00600674

Component

http://onlinepubs.trb.org...trr/1990/1259/1259-014.pdf

https://scholar.google.co...dhal&publication_year=1990

Rutting of heavy-duty pavements has been increasingly experienced in recent years primarily because of high tire pressures and increased wheel loads. Many asphalt technologists believe that the use of large size stone (maximum size of more than 1 in. ) in the binder and base courses will minimize or eliminate the rutting of heavy-duty pavements. The equipment specified in the Marshall procedure (ASTM D 1559) used by 76% of the states in the United States consists of a 4-in. diameter compaction mold intended for mixes containing aggregate up to 1 in. maximum size only. This has inhibited the use of large stone mixes. A standard method for preparing and testing 6-in. diameter specimens has been presented. The proposed method has the following significant differences from ASTM D 1559: (a) hammer weighs 22.5 lb, (b) specimen size is 6 in. in diameter and 3 3/4 in. in height, (c) specimen weighs about 4,050 g, and (d) the number of blows needed is 1 1/2 times the number of blows needed for a standard Marshall specimen to obtain equivalent compaction levels. Comparative test data (4-in. versus 6-in. diameter specimens) obtained from various highway agencies and producers indicate that the compaction levels are reasonably close. The average stability ratio (stability of 6-in. specimen/stability of 4-in. specimen) and flow ratio (flow of 6-in. specimen/flow of 4-in. specimen) were determined to be very close to the theoretically derived values of 2.25 and 1.50, respectively. A typical mix design by using 6-in. specimens along with limited field data is also given. It is believed that the proposed test method will be useful in determining the optimum asphalt content of large-stone asphalt mixes.

This paper appears in Transportation Research Record No. 1259, Chip Seals, Friction Courses, and Asphalt Pavement Rutting 1990.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

01410821

p. 153-162

1990

Transportation Research Record

0309050162

Photos (1) ; References (9) ; Tables (11)

Aggregates; Asphalt content; Asphalt mixtures; Diameter; Flow; Mix design; Ruts (Pavements); Specimens; Stability (Mechanics); Test procedures

Aggregate size; Flow rate; Rut

Geotechnology; Highways; Materials; Pavements; I23: Properties of Road Surfaces; I31: Bituminous Binders and Materials; I36: Aggregates

TRIS, TRB, ATRI

Oct 31 1990 12:00AM

• CHARACTERIZATION OF RUTTING POTENTIAL OF LARGE-STONE ASPHALT MIXES IN KENTUCKY
• CHIP SEALS FOR HIGH TRAFFIC PAVEMENTS
• CORRELATION BETWEEN FIELD AND LABORATORY PERFORMANCE OF LIQUID ASPHALT-BASED SEAL COATS
• EFFECTS OF CRUSHED PARTICLES IN ASPHALT MIXTURES
• EFFECTS OF MAXIMUM AGGREGATE SIZE ON RUTTING POTENTIAL AND OTHER PROPERTIES OF ASPHALT-AGGREGATE MIXTURES
• ESTIMATING VOIDS IN A DOUBLE CHIP SEAL
• FLOW RATE AS AN INDEX OF SHAPE TEXTURE OF SANDS
• FRICTION COURSES FOR MODERATE TRAFFIC HIGHWAYS
• IMPROVING DURABILITY OF OPEN-GRADED FRICTION COURSES
• INFLUENCE OF AGGREGATE ON RUTTING IN ASPHALT CONCRETE PAVEMENTS
• LABORATORY AND FIELD STUDY OF PAVEMENT RUTTING IN SAUDI ARABIA
• RELATIONSHIP BETWEEN PERMANENT DEFORMATION OF ASPHALT CONCRETE AND MOISTURE SENSITIVITY
• RUT-RESISTANT ASPHALT CONCRETE OVERLAYS IN WISCONSIN
• USE OF GYRATORY TESTING MACHINE TO EVALUATE SHEAR RESISTANCE OF ASPHALT PAVING MIXTURE
• WASHINGTON STATE CHIP SEAL STUDY