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Home My WebLink AboutAPPROVED,J ohn Lieffort Soil Boring ReportB3 MATERIAL TESTING ENGINEERING E F, S e_ n c e o f P c r f e, c L i o n 1676 West 31 PL., Hialeah FL, 33012 - Off. 786.773-5871/5889 - Fax. 786.615-5801 December 28, 2021 John Lieffort 915 Buckeye Drive Fort Pierce, Florida Attn. Mr. John Lieffort RE: Report of Geotechnical exploration for an existing property. Located: 915 Buckeye Drive, Fort Pierce, Florida. Dear Mr. Lieffort: Project No. 21-0629 In accordance with your request, we have completed the subsurface exploration and geotechnical evaluation for an existing property in Fort Pierce, Florida. Enclosed are two (2) copies of the report that includes our findings and construction considerations. B3 Material Testing Engineering, LLC (63 MTE) appreciates the opportunity to be of service during this phase of the project. If there are any questions or comments you may have regarding the content of this report, or if you may need of any further service, please contact us at your convenience. If there are any questions regarding the information submitted herein, please do not hesitate to contact us. Sincerely yours, B3 Material Testing,E-ngineering, LLC. r .. Dario Her ro, P,E:,' r'` rev." . ; Florida Reg. 67796i� ' —e _F IAJ DH/AD/bm-JohnLieffort '"a ! r \' 111. 14' Page 117 December 28, 2021 INTRODUCTION B3 MATERIAL TESTING ENGINEERING E s S (-- n c c o f P c r f c c L i o n 1676 West 31 PL., Hialeah FL, 33012 - Off. 786.773-5871/5889 - Fax. 786.615-5801 Project No. 21-0629 B3 Material Testing Engineering LLC. (B3 MTE) conducted a subsurface investigation at the above referenced project. The investigation was performed on December 28, 2021, authorized by Mr. John Lieffort. The purpose of the investigation was to obtain information concerning the sub -surface condition to provide site preparation and foundation design alternatives for support of the proposed construction. To achieve the desired objective two (2) standard penetration test borings were performed. The approximate boring locations are indicated on the attached Boring Location Plan. We have also attached the Boring Logs, which include the types of materials encountered, results of the field tests and measured groundwater depths. SCOPE The scope of services included a reconnaissance of the site, geotechnical investigation, field and engineering analysis and evaluation of the data. PROJECT AND SITE DESCRIPTION The project consists of an existing property in Fort Pierce, Florida. SUBSURFACE INVESTIGA TION PROCEDURES The soil borings were performed on December 27, 2021, with a truck mounted drilling rig and it was advanced using hollow stem auger drilling methods. A total of two (2) soil borings were performed to a depth of 30 feet. Representative soil samples were obtained employing split spoon sampling procedures in accordance with ASTM Specification D-1586. A two (2) foot long two (2) inches O.D. Split Spoon Sampler was driven into the ground by successive blows with 140 lb. Hammer dropping thirty (30) inches. The soil sampler was driven two (2) feet at a time or at every change in soil characteristics, then extracted for visual examination and classification of the retained soil samples. The number of blows required for a one (1) foot penetration of the sampler is designated as "N" (known as the standard penetration resistance value). The "N" value provides an indication of the relative density of non -cohesive soils and the consistency of cohesive soils. Suitable corrections are applied to this number to include the effects of soil overburden pressure and other factors. A general evaluation of soils is made from the established correlation between "N" and the relative density or consistency of soils. Page217 B3 MATERIAL TESTING ENGINEERING E S S c_ n c e_ o f P e r f ca c t i o n 1676 West 31 PL., Hialeah FL, 33012 - Off. 786.773-587115889 - Fax. 786.615-5801 December 28, 2021 Project No. 21-0629 This dynamic method of soil testing has been widely accepted by foundation engineers and architects to conservatively evaluate the bearing capacity of soils. A continuous drilling and sampling procedure was used therefore, the samples were taken at intervals of two (2) feet. SOIL PA VEMENT AND GROUND WATER CONDITIONS Specific soil conditions encountered in the borings are indicated on the soil boring logs included with this report. The stratification of the profile components as shown on the boring logs represents the subsurface conditions at the actual boring locations. Variations may occur within a short distance from the borings. Lines of demarcation represent the approximate boundary between the type of material encountered, but the transition may be gradual, or not clearly define. The existing surface consists of 6" of topsoil with vegetation over 6" to 2'-6" gray fine sand, 2'-6" to 5' dark brown fine sand, 5' to 12' dark brown fine sand and 12' to 30' gray fine to medium sand with shell fragment and lime rock. Fluctuations in the amount of water accumulated and in the hydrostatic water table can be anticipated depending upon variations in precipitation and surface runoff. The types of foundation material encountered have been visually classified and are described in detail in the boring logs. The results of the field penetration tests are presented in the boring logs in numerical and graphic forms. Groundwater was measure immediately at the completion of each soil boring and was found at an average of approximately nine (9) feet eight (8) inches, below the existing surface (see logs). Design engineers must verify existing ground