320.1 Preliminary Geotechnical Report (PGR)

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This guidance establishes procedures for sampling, laboratory testing and reporting for preliminary geotechnical investigations.

Figures
Example Preliminary Geotechnical Report
Summary for Preliminary Geotechnical Report - Form M-41
Subsurface Logs for Preliminary Geotechnical Report - Form M-42
Preliminary Bridge Information - Form T-378
Guide for Slope Recommendations

Contents

320.1.1 Apparatus

A list of equipment requirements is contained in AASHTO R13 and ASTM D420-98.

320.1.2 Procedure

The preliminary geotechnical report originates in, and is the responsibility of, the District. Cut classification, preliminary sounding for structures, the locating of critical foundation areas, and fertility sampling are considered part of the preliminary geotechnical report. The preliminary geotechnical report shall be conducted essentially in accordance with AASHTO R13, “Conducting Geotechnical Subsurface Investigations”, and the Geology and Soils Manual, 1962 Edition, Chapter III, Missouri State Highway Commission. These references are guides and are not intended to preclude the use of ingenuity and judgment.

320.1.2.1 Description

Description of soils shall be in accordance with the visual-manual procedures of ASTM D2488. Description of rock materials shall be in accordance with ASTM C294. The Stratigraphic Succession in Missouri and subsequent publications of the Missouri DNR, Division of Geology and Land Survey shall be used as guides to stratigraphic identification. Rock quality designation (RQD) shall be used wherever applicable in logging rock cores.

320.1.2.2 Sampling

Samples shall be obtained in accordance with methods listed in AASHTO R13. In addition, the Giddings slotted-tube sampler has proven particularly suitable for many preliminary geotechnical report sampling applications.

320.1.2.2.1 Soil Classification Samples

Samples shall be obtained, for classification by ASTM D 2487 and AASHTO M145 (except that group index will be calculated by procedures of M 145-49) and for determination of natural moisture content, at intervals of 5 ft. (1.5 m) or less in at least one hole from each cut with a significant amount of soil. Except in extraordinary circumstances, samples should be obtained from multiple (3 or more) representative locations and from each cut where depth of soil is 10 ft. (3 m) or more. Borrow areas other than roadway cuts shall be similarly sampled in detail to define the range of properties of the material to be borrowed. Classification samples shall be packaged in plastic bags, tied, and double packaged in heavy Kraft paper bags. Bags shall be securely packaged in heavy cardboard boxes for shipment. Alternately, samples may be packaged and shipped in small canvas sacks with plastic liners. Moisture samples shall be sealed in airtight containers for moisture determination in the district Operations Laboratory.

  • Note: It is intended that sufficient samples shall be obtained, without sampling bias, such that test results will be reasonably indicative of the dispersion of properties of the soils to be encountered in grading. The number of locations sampled should depend upon the size of the job but three is considered the minimum acceptable for a small job. The number of samples at each location in turn should depend upon stratification and upon the depth of material to be excavated and/or left in place as subgrade.

320.1.2.2.2 Stabilization Samples

Samples shall be submitted for evaluation of lime stabilization, if applicable, in accordance with AASHTO M216, “Lime for Soil Stabilization.”

320.1.2.2.3 Fertility Samples

Composite samples of material, from each soil that will comprise the finished surface layer of the right-of-way to be seeded, shall be sent to the Laboratory for fertility tests. The number of samples will depend upon the judgment of the geologist. Samples should weigh about 1 lb (0.5 kg) and be shipped in small canvas sacks with plastic liners. The following information shall accompany the sample:

(a) Soil type - by horizon(s) if applicable.
(b) Type of project: rural, urban, or the approximate percentage of each when a combination.
(c) Project location and length.
(d) Station limits and approximate percentage of total area represented by the sample.
(e) Whether sampling for the project is complete.

320.1.2.3 Sample Identification

Sample Identification record shall be entered in SiteManager and shall accompany all samples shipped to the Laboratory.

320.1.2.4 Quarantine Areas

In quarantine areas, all sampling procedures shall be in accordance with Quarantine Regulations.

320.1.2.5 Critical Foundation Areas

Requests for investigation of any critical foundation areas located during the preliminary geotechnical report shall be made in accordance with Foundation Investigations.

