Checking the quality of digital information on construction projects requires world-class quality assurance at Laing O'Rourke's offsite manufacturing facility
Checking the quality of digital information is an essential part of any project at Laing O'Rourke. It begins with initial clash checks, design iteration checks and model revisions, continues by checking the precast concrete products manufactured at Laing O'Rourke's offsite manufacturing facility, Explore Industrial Park (EIP), and concludes with further checks carried out at the project site itself.
Laing O'Rourke is one of the UK's leading construction and engineering enterprises bringing innovation and excellence to the sector through its digital and offsite manufacturing approach. Laing O'Rourke's Explore Industrial Park (EIP) - the most automated concrete products facility in Europe, based in Steetley - is central to its DfMA (Design for Manufacture and Assembly) approach. EIP develops the design models which are then used to create the precast elements required for the individual project at hand.
Digital and offsite manufacturing approach
One of Laing O'Rourke's current projects is a hospital in the North of England, where the team is using Solibri across the entire project.
Antony Aucote, senior digital engineer at Laing O'Rourke, describes: "The project team is very keen to use and benefit from Solibri. It's not just us as the digital engineers, we have the commercial team, designer consultants and planners using Solibri for everything, from detailed model checking and clash detection to carrying out their weekly project reviews."
"The value that we get from Solibri is the efficiency," adds Robert Broad, senior digital engineer at Laing O'Rourke.
"We're using it for checks that previously would have been quite difficult and labour intensive to do manually."
With Solibri, Laing O'Rourke has been able to automate a great deal of their model checking, bringing overall time savings and quality into the checking process. Broad continues: "We're not just using the standard clash detection rule set, but also most of the advanced geometry rule sets. For example, the component distance check to ensure, say for a cast-in coupling, that the corresponding parts in the other component are within a certain distance."
The well-functioning quality assurance process runs in collaboration with all the involved project stakeholders.
"Solibri uses a neutral IFC file format," Broad remarks, "So we can federate models from multiple platforms, and that's useful for us because we prefer to select the platform that best suits our precast re-enforcement detailing needs."
Not to mention the possibility to bring in models from external consultants. "The MEP manufacturer, for example; we can bring in their model and compare it against the precast fabrication model to make sure there are no clashes or other alignment issues," Broad adds.
Laing O'Rourke also makes use of the BCF Connector functionality in Solibri.
Aucote describes: "Once the team is carrying out the model review, they're actually publishing any errors or issues that they find straight up to BIM Collab, which is the chosen commenting platform on this project.
"We find that this built-in functionality is bringing the team together really well, because although the design teams are external to Laing O'Rourke, they can view the issues directly, too, and review them more effectively than the traditional process."
Since there can be many different teams working on multiple elements on each project at the same time, it's inevitable that clashes will show up. That's why Laing O'Rourke values the importance of high-quality model checking throughout their offsite manufacturing processes.
"There has been high-level savings by using Solibri early in the process and it has allowed us to rule out faults further down the line," Aucote concludes.