Glass rules our cities, for better and worse

(Roger K. Lewis For The Washington Post)
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By Roger K. Lewis
Saturday, November 14, 2009

Architects love glass, sometimes with a passion. Its unique qualities -- transparency, reflectivity, the ability both to divide and unify space -- are alluring. Of course, both passion and glass benefit from tempering.

Many recently built high-rise office and apartment buildings in New York, Chicago and other cities sport taut, glazed skins. Sometimes the pattern of vertical and horizontal lines, the ultra-thin joints between rectangular glass panels, is the only articulation of facades soaring skyward.

Architects' continuing love affair with glass is evident even in downtown D.C., where skyscraping is outlawed. A number of recently constructed projects -- for example new office buildings at 1999 K Street NW, and 801 17th Street N.W. -- are sheathed entirely with glass.

Large buildings with systematically composed, all-glass curtain walls can look quite elegant, like giant, scaleless cubic sculptures. A taut glass skin with crisp, minimalist detailing can reveal not only a building's structure and purity of form, but also its illuminated interior. It's akin to enveloping a building's skeleton with plastic wrap.

State-of-the-art glass and curtain wall technology makes this feasible.

Sealed panels of double and sometimes triple layers of glass, separated by argon-filled cavities, insulate very well thermally while reflecting or absorbing unwanted radiation. Patterns on glass surfaces can be etched or applied using baked-on, ultra-thin layers of ceramic -- known as "frit" -- to filter daylight and reduce solar heat gain while creating decorative imagery. A glass facade can even be "green" by allowing daylight to pour into the interior, reducing daytime electric lighting needs.

Today, enormous sheets of glass can be manufactured. Laminated with reinforcing films, glass can be used structurally as beams and floor panels. Mullions, the framing that supports glass curtain walls, can themselves be made of glass.

Meanwhile aluminum and stainless steel mullions have become less visible. Modern glass skins can be supported with hardware and structural supports attached only to the interior of glass panels, which can directly abut other panels separated by only a thin strip of sealant.

Glass is stable and impermeable. By contrast, concrete and masonry are porous materials that crack, absorb moisture and dirt, and eventually deteriorate after many freeze-thaw cycles. Metal can warp, deform, rust and react chemically with other substances. Painted materials need regular repainting. Durable glass can last indefinitely and requires little more than periodic cleaning.

Glass has been around for centuries. In medieval churches, stained-glass windows were ornamental and spiritual as well as utilitarian, providing ethereal illumination along with biblical narrative. Window glass in some of Europe's palaces, civic buildings and housing dates back to the middle ages.

With the 19th century Industrial Revolution, glass-making technology and its architectural potential advanced rapidly. That potential was demonstrated most dramatically when Joseph Paxton, a British engineer, designed an enormous exhibition pavilion in a London park for the 1851 World Exposition. Dubbed the Crystal Palace, the pavilion consisted of a cast iron skeleton covered totally with glass. A public sensation and technical tour-de-force, it made indoors feel like outdoors and expressed the alluring magic of transparency.

Architects were increasingly fascinated by the notion of transparent, all-glass buildings. In 1919 and 1920, as Chicago architects were constructing America's first high-rise, curtain wall buildings, Germany's Ludwig Mies van der Rohe envisioned and crafted models of hypothetical 20- and 30-story skyscrapers clad totally in glass. Amazingly prescient, his unrealized designs look like buildings currently being constructed.

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