Cathodic protection developments for prestressed concrete components /

"July 1994."

Long-term effects of cathodic protection on prestressed concrete bridge components /

"November 1996."

Long-term effects of cathodic protection on prestressed concrete bridge components /

"April 1998."

Optimized sections for high-strength concrete bridge girders : effect of deck concrete strength.

"HRDI-06/10-06(750)E"--Back cover.

Concrete bridge deck overlays in Illinois : mix design experimentation and investigation of construction methods /

"IL-PRR-133"--Technical report documentation page.

Evaluation of mechanized consolidation of bridge deck concrete in Illinois /

"August 17, 1999."

Arch bridges – unlocking their potential

Arch bridges are strong, durable, aesthetically pleasing and require little maintenance but very few have been built since the early 1900s. However, this trend has changed as more than 60 FlexiArch bridges have been installed since the system was launched in 2007. The FlexiArch uses precast concrete voussoirs, requires neither corrodible reinforcement, nor centring, can be installed in hours and is contractor friendly. Details of this innovative method of construction and installation of arch bridges are given and the enormous potential of the system for multi-span
viaducts is also highlighted.

Brücken in Eisenbeton, ein Leitfaden für Schule und Praxis

"Verzeichnis von Abhandlung über Eisenbeton-Balkenbrücken in verschiedenen Fachzeitschriften," vol.1, p.185-187; "Verzeichnis von neueren Abhandlungen über Eisenbeton-Wölbbrücken in verschiedenen Fachzeitschriften," vol.2, p.195-198.

Construction loads and vibrations /

"Report no. ITRC FR 94-3".

A feasibility study for model based estimating for concrete bridges.

Designing and estimating civil concrete structures is a complex process which to many practitioners is tied to manual or semi-manual processes of 2D design and cannot be further improved by automated, interacting design-estimating processes. This paper presents a feasibility study for the development an automated estimator for concrete bridge design. The study offers a value proposition: an efficient automated model-based estimator can add value to the whole bridge design-estimating process, i.e., reducing estimation errors, shortening the duration of success estimates, and increasing the benefit of doing cost estimation when compared with the current practice. This is then followed by a description of what is in an efficient automated model-based estimator and how it should be used. Finally the process of model-based estimating is compared with the current practice to highlight the values embedded in the automated processes.