320.1.3 Report

320.1.3.1 Preliminary Geotechnical Report

The report shall be in letter form as shown in the Example Preliminary Geotechnical Report. Since preliminary geotechnical reports differ in scope and complexity, a rigid format for the letter portion is not prescribed. This report should be clear, concise, and in outline form if long or detailed. The report shall contain the following information, as applicable:

(a) Brief description of the project including location and station limits.
(b) Identification and brief description of soil types and geologic formations to be encountered. Soil type descriptions shall include a note on the geologic origin, i.e., whether glacial, alluvial, residual, or loessial.
(c) Recommendations on handling and classification of excavation, undergrading, and exceptions or additions to standard specifications for moisture control.
(d) Definition, limits, and recommended disposition of unsuitable materials.
(e) Contractor furnished borrow. If the contractor is to furnish borrow, specify those permissible soil types which will provide a suitable subgrade and which are both readily available and compatible with slope recommendations. Avoid specifying a soil type which may have only one practical source (and owner). Sample and report one or more possible borrow sites for each acceptable soil type where the owner expresses an interest in furnishing material. (This does not require a commitment on the part of the owner or the department and the contractor is free to use any other source provided defined criteria are met.)
(f) Minimum slopes necessary for long term stability of cuts and fills including bridge spill slopes. The Guide for Slope Recommendations shall be used as a guide in preparing recommendations. Slopes should be no steeper than those shown in the Guide for Slope Recommendations and justification should be furnished for flatter or steeper slope recommendations. (Flattening or steepening of slopes for reasons unrelated to geotechnical considerations is not the responsibility of the geologist.) Placement of select, not necessarily granular, materials may be practical at bridge ends, particularly at grade crossings, to permit shortening of structures by steepening of spill slopes (in accordance with criteria of the Guide for Slope Recommendations). This is normally only practical with assured sources of select borrow which are readily distinguishable from less desirable materials.
(g) Notation of the absence or presence of possible critical foundation areas and reference to special investigations in progress or completed by Geotechnical Engineering.
(h) Recommendations for special drainage features or erosion control practices. Water table observations shall be made and reported for soil cuts whenever there is evidence that saturated conditions may exist. Recommendations shall be included in the report for drainage and/or stabilization of slopes and subgrade.
In instances of widespread or non-localized seepage along areas of side hill fill, selective placement of blankets of available pervious material (normally rock from Class C excavation) should be considered to intercept and daylight the seepage to the outside toe of slope. Well-defined, localized seeps and spring flows, however, may be more economically handled with pipe-aggregate underdrains, particularly where project sources of rock or other pervious materials are limited or non-existent. See also paragraph (i) concerning placement of select granular materials for pavement drainage purposes.
(i) All new pavement is to be constructed on two feet of select rock fill when that material is available in suitable quantities on the project site. This includes Light, Medium, and Heavy Duty pavements of either rigid or flexible design. The preliminary geotechnical report should include a statement concerning whether the quantity of select granular fill available on the job site is adequate, of appropriate quality, and located such that it could reasonably be placed as the top two feet (600 mm) of subgrade material. When the quantity of rock on a job is less than is necessary, but would be a significant portion of that needed, a general estimate of that proportion should also be given in the preliminary geotechnical report. Rock fill from sources other than the roadway balance should also be considered if within reasonable proximity to the job.
Note: This information is important in the early stages of project development because the subgrade material to be used will effect the type of pavement selected, the thickness of a flexible pavement, the type of drainage required, and final elevations.
(j) Location and recommended handling of sinkholes, caverns, mines, etc.
(k) A condition survey of the existing pavement when applicable. (Note: A condition survey need not be considered or handled as a preliminary geotechnical report if done for routine resurfacing only. If a resurfacing project includes widening equivalent to at least one lane of pavement the condition survey should be handled as a preliminary geotechnical report including multiple subgrade samples.)
(l) Any other information deemed necessary.

