00983222

Component

https://doi.org/10.3141/1874-06

http://scholar.google.com...ntus&publication_year=2004

Most state transportation agencies in the United States use the 1986 or 1993 version of the AASHTO design guide. The AASHTO guide for the design of flexible pavements uses the resilient (elastic) modulus as the property for characterizing all pavement materials and soils. However, state agencies do not routinely measure the resilient modulus in the laboratory but instead estimate the value from strength tests or physical properties. Physical property and repeated load resilient modulus tests are being performed on all unbound materials and soils within the Long-Term Pavement Performance (LTPP) program. Other correlation studies have been performed relating physical properties to the k coefficients of the resilient modulus constitutive equation but have been confined to specific soils. The LTPP program includes a diverse range of soils and unbound pavement materials for which the physical properties and resilient modulus are being measured. Thus, statistical analyses were initiated to confirm these relationships and define the accuracy of predicting the elastic response parameters for use in design. Results from these analyses suggest that the correspondence between the physical properties and the elastic parameters of the resilient modulus constitutive equation was fair to poor. It was also found that sampling technique had an effect on the elastic parameters of some unbound materials and soils. On the basis of the findings, it was recommended that resilient modulus tests be performed to characterize unbound materials and soils accurately for use in design.

This paper appears in Transportation Research Record No. 1874, Geology and Properties of Earth Materials 2004.

00983216

English

p. 47-56

2004

Transportation Research Record

0309094690

Figures (1) ; References (5) ; Tables (12)

Accuracy; Aggregates; Mathematical prediction; Modulus of resilience; Physical properties; Soils; Statistical analysis

Long-Term Pavement Performance Program

Unbound materials

Data and Information Technology; Geotechnology; Highways; I36: Aggregates

TRIS, TRB, ATRI

Dec 6 2004 12:00AM

• CORRELATION BETWEEN RESILIENT MODULUS, MOISTURE VARIATION, AND SOIL SUCTION FOR SUBGRADE SOILS
• EQUIVALENCY OF CRUSHED ROCK AND THREE INDUSTRIAL BY-PRODUCTS USED FOR WORKING PLATFORMS DURING PAVEMENT CONSTRUCTION
• EVALUATION OF NEW TEST PROCEDURES FOR DETERMINING BULK SPECIFIC GRAVITY OF FINE AGGREGATE BY AUTOMATED METHODS
• FRAMEWORK FOR ANALYZING EFFECTS OF SPRING LOAD RESTRICTIONS
• GEOTECHNICAL PROPERTIES OF STABILIZED DREDGED MATERIAL FROM NEW YORK-NEW JERSEY HARBOR
• HARD AGGREGATE RESISTANCE TO STUDDED TIRES: ALASKAN EXPERIENCE
• HARMONIZED RESILIENT MODULUS TEST METHOD FOR UNBOUND PAVEMENT MATERIALS
• LIFTING ALL SEASONAL LOAD RESTRICTIONS IN NORWAY IN 1995: BACKGROUND AND EFFECTS
• MEASUREMENT OF IN SITU HYDRAULIC CONDUCTIVITY AND COEFFICIENT OF CONSOLIDATION WITH PREFABRICATED VERTICAL DRAINS
• MODULUS ANISOTROPY AND SHEAR STABILITY OF GEOFIBER-STABILIZED SANDS
• NOVEL APPROACH FOR CHARACTERIZATION OF UNBOUND MATERIALS
• PERFORMANCE OF PROTOTYPE EMBANKMENT BUILT WITH TIRE SHREDS AND NONGRANULAR SOIL
• RESILIENT MODULUS MODELS FOR COMPACTED COHESIVE SOILS
• SEASONAL VARIATIONS OF A SUBGRADE SOIL RESILIENT MODULUS IN SOUTHERN BRAZIL
• SLOPE REHABILITATION AT THE BALTIMORE-WASHINGTON PARKWAY WITH RAMMED AGGREGATE PIERS
• SOIL MOISTURE DEFICIT ANALYSIS
• USE OF RECYCLED AND WASTE MATERIALS IN INDIANA
• USING A SINGLE TEST TO DETERMINE SPECIFIC GRAVITY AND ABSORPTION OF AGGREGATE BLENDS
• USING TIME-DOMAIN REFLECTOMETRY FOR REAL-TIME MONITORING OF SUBSIDENCE OVER AN INACTIVE MINE IN VIRGINIA