00800116

Component

https://doi.org/10.3141/1714-01

http://scholar.google.com...Liew&publication_year=2000

A scheme to stabilize minor slope instabilities is currently being developed. The scheme uses a distributed network of "pins" fabricated from recycled plastics and other waste materials to provide positive reinforcement of a soil mass. Although the application is similar to stabilization of slopes with soil nails or micropiles, significant modifications to conventional design and construction are necessary to account for the reduced strength and increased ductility and creep exhibited by plastic materials compared with concrete and steel. Using recycled plastics has the advantage of providing reinforcing members with low susceptibility to degradation and provides a market for materials that otherwise might be buried in a landfill. An extensive investigation is under way to evaluate the potential for using recycled plastic pins (RPPs) to stabilize minor slope failures. This evaluation includes quantification of appropriate material and engineering properties of RPPs, evaluation of RPP resistance to degradation in various environments, development and evaluation of suitable mechanisms for installing RPPs, evaluation of RPP resistance to driving stresses, development of a design procedure that accounts for the reduced structural capacity of RPPs compared with steel or concrete members, and installation and monitoring of several full-scale field demonstration sites. The ongoing evaluation program that is described focuses on laboratory tests to determine fundamental engineering and material properties, field driving trials to evaluate potential driving mechanisms, and preliminary development of a suitable procedure for designing RPP stabilization schemes.

This paper appears in Transportation Research Record No. 1714, Recycled and Secondary Materials, Soil Remediation, and In Situ Testing.

English

p. 1-8

2000

Transportation Research Record

030906693X

Figures (8) ; Photos (1) ; References (8) ; Tables (1)

Creep; Demonstration projects; Design; Ductility; Installation; Laboratory tests; Monitoring; Pins; Plastics; Properties of materials; Recycled materials; Slope stability; Soil stabilization; Strength of materials

Recycled plastic pins

Design; Geotechnology; Highways; Maintenance and Preservation; Materials; I42: Soil Mechanics

TRIS, TRB, ATRI

Oct 5 2000 12:00AM

• BEHAVIOR OF A SANDY SILT REINFORCED WITH DISCONTINUOUS RECYCLED FIBER INCLUSIONS
• CHARACTERIZING GRANULAR MATERIAL COARSENESS AND MICROMECHANICAL PROPERTIES WITH A SMALL-DIAMETER PENETROMETER
• CRITICAL REVIEW OF COUPLED FLOW THEORIES FOR CLAY BARRIERS
• ENGINEERING PROPERTIES OF LOESS-FLY ASH MIXTURES FOR ROADBASE CONSTRUCTION
• EVALUATION OF EXCESS FOUNDRY SYSTEM SANDS FOR USE AS SUBBASE MATERIAL
• FIELD AND LABORATORY EVALUATION OF CEMENT KILN DUST AS A SOIL STABILIZER
• FRICTION CORRECTION EQUATION FOR THE DYNAMIC CONE PENETROMETER IN SUBSOIL STRENGTH TESTING
• IN SITU INVESTIGATION OF LIQUEFIABLE GRAVELS
• INFLUENCE OF SOIL SUCTION AND ENVIRONMENTAL FACTORS ON DRYING CHARACTERISTICS OF GRANULAR SUBGRADE SOILS
• REMEDIATION AND TRANSFORMATION OF KAOLIN BY PLASMA MAGMAVICATION
• UTILIZATION OF CONSTRUCTION AND DEMOLITION DEBRIS UNDER TRAFFIC-TYPE LOADING IN BASE AND SUBBASE APPLICATIONS
• WATER-QUALITY EFFECTS OF TIRE SHREDS PLACED ABOVE THE WATER TABLE: FIVE-YEAR FIELD STUDY