flexiblefullpage
billboard
interstitial1
catfish1
Currently Reading

Concrete Solutions

Concrete Solutions

It took a determined construction team to meet the exacting demands of designers Tod Williams and Billie Tsien for a special library at UC Berkeley.


By By Robert Cassidy, Editor-in-Chief | August 11, 2010
This article first appeared in the 201001 issue of BD+C.
starr_library1About five or six years ago, officials at the University of California at Berkeley came to the conclusion that they needed to build a proper home for the university's collection of 900,000 rare Chinese, Japanese, and Korean books and materials. East Asian studies is an important curriculum at Berkeley, with more than 70 scholars teaching some 200 courses devoted to the topic, and Berkeley's program has been ranked first in the nation by the U.S. Department of Education.


So it was that, in 2005, the university commissioned the New York firm of Tod Williams Billie Tsien Architects (TWBTA) to design the C.V. Starr East Asian Library, with San Francisco's Tom Eliot Fisch as associate architect and McCarthy Building Companies as general contractor.

Williams and Tsien invested the project with the dynamism and flair that have made them stars in the architectural firmament. For the exterior, they specified thousand-pound bronze grilles made in Shanghai using a millennium-old sand-casting process. Blue bathroom tiles were hand-crafted by an artist in Sausalito. Some of the furniture was made from the highest-quality Canadian cherry. The bronze and stainless-steel donor plaques alone cost $200,000.

To stay within budget, though, the designers specified concrete for the exterior walls and special interior effects. As we shall see, this would be no routine concrete job. At every turn, Williams and Tsien kept upping the ante for McCarthy, subcontractor McClone Construction, and the rest of the Building Team. Let's look first at the exterior.

On the outside: Perfect walls, perfect angles

Building a 30-foot concrete wall is usually a pretty straightforward task, says Paul Erb, McCarthy's project manager on the Berkeley job: set the forms, insert the rebar, pour the concrete, and wait for it to set; repeat every few feet.

starr_library3When you strip the forms, however, you get horizontal construction joints every couple of feet or so. Ordinarily, that's no big deal, either because the designer can cover the joints with reveals, or because they're not that crucial to the design.


But Williams and Tsien were not going to put up with construction joints. They had a vision of a seamless polished wall, 30 feet high and 200 feet long on the north and south sides, 75 feet long east and west, with absolutely no visual defects. This requirement upped the ante considerably.

The trick, as Erb's team learned through trial and error after several months of experimentation, was to keep pouring concrete up the wall in such a way that the lower layers would set, but not enough to create a joint with the next layer of pour. In other words, there had to be some fluidity at the intersection for the new pour to blend with the old, while at the same time having enough set in the concrete below to bear the weight of the new pour. Otherwise, the forms would blow out, an unthinkable prospect when you're talking 30-foot-high forms. “The amount of pressure that concrete puts on formwork is tremendous,” says Erb. “It would have been a violent explosion.”

How they did it: “We timed each one of the trucks to make sure that when they placed the concrete, it had enough slump to mix with the previously poured concrete,” says Erb. A laborer would vibrate the concrete—a delicate task in this case, because if you drop the vibrator too low into the setting concrete, the vibrator can turn that mass liquid, opening up the possibility of a blowout.

Meanwhile, McCarthy's quality-control experts were kept busy monitoring the setup time practically to the second, physically checking the set of the concrete using probes, and timing deliveries of concrete against the outdoor temperature. To maintain the right color, glue content, and aggregate mix (the architects hand-picked the Bay Area's bluish-gray Clayton aggregate) from delivery to delivery, the mix from two trucks was blended and the concrete was poured using a pump truck.

The last step for the walls: “a heavy, heavy sandblast,” says Erb. “We took off an eighth of an inch on the outside, to expose all the aggregate.”


But Williams and Tsien were not done. Ordinarily, concrete walls are chamfered at the base, which makes it easier to take the forms off, but the TWBTA gang insisted on sharp, 90° angles. Why? “They just don't like chamfers,” says Erb.

