Akoustolithis a porous ceramic material resembling stone. Akoustolith was a patented product of a collaboration between Rafael Guastavino Jr. (the son ofRafael Guastavino) and Harvard professorWallace Sabineover a period of years starting in 1911. It was used to limit acoustic reflection and noise in large vaulted ceilings.[1]Akoustolith was bonded as an additional layer to the structural tile of theTile Arch Systemceilings built by the Rafael Guastavino Company of New Jersey. The most prevalent use was to aid speech intelligibility in cathedrals and churches prior to the widespread use ofpublic address systems.
History
editAkoustolith was first introduced by theGuastavino Fireproof Construction Company,in collaboration with Wallace Sabine ofHarvard University,in 1915.[2]The founder of the Guastavino Company,Rafael Guastavino Sr.,had immigrated to the United States from Spain in 1881, bringing with him the method oftimbrel-vaultconstruction, also known as cohesive construction.[3]The Raphael Guastavino Company's vaulting technique created monolithic assemblies by layering thin bricks and structural tiles with fast-drying mortar.[3]TheGuastavino Technique,as it came to be known, consisted of multiple layers of plaster and tile in the construction of masonry vaulting; the first course of tile was set in its position with quick setting mortar creating form-work for the subsequent layers.[4]Tiles were placed in concentric circles in the construction of domes, while in ribbed vaults, ribs served as the general form-work.[4]Upon Guastavino Sr.'s death in 1908, his son, Rafael Guastavino Jr. took over the Guastavino Fireproof Construction Company; he was largely responsible for the company's development of acoustical finishes, including the incorporation and development of Rumford and Akoustolith tiles.[5]
Raphael Guastavino Jr. and Wallace Sabine patented Akoustolith in 1916, to be used as a facing for Guastavino's timbrel vaults.[5]The two had previously collaborated in the development of the Rumford tile, a ceramic acoustical finish used in the construction of theSt. Thomas Churchin New York City.[6]While initially a success, the cost to manufacture Rumford tile led the company to focus on the development of the cheaper and more durable Akoustolith.[7]As a non-ceramic tile, the sound absorption properties produced by Akoustolith's rough and porous surface, was an improvement on the Rumford tile.[4]With the exception of the replacement of the first layer of tiles with the sound-absorbing Akoustolith, the Guastavino method of construction was unaltered. The effectiveness of Akoustolith in the reduction of reverberation led to its use in the construction of ecclesiastical spaces.
Following Sabine's death in 1919, Guastavino continued to patent acoustical building products. The Guastavino Fireproof Construction Company remained in business until 1962, its decline is attributed to the increased cost of hand labor in conjunction with the rise of concrete-shell construction.[5]As timbrel-vault construction waned, the installation and production of acoustical materials helped sustain the company. By the late 1920s and early 1930s a considerable portion of the firm's business was related to these products. However, as other corporation began to mass-produce less-expensive acoustical building materials, Guastavino products ceased to be competitive.[5]
Composition and properties
editAkoustolith developed as an improvement on the earlier Rumford tile. Rumford tiles had previously been made with rich organic soil that burned off during the firing process and created pores, this procedure was ultimately irregular and difficult to control.[8]Consequently, Akoustolith was produced by binding well-sorted pumice particles with Portland cement to create an artificial stone, a process which offered consistency and allowed for a variety of shapes and color.[9]Although sand andPortland Cementwere typically used in the production of Akoustolith, the tile patent states that crushed rock or brick could be used as the aggregate, while lime orPlaster of Pariscould be used as the binding material.[10]
Akoustolith's efficiency in absorbing different pitches was largely dependent upon the dimensions of its particles; its most imperative feature was its use of aggregate graded to a uniform size. Finer grades of aggregate were sieved out, leaving spaces between the particles, creating an intercommunicating pore structure that absorbed sound.[5]According to Guastavino's and Sabine's 1916 patent Akoustolith absorbed "much in excess of 15% of sounds in the pitch between the middle C and the third octave above the middle C, which are the characteristic sounds which distinguish articulate speech."[10]
Designed with a graded porosity to increase their range of absorption, the stone-like finish of Akoustolith tiles consisted of a mix of coarser aggregate to facilitate the absorption of low pitches. Similarly, the bedding face consisted of a mix of finer aggregate to absorb higher pitches.[5]Eventually, different grades of the material were sold; these varied in size and sound-absorption coefficients.
