State of the Practice Review in FRP Composite Piling
Publication: Journal of Composites for Construction
Volume 2, Issue 3
Abstract
There are considerable problems associated with the use of traditional piling materials in corrosive soils and marine environments. The durability of concrete, corrosion of steel, and vulnerability of timber piles to marine borers are serious hindrances to construction in these environments. In the case of timber marine piling, the toxic chemicals used in their treatment, such as creosote, pose a threat to marine life. Creosote-treated timber is also a growing environmental disposal problem. Composite materials such as fiber-reinforced polymers (FRP) can offer performance advantages when compared to steel, concrete, or timber. Composites can be designed to perform according to the required specifications for piling in adverse environments. However, composites face obstacles because they do not have a long track record of use in civil engineering structures. A comprehensive review of the American experience in research, testing, design, and practice of composite piles is presented in this paper. The technical and economical viability of composite piles is discussed. Emphasis is given to material properties, durability, drivability, and soil-pile interaction.
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References
1.
Busel, J. (1995). “FRP composites in construction applications, a profile in progress.”Rep., SPI Composites Inst., New York, N.Y.
2.
Chien, J., and Boss, W.(1967). “Polymer reactions. V: Kinetics of auto-oxidation of polypropylene.”J. Polymer Sci., Pt. A-1, 5, 3091–3101.
3.
Engineering Manual No. 50. (1997). Plastic Piling Inc., Rialto, Calif.
4.
Grobler, J. (1996a). “Saving the piers from a parasite with plastic.”The New York Times, Aug. 18.
5.
Grobler, J. (1996b). “Plastic pier is worm-free but it melts.”The New York Times, Sept. 8.
6.
Han, J. (1997). “An experimental and analytical study of the behavior of fiber-reinforced polymer piles and pile-sand interactions,” PhD thesis, Georgia Inst. of Technol., Atlanta, Ga.
7.
“Hardcore Fiberglass Tubular Piling Design Guide.” (1997) Hardcore, New Castle, Del.
8.
Heinz, R.(1993). “Plastic piling.”Civ. Engrg. Mag., ASCE, 63(4), 63–65.
9.
“High strength fiberglass composites.” (1997). Capabilities brochure, Creative Pultrusions, Inc., Alum Bank, Pa.
10.
Horeczko, G. (1995). “Marine application of recycled plastics,”Proc., XIII Struc. Congr., Restructuring America and Beyond, Sanayei, M. ed., Vol. 1, ASCE, Reston, Va., 834–837.
11.
Lampo, R. (1995). “Recycled plastics as an engineered material.”Proc. XIII Struct. Congr., Restructuring America and Beyond, Sanayei, M., ed., Vol. 1, ASCE, Reston, Va., 815–818.
12.
Lampo, R. (1996). “Federal interest gives recycled plastic lumber a leg up.”ASTM Standardization News, Sept., 26–31.
13.
Lindsay, K. (1996). “Composite piling market heats up.”Composite Design and Application (CDA), Summer Issue, SPA Composites Inst., New York, N.Y., 12–13.
14.
March, F.(1996). “Navy-ship plastic waste recycled into marine piling.”Sea Technol., 37(2), 35–38.
15.
McLaren, M. (1995). “Recycled plastics lumber and shapes design specifications.”Proc., XIII Struct. Congr., Restructuring America and Beyond, Sanayei, M., ed., Vol. 1, ASCE, Reston, Va., 819–833.
16.
Modern Plastics. (1997). Editorial, 1(1).
17.
Phair, M. (1996). “Composite piles gaining ground.”Engrg. News Rec., Jan., 17.
18.
“Plastic pier survives fire.” (1996). Engrg. News Rec., Sept. 23, 9.
19.
Plastic Piling, (1995). Plastic Piling News Letter, Plastic Piling Inc., Rialto, Calif., 1(3).
20.
Reich, M.(1996). “Advanced polymer composite makers look toward infrastructure markets.”Chemical and Engrg. News, 74(13), 12–14.
21.
Salman, A., Elias, V., Juran, I., Lu, S., and Pearce, E. (1997a) “Durability of geosynthetics for highway applications.”Rep. DTFH 61-91-R-00054, Fed. Hwy. Admin., Washington, D.C.
22.
Salman, A., Elias, V., Juran, I., Lu, S., and Pearce, E. (1997b). “Durability of geosynthetics based on accelerated laboratory testing.”Geosynthetics '97, 217–234.
23.
“Seapile composite marine piling technical manual.” (1994). Seaward Int., Inc., Clearbrook, Va.
24.
Stapleman, J. (1997). “Pile on the abuse.”Composites Technol., Sept., 56–58.
25.
Taylor, R. (1995). “New developments in marine fendering.”Dredging and Port Constr., March, 20–23.
26.
Wright, G. (1995). “South Bronx jewel on Tiffany Street.”Engrg. News Rec., Sept. 4, 32.
Information & Authors
Information
Published In
Journal of Composites for Construction
Volume 2 • Issue 3 • August 1998
Pages: 116 - 120
Copyright
Copyright © 1998 American Society of Civil Engineers.
History
Published online: Aug 1, 1998
Published in print: Aug 1998
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