320.1.3.1.1 Summary for Preliminary Geotechnical Report

The Summary for Preliminary Geotechnical Report - Form M-41 is to be prepared and attached to the preliminary geotechnical report for each soil type (normally a pedologic series) encountered and is to contain general descriptions and typical or average test values for the various horizons. Discretion may be exercised as to which horizons justify inclusion of test data. Descriptive and interpretive comments, including the geologic origin of soils, shall be placed in the remarks section (recommendations are to be placed only in the text of the letter). Class A materials other than soils may also be summarized on the Summary for Preliminary Geotechnical Report - Form M-41. The soil shrinkage factor to be reported on this sheet is the ratio of maximum dry density, determined from the moisture-density relations test, to the natural dry density. This will be only one consideration for designers in estimating a balance shrinkage factor for the project.

Note: Form M-41 is not to be used as a substitute for Form M-42, Subsurface Logs for Preliminary Geotechnical Report. Form M-41 is a summary form and need only include that test data considered typical or average.

320.1.3.1.2 Subsurface Logs for Preliminary Geotechnical Report

The Subsurface Logs for Preliminary Geotechnical Report - Form M-42 shall be used for all auger and core drill logs, etc., and shall be attached to the preliminary geotechnical report. All detailed sample test data shall be reported on this form in table form beneath the appropriate boring log.

(This will duplicate some data selected for use in the summary sheets. Core logs shall include, in table form, the driller's record of runs and recovery and, when appropriate, the rock quality designation (RQD) in percent.

Copies of the preliminary geotechnical report are to be distributed by the District as follows:

Title Copies
Geotechnical Director Original & 2
Project Manager 1
District Construction Engineer 1
File(s)

Copies of the preliminary geotechnical report will be distributed by Geotechnical Engineering as follows:

Title Copies
Title Copies
State Design Engineer 1
State Bridge Engineer 1

320.1.3.2 Preliminary Sounding for Structures

This report consists of a completed Preliminary Bridge Information - Form T-378. Logs of borings performed for the preliminary bridge report should also be reported in the preliminary geotechnical report on the Subsurface Logs for Preliminary Geotechnical Report - Form M-42 and are to be repeated on Preliminary Bridge Information - Form T-378 along with the other requested information on that form. Preliminary Bridge Information - Form T-378 has a different distribution than the preliminary geotechnical report and is to be reported separately. No cover letter is required. Copies of the completed form are to be distributed as follows:

Title Copies
Title Copies
Geotechnical Director Original & 1
State Bridge Engineer 1
File(s)

320.1.3.3 Fertility Sample

No District report is required. Results of the fertility tests will be distributed by the Laboratory in accordance with Laboratory Testing.

320.1.4 Example Reports

320.1.4.1 Example Preliminary Geotechnical Report

320.1 Example Preliminary Geotechnical Report.gif
320.1 Example Preliminary Geotechnical Report2.gif
320.1 Example Preliminary Geotechnical Report3.gif

320.1.4.2 Summary for Preliminary Geotechnical Report - Form M-41

320.1 Form M-41.gif

320.1.4.3 Subsurface Logs for Preliminary Geotechnical Report - Form M-42

320.1 Form M-42.gif

320.1.4.4 Preliminary Bridge Information - Form T-378

320.1 Form T-738.gif

320.1.4.5 Guide for Slope Recommendations

320.1 Guide for Slope Recommendations.gif

320.1.5 Laboratory Testing

320.1.5.1 Procedure

Soils tests, upon request, are to be performed as shown in this Section. Test results and calculations for all tests except fertility are recorded on Form T-683R. Soil fertility test results and calculations are recorded in Laboratory workbooks. Fertility test results are also to be recorded on work form "Report of Test on Sample of Soil Fertility."

320.1.5.2 Routine Soil Survey Tests

The following tests shall be performed on routine soil survey samples.

(a) Liquid Limit - AASHTO T89, Mechanical Method (Alternate).
(b) Plastic Limit and Plasticity Index-AASHTO T90.
(c) Particle Size Analysis - AASHTO T88, except that hydrometer analysis is not required.
(d) Soil Classification - AASHTO M145, except that the group index will be calculated by the procedures of M145-49.
(e) Soil Classification - ASTM D2487, except that the data required for ASTM classification shall be determined by the AASHTO test methods of this section.
(f) Moisture-Density Relations (Compaction Standard) - AASHTO T99, Method C.