How they did it: “When we poured the concrete, we had to make full consolidation at the corners,” says Erb. This
 
starr_library2
 Tod Williams and Billie Tsien's nettlesome "floating staircase." The slim, two-story wall is held in place by compression from the  concrete staris.
proved difficult, especially since the building is only a mile and a half from a fault line, there was a lot of rebar to wrestle with, and the team had to avoid “rock pockets,” which can form if the concrete and aggregate are not mixed well. “We did a few destructive mockups, and those corners were extremely delicate,” especially with the extensive sandblasting that the design called for.


But the corners came out absolutely rectilinear, and the Building Team was able to breathe a sigh of relief—that is, until Williams and Tsien came up with their last request for the exterior: concrete emergency exit doors.

Yes, concrete doors, two of them, eight feet by three feet. Usually concrete doors are made from precast slabs mounted to a metal door, but Williams and Tsien wanted custom concrete doors that would vanish into the walls.

How they did it: The McCarthy team poured concrete horizontally into stainless-steel frames only 2½ inches thick and fitted the doors with custom hardware to meet emergency egress requirements. If you look at the library from the outside, it's almost impossible to tell where the doors are, says Erb.

On the inside: More hoops to jump through

As if the exterior concrete work was not dicey enough, Williams and Tsien threw two more curve balls at the Building Team for the interior work.

The first of these was the floor. Once again, the designers wanted a special effect, using the aggregate in the concrete to create a finish that resembled polished terrazzo. The solution was to pour a concrete/aggregate mix and shave an eighth-inch off the top of the floor (as they had done on the exterior walls) and polish it to a matte finish to create a variegated surface. Sounds simple, but it wasn't.

To meet this demand, Erb's team knew that they had to pour the concrete/aggregate mix in such a way that the rocks would not settle to the bottom (the floor is 16 inches deep in places); otherwise the aggregate would not be close enough to the surface to be shaved and polished, and you'd be left with polished concrete. The variegation effect would be lost.

How they did it: “The more you vibrate the mix, the more the rocks move down, so we had to monitor the vibration very carefully, to make sure the operator was being really consistent from area to area,” says Erb. “Otherwise, you'd get a huge variance in how the floor would look.”

The extra eighth-inch of concrete was also a crucial determination. The team could have poured an extra inch or two, but that would have made it physically impossible to polish down far enough to hit the rocks. The single eighth-inch had to be just right. “The architects loved it,” says Erb, a civil engineer and 12-year construction veteran, five of them at McCarthy.

But Williams and Tsien had one more trick up their sleeves. They wanted a “floating staircase” to rise through two levels in the middle of the library. This, too, proved difficult to accomplish.

How they did it: First, the team poured 60,000 pounds of concrete to create a slim “floating wall” between the first two levels, holding it in place temporarily—and somewhat precariously—with scaffolding. “We were a little nervous when we did that,” says Erb. “It's a lot of weight.”

The next step involved pouring stairs up one side of the wall, then switching sides and pouring stairs down the other side of the wall. “The stairs hold the wall up by compression,” says Erb. “The wall is floating in space.”

Since its opening in 2008, the $39 million library has been viewed as one of UC Berkeley's “standout buildings,” says Erb. It was so successful, in fact, that the university awarded McCarthy the contract on a $200 million multiuse biotech lab, with Erb, since promoted to project director, running the job.

Related Stories

| Aug 11, 2010

7 Tips for Installing Moisture Barriers

If you took a poll of building envelope and construction forensic experts, it's likely that moisture barriers would be high on the list of most poorly understood products used in wall assemblies. Besides deciding which type of barrier to use under various climate conditions, Building Teams must confront the nasty matter of how to install them correctly.

| Aug 11, 2010

8 Things You Should Know About Designing a Roof

Roofing industry expert Joseph Schwetz maintains that there is an important difference between what building codes require and what the construction insurance industry—notably mutual insurance firm Factory Mutual—demands—and that this difference can lead to problems in designing a roof.