Building with Akoustolith
editAlthough the production of Akoustolith tile was short-lived, its effectiveness in reducing reverberation in ecclesiastical spaces led to its installation in a variety of building types, including commercial, industrial, and institutional structures.[4]The acoustical and fireproof nature of Akoustolith was advertised, and to a lesser degree, its ability to resist the condensation of moisture.[5]In addition, Akoustolith's aesthetic qualities were touted: the tiles were available in several shades of gray and buff intended to blend with the warm colors of adjacent stone.[5]
Resembling a stone-like masonry material, Akoustolith tile was incorporated into several of the Guastavino Company's major building projects, including the 1929 construction of theBuffalo Central Terminal.[7]Completed in the late 1920s,Fellheimer & Wagner's Buffalo Central Terminal was the largest installation of Akoustolith completed by the Guastavino Company.[9]
Example projects
editFellheimer & Wagner's design of theBuffalo Central Terminal,in New York, was the largest installation of Akoustolith completed by the Guastavino Company.
New York architectBertram Goodhuespecified the use of the Guastavino tile in his 1920 design for theNebraska Capitol.Consequently, the Nebraska Capitol features tiled vaults and domes, and meeting rooms constructed with Akoustolith tiles.[3]
Ralph Adams Cram's 1921 design for thePrinceton University Chapelemploys the Guastavino Company's Akoustolith tile vaulting.[11]
References
edit- ^William J. Cavanaugh, Gregory C. Tocci, Joseph A. Wilkes,Architectural Acoustics: Principles and Practice,Hoboken: John Wiley and Sons, Inc., 2010. 71.
- ^Ochsendorf, John Allen (2010).Guastavino Vaulting: The Art of Structural Tile.Princeton Architectural Press. p. 132.ISBN9781568987415.
- ^abcErdogmus, Ece (2008). "Timbrel Domes of Guastavino: Nondestructive Assessments on a Half-Scale Model".International Journal of Architectural Heritage.2(4): 330–352.doi:10.1080/15583050701661652.S2CID110330792– via Taylor & Francis Online.
- ^abcdPrudon, Theodore H.M. (September 1989). "Guastevino Tile Construction".Progressive Architecture.70(9): 137 – via Academic OneFile.
- ^abcdefghBuchner, Laura (2010). "Restoration of Akoustolith Tile at Saint John the Divine, New York City".APT Bulletin.41(2/3): 27–34.JSTOR20749120.
- ^"Reverb: The Evolution of Architectural Acoustics".99% Invisible.2016-11-14.Archivedfrom the original on 2020-06-27.Retrieved2020-06-27.
- ^abOchsendorf, John Allen (2010).Guastavino Vaulting: The Art of Structural Tile.The Princeton Architectural Press. p. 133.ISBN9781568987415.
- ^Ochsendorf, John Allen (2010).Guastavino Vaulting: The Art of Structural Tile.The Princeton Architectural Press. p. 244.ISBN9781568987415.
- ^abOchsendorf, John Allen (2010).Guastavino Vaulting: The Art of Structural Tile.The Princeton Architectural Press. p. 142.ISBN9781568987415.
- ^abU.S. Patent no. 1,197,956, "Sound Absorbing Materials for Walls and Ceilings," issued September 12, 1916, p.2, lines 26-30
- ^Ochsendorf, John Allen (2010).Guastavino Vaulting: The Art of Structural Tile.The Princeton Architectural Press. p. 180.ISBN9781568987415.
External links
edit- A Tale of Two Physicists:mentions the collaboration between Sabine and Guastavino.
Further reading
edit- G.F.S. "A Simple Method of Finding the Sound Absorbing Power of a Building Material." Journal of the Franklin Institute 206, no. 1 (1928): 130-31.
- Liu, Yishi. "Building Guastavino Dome in China: A Historical Survey of the Dome of the Auditorium at Tsinghua University." Frontiers of Architectural Research 3, no. 2 (2014): 121-40.
- Smilor, Raymond. "Confronting the Industrial Environment: The Noise Problem in America, 1893-1932., 1978, ProQuest Dissertations and Theses.
- Thompson, Emily. "Dead Rooms and Live Wires: Harvard, Hollywood, and the Deconstruction of Architectural Acoustics, 1900-1930." Isis 88, no. 4 (1997): 597-626.