University of Virginia South Lawn

One of the largest general contractors in North America, Barton Malow Company, has utilized the Tekla Structures BIM solution for Construction Management in several innovative projects, including the University of Virginia South Lawn project. Barton Malow is adding efficiency and value to their business operations by managing construction management information in a 3D context, throughout the project lifecycle.

BIM for Construction Management

Barton Malow Project Engineer Nathan Mallory comments on the use of Tekla Structures for Construction Management:
 ”Much of this effort really begins before any work takes place or the first object is modeled. We began our efforts by clearly defining our Building Information Modeling requirements and including them in all of Requests for Proposal on the project. This provided a platform to discuss each subcontractor’s capabilities with respect to BIM and assess what we could achieve with each of them.”

Cooperation in pioneering projects

Barton Malow values Tekla Structures BIM (Building Information Modeling) software for its ability to integrate and analyze building and construction information, from BIM and non-BIM sources, as well as its user-friendly and easily customizable environment. Barton Malow previously used Tekla Structures in 2006 to speed up and streamline the expansion of the Lynchburg General Hospital in Virginia, US. 

“We’ve been very happy with Tekla’s initiative and cooperation in these pioneering BIM projects that have considerably improved our project management processes,” says Vice President Phil Kirby of Barton Malow in Charlottesville, Virginia. “We have firm plans to utilize the Tekla Structures software in future projects that require optimized construction data management,” says Kirby.
 
The University of Virginia’s South Lawn Arts and Sciences project is the most ambitious undertaking on the University’s Central Grounds in over a century. The challenge was to accommodate the contemporary program requirements of the College and Graduate School of Arts and Sciences while respecting the Jeffersonian architecture of the nearby Academic Village. The University of Virginia was founded by Thomas Jefferson. In addition to being America’s third President, he was also an accomplished early American architect and inventor. Today, the university educates many of the country’s architects.

Fast-track design coordination

The Tekla Structures for Construction Management solution was used to support structural steel and precast design and construction as well as coordinate between structural systems and the mechanical system. Tekla Structures for Construction Management was also used for clash analysis and tracking between the mechanical and structural systems.
 
Barton Malow Project Engineer Brian Larsoncomments on design coordination and clash detection with Tekla Structures: “When the first mechanical models were received, the mechanical contractor did not have the capacity to model in 3D,”says Larson. “Instead they created shop drawings in an older 2D drafting program and used a third-party program to convert them to 3D. This has allowed us to directly observe the inadequacies of a traditional 2D coordination process. On just one floor, in just one wing, we observed nine areas of clashes between mechanical ducts and structural steel. If these clashes had not been found using BIM, the incorrect pieces of duct would have been shipped to site, causing schedule delays and rework.”

”During the precast modeling process, design issues between steel and precast were recognized. It is unlikely that these issues would have been found without the use of BIM. As we caught these issues early, we were able to get them resolved before submittal review. This led to more accurate shop drawings and a quicker precast review period.”

Analysis for constructability

“For structural steel, we used reports to generate a list of all steel assemblies and their profiles,” explains Larson. “The ability to report on steel materials and the drawings on which they are located gives us information that we could not have gotten from paper shop drawings. We then used these reports to log the design team’s review status for each assembly. This information was fed back into the model to view the locations of pieces that had not been approved. The visual part saved a good amount of time in prioritizing which unapproved pieces were critical and which were not.”

“This is just a start,” Larson notes. Analyzing the Tekla structural model for constructability includes, for example, 4D simulation of cast-in-place concrete and structural steel installation. The model can be colorized on the basis of project data, phasing and scheduling. “We have also put change order data in the model to better help sequencing and scheduling,” says Larson.

Collaboration based on a visualized structure

There are more than 500 shop drawings for steel, precast and roof trusses in the U.Va. South Lawn project. Leafing through numerous paper plans, elevations, and sections makes it very time-consuming to figure out coordination issues. According to Brian Larson, having all the information in the Tekla model to review at once or output to an Excel file saved considerable time and reduced frustration during the project. “Early in the precast modeling, we had a coordination meeting with precast provider Shockey Precast,” Larson says. “Instead of pulling out all the steel and precast drawings to review issues, we reviewed the composite steel and precast model. The number of issues resolved in that short meeting would have taken days if we only had paper drawings!”

“When the design team stated that they could not locate certain pieces in the shop drawings, we used the model to find the pieces and colored them red,” Larson explains. “When it was noticed that the steel contractor had not shown certain precast support angles in their drawings, we used the Tekla Structures model to color all assemblies missing these angles.”

“For RFIs, instead of trying to create our own sketches of the problem, we attributed any affected pieces in the Tekla model. We then created a Tekla Web Viewer model of the area to attach to the RFI and to easily review it on the Internet browser with non-BIM team members. This saved considerable time in communicating these issues to the design team,”concludes Larson. 

For the South Lawn project, the use of BIM brought about further innovation and value past the traditional 2D-based information exchange. Project team members dramatically benefited from the  accessibility and visual nature of data presented, stored and reported from the Tekla Structures for Construction Management system.
 

Benefits of using Tekla Structures

  • Ability to integrate and analyze building and construction information, from BIM and non-BIM sources 
  • User-friendly and easily customizable environment
  • Saving time and rework by being able to prevent clashes 
  • A single Tekla model containing all the information that helps coordination between parties, saving considerable time and frustration during the project 
  • Use of BIM brought further innovation and value past the traditional 2D-based information exchange. Project team members dramatically benefited from the  accessibility and visual nature of data presented, stored and reported from the Tekla Structures for Construction Management system

Barton Malow - Kirby

We've been very happy with Tekla's initiative and cooperation in these pioneering BIM projects that have considerably improved our project management processes. We have firm plans to utilize the Tekla Structures Software in future projects that require optimized construction data management.
Phil Kirby
Vice President
Barton Malow
The University of Virginia Was Founded by Thomas Jefferson
University of Virginia South Lawn
University of Virginia South Lawn
University of Virginia South Lawn
University of Virginia South Lawn