Impact of Technology From Victorian Gothic to Skyscrapers
Victorian Gothic and Romanesque [ ] Impact of Ruskin's writings in the 1850s create Gothic and Romanesque forms with increased surface variation. Especially important is the use of polychromatic techniques to detail the structures. Memorial Hall, Harvard, MA, (Ware & Van Brunt)
Furness & Hewitt, Pennsylvania Academy of the Fine Arts, Philadelphia, PA, Provident Life and Trust Company, Philadelphia, PA, (W:1879) (Frank Furness)
Gallaudet College, College Hall, Seventh & Florida Avenue Northeast, Washington, District of Columbia, DC, 1870 Frederic C. Withers
Rochester Free Academy, 13 Fitzhugh Street, Rochester, Monroe, NY, A J Warner, 1872 Petersburg, Va, 1890s
Richardsonian Romanesque, Henry Hobson Richardson ( ) Rough-faced stonework Towers Round arches Windows—deeply set in walls and arranged in groups Poly-chrome surfaces
John J. Glessner House Chicago, Illinois,
Crane Public Library Quincy, Mass.,
North Easton RR Station, North Easton, Mass.,
Austin Hall, Harvard Univ. Cambridge, Mass.,
Marshall Fields Warehouse Chicago, Illinois, Henry Hobson Richardson dies on April 27, 1886 at age 47 of Bright's disease.
Chicago Historical Society Chicago, Illinois, 1892
Tall Buildings Pre-Civil War context –Mostly buildings of 2-5 stories –Balloon framing dominant for domestic architecture –Monumental buildings of brick or stone –Lack of large private businesses Post-Civil War context Increasing use of wrought iron facades Impetus for taller buildings Symbolic of “rising” power of corporate businesses Symbolic of massive business and wealth Symbolic of integration between business and art/culture Symbolic of community aspirations and municipal pride
Changing Technology Need for space Telephones, telegraphs, electricity New technological developments –Industrial strength plate glass—John Ford, 1865 –Safety elevators- Elisha Otis –Structural system doesn’t require thick exterior walls. Pier and Spandrel –Fire proofing
Pier and Spandrel Construction
Terra cotta—new uses for an ancient material Terra cotta is made of clay, water, and previously fired products (grog). The mixture is forced into a mold, or extruded, dried and fired. The product can be used without covering, or glazed for a weather-proof surface. Because of the transportation costs, terra cotta firms were established near the location of suitable clay beds. A number of firms began in northern Illinois just prior to the fire of Northwestern Terra Cotta Co. Founded in Chicago in 1878, this company became a major producer of terra cotta trimmings used by the construction industry.
The Chicago School, Architects –William Le Baron Jenney (architect & engineer) –Daniel Burnham (architect) and John W. Root (engineer) –Louis Sullivan (architect) and Dankmar Adler (engineer) –William Holabird (engineer) and Martin Roche (architect) Design Principles “Form follows function” Structural rationalism (Base, shaft, and capital) Individual levels are large open spaces for different uses. Decorative elements are complex but not proportional. Construction innovation: Terra cotta panels, “Chicago window”, Projecting eaves
Home Insurance Building Chicago, Wm. Le Baron Jenney
Monadnock Building, Chicago , Burnham & Root Marquette Building, Chicago , Holabird and Roche
Reliance Building, Chicago , Burnham and Root
Reliance Building, terra cotta covers of piers and spandrels
Curtain walls
Chicago Auditorium, Adler and Sullivan
Louis Sullivan’s “Theory of Ornament”
Wainwright ornament
Wainwright Building, St. Louis, Missouri, Adler and Sullivan Light well with skylight
Carson, Pirie, Scott & Company Store, Chicago, Chicago window
Guaranty Building, Buffalo, NY 1895
Bayard Building, NYC,
National Farmer’s Bank Owatonna, Minnesota,