Estimation of subgrade resilient modulus from standard tests

Mechanistic pavement design procedures based on elastic layer theory require the specification of elastic moduli for each material in the pavement section. Repeated load tests yielding a resilient modulus are frequently used to characterize the soil subgrade. Due to difficulties associated with cyclic testing, approximate methods are often used for design estimates of resilient modulus. These approximations are often based only on shear strength measures and do not account for the dependence on the magnitude of cyclic deviator stress. A procedure is described to relate the soil-index properties and the moduli obtained from unconfined compression tests, to resilient modulus. Two statistical models are described and demonstrated for 11 soils from throughout the state of Tennessee. One model provides an estimation of the breakpoint resilient modulus, or the modulus at a deviator stress of 6 psi (41 kPa). The second model provides a general nonlinear relationship for the modulus of fine-grained soils as a function of deviator stress. Both models are demonstrated for a range of soils and are shown to provide a good characterization of the response for the soils investigated. Similar relationships can be developed for other subgrade soils, and may prove useful to agencies that use deterministic pavement design procedures, but lack the capability for high-production repeated-load testing.

[1]  B. Akoto The effect of repeated loading on the ultimate unconfined compressive strength of a lime-stabilized laterite , 1986 .

[2]  W Heukelom,et al.  DYNAMIC TESTING AS A MEANS OF CONTROLLING PAVEMENTS DURING AND AFTER CONSTRUCTION , 1962 .

[3]  G. P. Raymond,et al.  Repeated compressive loading of Leda clay , 1979 .

[4]  C L Monismith,et al.  FACTORS INFLUENCING THE RESILIENT RESPONSE OF GRANULAR MATERIALS , 1971 .

[5]  J A Frantzen,et al.  INVESTIGATION OF MOISTURE-INDUCED VARIATION IN SUBGRADE MODULUS BY CROSS-CORRELATION METHOD , 1983 .

[6]  Errors Associated with Rate of Undrained Cyclic Testing of Clay Soils , 1978 .

[7]  D. A. Sangrey,et al.  THE EFFECTIVE STRESS RESPONSE OF A SATURATED CLAY SOIL TO REPEATED LOADING , 1969 .

[8]  H. E. Stewart Permanent Strains from Cyclic Variable‐Amplitude Loadings , 1986 .

[9]  Kiichi Tanimoto,et al.  On Resilience Characteristics of Some Soils under Repeated Loading , 1970 .

[10]  A T Bergan,et al.  RELATION BETWEEN RESILIENT MODULUS AND STRESS CONDITIONS FOR COHESIVE SUBGRADE SOILS , 1977 .

[11]  Matthew W Witczak,et al.  PREDICTION OF SUBGRADE MODULI FOR SOIL THAT EXHIBITS NONLINEAR BEHAVIOR , 1981 .

[12]  Marshall R Thompson,et al.  SIMPLIFIED STRUCTURAL ANALYSES OF FLEXIBLE PAVEMENTS FOR SECONDARY ROADS BASED ON ILLI-PAVE , 1980 .

[14]  C. Chan,et al.  RESILIENCE CHARACTERISTICS OF SUBGRADE SOILS AND THEIR RELATION TO FATIGUE FAILURES IN ASPHALT PAVEMENTS , 1962 .

[15]  Michael McVay,et al.  Cyclic Behavior of Pavement Base Materials , 1985 .