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Wynnpage-LR 911002 _ CONSULTING SPECIALISTS IN: Environmental Assessments T Environmental Engineering ECItNIQUE Soils & Foundation Engineering Construction Materials Testing INC. Commercial & Industrial Inspection "Excellence by Experience" October 2, 1991 Legend Construction, Inc. P.O. Box 606 Euless, Texas 76039-0606 Attn: Mr. David Chaney Re: Utility Trench Design Water & Sewer Improvements Wynnpage Estates Coppell, Texas 91-499 Dear Mr. Chaney: In accordance with your request, we have reviewed soil core borings and summary of tests, performed by others, which are incorporated into a previously submitted sub-surface soils investigation. These borings and test results are adequate for this report. The Boring Logs and Test Summaries are a part of project specifications. The purpose of this examination was to study the sub-surface soil stratigraphy along the proposed utility lines in order to properly design an open trench to be used in utility construction. Examination of the test results and the boring logs revealed that these sub-surface soils are typical of the Woodbine Geological Formation and locally non-uniform. Generally, from the surface down, we encountered varying thicknesses of stiff to hard dark brown, brown, tan and gray clays, sandy clays or clayey sands underlain by very dense tan fine to medium cemented sand. The underlying primary (rock) formation, sandy shale, was not encountered in any of the borings. The borings were advanced dry to allow for extremely accurate water table measurements. After a twenty-four (24) hour period, no ground water was in evidence in any of the borings. -1- 1939 East Continental Boulevard · Southlake, Texas 76092 (817) 329-0281 · (800) 348-6308 · Fax (817) 488-1866 Considering the non-existence of a shallow water table, we do not expect groundwater to influence the deeper excavations on this project. In order to determine a safe open trench configuration, we referred to a bulletin on "Excavating and Trenching Operations", published by the U.S. Department of Labor Occupational Safety and Health Administration, July 1975, revised December 1987 and Federal Register, Part II, Department of Labor, 29 CFR Part 1926, dated October 31, 1989. The angles of repose from our enclosed typical trench cross-sections were taken from Table B-l, titled "Maximum Allowable Slopes", referenced Federal Register, Vol. 54, No. 209, Rules & Regulations 45965. The project comprises approximately 3,740 feet of 8 inch PVC water transmission main, 3,590 feet of 8 inch PVC sanitary sewer main, and 2,113 feet of 21 inch to 66 inch R.C.P. storm sewer main. A great majority of the excavation will require cuts between four (4) and twelve (12) feet. A small segment will require cuts in excess of twelve (12) feet, but in no case will the excavation be deeper than seventeen (17) feet. From the enclosed table B-l, "Maximum Allowable Slopes", it becomes evident that OSHA allows trenches cut into stable rock to be cut vertically (90 degrees) from the trench bottom to the top of the stable rock. Where rock is not encountered, the maximum vertical cut is limited to three and one-half (3.5) feet. Examination of the boring logs reveals no stable rock is reached throughout the depths investigated (15.0 feet). At the top of vertical excavations, where necessary, the trench walls should be sloped back on varying angles of repose up to the existing ground surface, as shown on the enclosed typical trench slope configuration diagrams. Notes from Table B-1 allow steeper slopes for "short term" excavation. Short term is generally defined as 24 hours. On all vertical excavations adjacent to existing roadways or where sloping is not practical, the contractor may elect to utilize a sliding trench box in all cuts deeper than three and one-half (3.5) feet in order to prevent caving or sloughing of the trench walls. This method is acceptable by the OSHA regulations. -2- The foregoing recommendations are based on the analyses which presume the condition of soil properties between the borings to have a normally uniform variation of conditions revealed by the borings. Should any unusual conditions be encountered during construction, this office should be contacted immediately so that further investigation and supplemental recommendations can be given. Further, since we are not actively engaged in any phase of trench excavation, Geo-Technique, Inc., or any of its employees accepts no responsibility for the safety of these operations. I trust this is the information you desire; and if we can be of further service, please call on us. Respectfully submitted, Geo-Tec__~_'_~e, Inc. Louis L. Hargis, P.E. President -3- TABLE B-! - MAXIMUM ALLOWABLE SLOPES (REFERENCE: FEDERAL REGISTER, VOL. 54, NO. 209 RULES & REGULATIONS 45965) MAXIMUM ALLOWABLE SLOPES (H:V){1} SOIL OR ROCK TYPE SHORT-TERM LONG-TERM EXPOSURE EXPOSURE (DEGREES) (DEGREES) STABLE ROCK VERTICAL (90) VERTICAL (90) Type A 1/2 : 1 (63) 3/4 : 1 (53) (see Footnote 2) Type B 3/4 : 1 (53) 1 : 1 (45) Type C 1 1/2 : 1 (34) 2 : 1 (27) {1} Numbers shown in parentheses next to maximum allowable slopes are angles expressed in degrees from the horizontal. Angles have been rounded off. {2} A short-term maximum allowable slope of 1/2 H:IV is allowed in excavations that are 12 feet (3.67m) or less in depth. Short- term maximum allowable slopes for excavations greater than 12 feet (3.67m) in depth shall be 3/4 H:IV (53 degrees). Slope Configuration Unsupported Vertically Sided Lower Portion Maximum Depth - Eight (8) Feet Type A Soil Slope Configuration Unsupported Vertically Sided Lower Portion Maximum Depth - Twelve (12) Feet Type A Soil Slope Configuration Simple Slope - General Maximum Depth - Twenty (20) Feet Type A Soil Rock Slope Configuration Unsupported Vertically Sided Lower Portion Maximum Depth - Varies Stable Rock to Type A Soil