320.1.5.3 Tests Specifically Requested

The following tests are considered non-routine and will be performed only on request.

(a) Shrinkage Factors - AASHTO T92.
(b) Specific Gravity - AASHTO T100.
(c) Field Moisture Equivalent - AASHTO T93.
(d) Moisture Content - ASTM D2216 (Normally this test should be performed in the District).
(e) Fertility - A sample for fertility tests shall be initially prepared according to AASHTO T87. The test portion shall consist of approximately 100 g of material passing the No. 10 (2.00 mm) sieve. Fertility tests of soils shall be performed according to the methods set forth in "Soil Testing in Missouri", September 1973, by the Agronomy Department of the University of Missouri.
(f) Rock Type Identification - Requests for rock type identification, for purposes of cut classification, are to be referred to the Geotechnical Section for determination of specific test requirements. Cores are the preferred form of sample since identification may be influenced by laminations or fissility and since cyclic lithologies could be misrepresented by composite samples. Tests to be performed, as applicable, may include microscopic examination and grain size count, mechanical analysis after degradation, insoluble residue determination and chemical analysis. The test report will indicate where samples may be subject to more than one interpretation of identification.

320.1.5.4 Report

All test results, except fertility and rock type identification are reported through SiteManager, with distribution to:

District Operations Engineer

Fertility test results are reported on the SiteManager Lab Report, with distribution as follows:

State Maintenance Engineer
District Operations Engineer
File

Rock Type Identification test results will be reported on the appropriate forms to the Geotechnical Director with a file copy maintained by the Laboratory Director. The Geotechnical Section will determine the rock type identification to be submitted by letter to the District Engineer.

320.1.6 Geotechnical Laboratory Testing

This guidance establishes procedures for the soil tests routinely performed by the Geotechnical Section.

320.1.6.1 Apparatus

The required equipment is listed in the appropriate method as described in this section.

320.1.6.2 Procedure

320.1.6.2.1 Unconfined Compressive Strength

Unconfined compressive strength is to be determined in accordance with AASHTO T208.

320.1.6.2.2 Consolidation

Consolidation characteristics of soils are to be determined in accordance with AASHTO T216.

320.1.6.2.3 Triaxial Compression

Triaxial strength parameters are to be determined in accordance with AASHTO T234.

320.1.6.2.4 Direct Shear

The direct shear test is to be performed in accordance with AASHTO T236.

320.1.6.2.5 Swell Test

The swell of soil is determined in accordance with AASHTO T216 except as follows:

(a) Select the restraining load. Restraining loads are to be based on the anticipated load on the soil in place in the subgrade. (b) Apply the load, record the zero reading and inundate the sample. (c) Record the increase in height of the sample daily until movement ceases. (d) Percent swell is the change in height of the sample divided by the original height of the sample.

320.1.6.2.6 Constant-Head Permeability

The permeability of granular soils containing not more than 10 percent non-plastic material passing the No. 200 [75 mm] sieve is to be determined in accordance with AASHTO T215.

320.1.6.2.7 Falling-Head Permeability

The permeability of granular cohesion less materials consisting predominantly of particles passing the No. 10 (2.00 mm) sieve may also be determined in accordance with "Suggested Method of Test for Permeability of Porous Granular Materials by the Falling-Head Permeameter", Special Procedures for Testing Soil and Rock for Engineering Purposes, ASTM STP 479, 1970, except that:

(a) A steel permeameter with an inside diameter of 4 in. (100 mm) and a height of 4.6 in. (116.8 mm) shall be used. (b) Soil shall be compacted in the permeameter in accordance with AASHTO T99, Method C.

320.1.6.2.8 Permeability of Fine-Grained Soils

Permeability of fine-grained soils is generally to be computed from consolidation test data and may be determined by direct measurements on triaxial shear specimens.

320.1.6.2.9 California Bearing Ratio

The California Bearing Ratio (CBR) is to be determined according to AASHTO T193.

320.1.6.3 Report

All test results are to be reported to the Geotechnical Director. A summary of test data is normally to be included as an attachment to the reports of special investigations.