00713591

Component

http://onlinepubs.trb.org...trr/1995/1486/1486-011.pdf

https://scholar.google.co...hang&publication_year=1995

A comprehensive study on the application of Class F fly ash for stabilizing subgrade soils in Taiwan is presented. Lime (or cement) was used with fly ash to enhance its self-cementing behavior in the study. Laboratory testing included using the plasticity index method to determine the optimum percentages of additive and fly ash. Through a resilient modulus (M sub r) test program, these percentages were confirmed. A section of test road with treated subgrade constructed on the West Coast Highway has been open to traffic for 40 months to date. A field investigation of this section was part of this study. Results from field California bearing ratio tests indicate that treatment of the subgrade soil had improved its properties by a factor of 10 to 15. Specimens obtained from the field were also evaluated through an M sub r test program, and the results were compatible with those for laboratory-made samples. Finally, a microstructure study is presented showing significant cementitious materials in laboratory and field specimens. Confidence about the future application of Class F fly ash for stabilizing subgrade soils in Taiwan and for handling this problematic waste material is provided.

This paper appears in Transportation Research Record No. 1486, Environmental Testing and Evaluation of Stabilized Wastes, Performance of Stabilized Materials, and New Aggregate Tests. Distribution, posting, or copying of this PDF is strictly prohibited without written permission of the Transportation Research Board of the National Academy of Sciences. Unless otherwise indicated, all materials in this PDF are copyrighted by the National Academy of Sciences. Copyright © National Academy of Sciences. All rights reserved

01399784

English

p. 88-96

1995

Transportation Research Record

Figures (6) ; References (10) ; Tables (7)

Calcium oxide; California bearing ratio; Field studies; Fly ash; Laboratory tests; Microstructure; Modulus of resilience; Plasticity index; Soil stabilization; Subgrade (Pavements); Test sections

Stabilization

Taiwan

Taiwan

Geotechnology; Highways; I42: Soil Mechanics

TRIS, TRB

Nov 22 1995 12:00AM

• ASSESSMENT OF SUITABILITY OF SOME INDUSTRIAL BY-PRODUCTS FOR USE IN PAVEMENT BASES IN THE UNITED KINGDOM
• CALIBRATING WASHINGTON HYDRAULIC FRACTURE APPARATUS
• ENVIRONMENTAL CHARACTERISTICS OF BY-PRODUCT GYPSUM
• EVALUATION OF CALCAREOUS BASE COURSE MATERIALS STABILIZED WITH LOW PERCENTAGE OF LIME IN SOUTH TEXAS
• EVALUATION OF SPECIALIZED TESTS FOR AGGREGATES USED IN HOT MIX ASPHALT PAVEMENTS IN COLORADO
• EVALUATION OF TEXTURAL RETENTION OF PAVEMENT SURFACE AGGREGATES
• EXPERIMENTAL STUDY OF LEACHING OF FLY ASH
• FLY ASH IN COLD RECYCLED BITUMINOUS PAVEMENTS
• FLY ASH-CEMENT MIXTURES FOR SOLIDIFICATION AND DETOXIFICATION OF OIL AND GAS WELL SLUDGES
• INFLUENCE OF VOID CHANGE, CRACKING, AND BITUMEN AGING ON DIFFUSIONAL LEACHING BEHAVIOR OF PAVEMENT MONOLITHS CONSTRUCTED WITH MSW COMBUSTION BOTTOM ASH
• INVESTIGATION OF PERFORMANCE OF HEAVILY STABILIZED BASES IN HOUSTON, TEXAS, DISTRICT
• LEACHATE CHARACTERISTICS OF FLY ASH STABILIZED WITH LIME SLUDGE
• LEACHATE GENERATION FROM RAW AND CEMENT STABILIZED PHOSPHOGYPSUM
• RECENT IMPROVEMENTS IN QUALITY OF STEEL SLAG AGGREGATE
• SULFATE EXPANSION OF CEMENT-TREATED BASES
• USES OF WASTE FOUNDRY SANDS IN CIVIL ENGINEERING
• WASTE FIBERS IN CEMENT-STABILIZED RECYCLED AGGREGATE BASE COURSE MATERIAL