| Aug 11, 2010

America's Greenest Hospital

Hospitals are energy gluttons. With 24/7/365 operating schedules and stringent requirements for air quality in ORs and other clinical areas, an acute-care hospital will gobble up about twice the energy per square foot of, say, a commercial office building. It is an achievement worth noting, therefore, when a major hospital achieves LEED Platinum status, especially when that hospital attains 14 ...

| Aug 11, 2010

Piano's 'Flying Carpet'

Italian architect Renzo Piano refers to his $294 million, 264,000-sf Modern Wing of the Art Institute of Chicago as a “temple of light.” That's all well and good, but how did Piano and the engineers from London-based Arup create an almost entirely naturally lit interior while still protecting the priceless works of art in the Institute's third-floor galleries from dangerous ultravio...

| Aug 11, 2010

Bronze Award: John G. Shedd Aquarium, Chicago, Ill.

To complete the $55 million renovation of the historic John G. Shedd Aquarium in the allotted 17-month schedule, the Building Team had to move fast to renovate and update exhibit and back-of-house maintenance spaces, expand the visitor group holding area, upgrade the mechanical systems, and construct a single-story steel structure on top of the existing oceanarium to accommodate staff office sp...

| Aug 11, 2010

AIA Course: Building with concrete – Design and construction techniques

Concrete maintains a special reputation for strength, durability, flexibility, and sustainability. These associations and a host of other factors have made it one of the most widely used building materials globally in just one century. Take this free AIA/CES course from Building Design+Construction and earn 1.0 AIA learning unit.

| Aug 11, 2010

Great Solutions: Green Building

27. Next-Generation Green Roofs Sprout up in New York New York is not particularly known for its green roofs, but two recent projects may put the Big Apple on the map. In spring 2010, the Lincoln Center for the Performing Arts will debut one of the nation's first fully walkable green roofs. Located across from the Juilliard School in Lincoln Center's North Plaza, Illumination Lawn will consist ...

| Aug 11, 2010

Pioneer Courthouse: Shaking up the court

In the days when three-quarters of America was a wild, lawless no-man's land, Pioneer Courthouse in Portland, Ore., stood out as a symbol of justice and national unity. The oldest surviving federal structure in the Pacific Northwest and the second-oldest courthouse west of the Mississippi, Pioneer Courthouse was designed in 1875 by Alfred Mullett, the Supervising Architect of the Treasury.

| Aug 11, 2010

Gold Award: Eisenhower Theater, Washington, D.C.

The Eisenhower Theater in the John F. Kennedy Center for the Performing Arts in Washington, D.C., opened in 1971. By the turn of the century, after three-plus decades of heavy use, the 1,142-seat box-within-a-box playhouse on the Potomac was starting to show its age. Poor lighting and tired, worn finishes created a gloomy atmosphere.

| Aug 11, 2010

Great Solutions: Business Management

22. Commercial Properties Repositioned for University USE Tocci Building Companies is finding success in repositioning commercial properties for university use, and it expects the trend to continue. The firm's Capital Cove project in Providence, R.I., for instance, was originally designed by Elkus Manfredi (with design continued by HDS Architects) to be a mixed-use complex with private, market-...

boombox1
boombox2
native1

More In Category



Engineers

Navigating battery energy storage augmentation

By implementing an augmentation plan upfront, owners can minimize potential delays and unforeseen costs when augmentation needs to occur, according to Burns & McDonnell energy storage technology manager Joshua Crawford.


3D Printing

3D-printed construction milestones take shape in Tennessee and Texas

Two notable 3D-printed projects mark milestones in the new construction technique of “printing” structures with specialized concrete. In Athens, Tennessee, Walmart hired Alquist 3D to build a 20-foot-high store expansion, one of the largest freestanding 3D-printed commercial concrete structures in the U.S. In Marfa, Texas, the world’s first 3D-printed hotel is under construction at an existing hotel and campground site.

halfpage1

Most Popular Content

  1. 2021 Giants 400 Report
  2. Top 150 Architecture Firms for 2019
  3. 13 projects that represent the future of affordable housing
  4. Sagrada Familia completion date pushed back due to coronavirus
  5. Top 160 Architecture Firms 2021