

  • Chapter 3 Fits bending and shear SI.csv, Chapter 3 Fits bending and shear US.csv: These files contain the Gumbel distribution fits, where column "x" refers to the span length in m (SI) and in ft (US). The remaining columns provide the mean value for each road and the corresponding coefficient of variation (COV). The distribution parameters referring to shear force are indicated with suffix "_Shear". The mean values are provided in MNm (SI) and in kip·ft (US). The mean and coefficient of variation plots are collected in Figure 3.2.
  • Chapter 3 Factors CC2 and CC3.csv: This file contains the target proof load factors that have been calculated using the procedure described in the thesis. The first column "x" refers to the span length in m. In the remainder of the columns containing the factors, CC refers to the consequence class, M indicates moment, and V indicates shear. The proof load factors are plotted in Figure 3.3.
  • Chapter 5 Beam test data H121.csv, Chapter 5 Beam test data H401.csv, Chapter 5 Beam test data H403.csv, Chapter 5 Beam test data H404.csv, Chapter 5 Beam test data H602.csv: These files contain the data that followed from the DIC measurements on the lab tests of the beams tested in the TUD laboratory. The first row contains the applied load (P) in kN, and each corresponding column contains the calculated nominal crack width in mm using a virtual LVDT centred around the location that is indicated using the fraction M/(Vd) in the first column.
  • Chapter 5 Beam test data (incl post-processing).xlsx: In this file, the same data are contained as described above, including their post-processing calculating the maximum that has occurred during all previous load steps and all considered positions, and utilising a weighing factor based on their locations. Note that the weighted crack width is still expressed in mm, but it does not directly correspond to measured crack widths any more. The results are also plotted in Figure 5.3.
  • Chapter 5 Sectional analysis.csv: This file contains the section analysis results from the LHS procedure in which the mechanical properties of a cross-section are varied. The first column contains the reinforcement steel strains (no unit) and the second row provides the yield moment of each realisation. In total 100 virtual experiments were performed, resulting in the curves indicated with M_i where i is the experiment or realisation number. The moments are provided in kNm.
  • Chapter 5 Sectional analysis (incl post-processing).xlsx: Just like with the laboratory experiments, a second file is provided that contains the data and also includes the post-processing. No additional weighing is performed; the ratio is directly calculated as the current load effect divided by the yield moment.
  • Chapter 6 Repeat tests with shear reinforcement.csv, Chapter 6 Repeat tests without shear reinforcement.csv: These files contain the test results that were selected from the large ACI-DAfStb shear da‍ta‍ba‍se, separated for beams with and without shear reinforcement. The mean compressive strength is provided in MPa, and the value of the test results is in kN. The coefficient of variation (COV) was calculated from the test results. A copy of the complete shear database may be requested via: https://dafstb.de/aci-dafstb.html


As described in Chapter 3 of the dissertation, weigh-in-motion (WIM) data have been used to characterise the load effect from trucks statistically. This dataset may be obtained by contacting Martin Nijgh of RWS, specifying the intended usage of the data (details in README.txt).

History

  • 2025-11-11 first online, published, posted

Publisher

4TU.ResearchData

Format

Comma-separated values (.csv) and Excel (.xlsx)

Funding

  • Rijkswaterstaat

Organizations

TU Delft, Faculty of Civil Engineering and Geosciences, Department of Engineering Structures, Concrete Structures
Netherlands Organisation for Applied Scientific Research (TNO)
Directorate-General for Public Works and Water Management (Rijkswaterstaat, RWS)

DATA

Files (1)