elevations as well as FEMA Flood and County highest and lowest groundwater elevation for their design. Surface flooding may result under hurricane conditions and should be taken into consideration in the design of the project. Specialty groundwater and water proofing contractors shall be consulted for all work below the groundwater level. Fluctuation in the observed ground water level should be expected due to seasonal climatic changes rainfall variation, surface water run-off and other, specific factors related to the site in question. Dewatering for pile caps shall be considered. FOUNDA TION RECOMMENDATIONS: Based on the sub -surface conditions encountered B3 Material Testing Engineering LLC., has evaluated a few foundation systems for providing additional support to the existing structure. Based on our understanding of the proposed structure and our field boring logs; it is evident that deep foundation systems are needed to support the proposed structure and slabs without detrimental settlement. Page317 B3 MATERIAL TESTING ENGINEERING F s S 0 n c C-� o IF P c r r � c L i o n 1676 West 31 PL., Hialeah FL, 33012 - Off. 786.773-5871/5889 - Fax. 786.615-5801 December 28, 2021 Project No. 21-0629 Existing land elevation was not provided to B3 MTE; therefore, the proposed pile length is based on the existing ground elevation at the time of drilling. Pile length will need to be adjusted accordingly based on proposed final designs. Pile special consideration in the analysis was given to the following: 1. The presence of a layer organic material of varied thickness, which makes the site less appropriate for construction using regular spread footings and single column pads at the existing grade. 2. Length to width ratio of the proposed structure with special emphasis on differential settlement. Given the above, the following foundation systems were selected. ALTERNATIVE l: TYPE B HELIX PIER; HELICAL PILES: Helical piles are another feasible alternative. The capacity of these piles is essentially developed in tip bearing and side friction. When these piles are installed or socketed into place, they will "lock into" the rock and sand strata thereby providing adequate bearing capacity. Helical piles bearing capacity is a proprietary product dependent on a shaft type, size and steel strength as well as helix size, numbers and spacing as well as depth. Therefore, the helical pile specialty foundation contractors and its engineer shall submit a signed and sealed shop drawings of the proposed helical piles to the building department. Below are the minimum depth and capacities unless authorized by the geotechnical engineer. Predrilling may be required to achieve design depths. The analysis for this foundation alternative consisted of determining a pile capacity for specific size and depth of installation. See Table II below: TABLE Size Allowable Allowable Allowable (Dia.) Proposed Tension Compressive Lencth _ Capacity _ Bearing Capacity Type B. Pier 3.0" 13 Feet or Refusal _ 3 Tons 12 Tons LIMITA TIONS OF STUDY The exploration and evaluation of the foundation conditions reported herein are considered sufficient in detail and scope to form a reasonable basis for the foundation design. The recommendations submitted for the proposed construction are based on the available subsurface information and the preliminary design details furnished by the client. Page417 December 28, 2021 B3 MATERIAL TESTING ENGINEERING F. s S c n C C o f F� c r f a C L i o n 1676 West 31 PL., Hialeah FL, 33012 - Off. 786.773-5871/5889 - Fax. 786.615-5801 Project No. 21-0629 Any revisions to the plans for the proposed structure from those enumerated in this report should be brought to the attention of the soil engineer, so that he might determine if changes in the foundation recommendations are required. If deviations from the noted subsurface conditions are encountered during construction, they should also be brought to the attention of the soil engineer, so that he can review the changed conditions ad revise these recommendations, if warranted. GENERAL INFORMATION SOIL CLASSIFICATION CORRELATION OF PENETRATION RESISTANCE WITH RELATIVE DENSITY AND CONSISTENCY SAND Dynamic Cone Penetrometer Standard Penetration Penetrometer Resistance Hammer Blows Relative Density 0 -10 0-4 Very Loose 11- 25 _ 5-9 Loose 46 - 75 10 - 29 Medium Dense 76-120 30-60 Dense > 120 > 6O Very Dense Sift & Clay Dynamic Cone Penetrometer Standard Penetration Relative Density i Penetrometer Resistance F3ammerSlows 0-6 0-2 Very Soft 7-15 3-5 Soft Medium Stiff very Stiff - 31-45 5-15 46 - 90 16 - 30 91-150 31-50 Hard Rock Hardness Description Particle Size Soft Rock Core Crumbles when handled Boulder > 12 in Medium Can break cores with your hands Cobble 3-12 in Moderately Hard Thin edges of rocks core can be broken with fingers Gravel 4.76 mm - 3 in Hard Thin edges of rocks core cannot be broken with fingers Sand 0.074 mm - 4.76 mm VeryHard Rock core rings when struck with a hammer Silt 0.005 mm -0.074 mm Clay <0.005mm GENERAL QUALIFICATIONS The analysis and recommendations presented in this report are based upon the data obtained from the soil borings performed at the indicated locations and from any other information discussed in this report. This report does not reflect any variations that may occur between borings or across the site. Any statements which appear in this report or on the boring logs regarding odors, color, unusual or suspicious items or conditions are strictly for the information of the client. Page 517 I33 MATERIAL TESTING EN41SINEERING 1676 West 31 PL., Hialeah FL, 33012 - Off. 786.773-5871/5889 - Fax. 786.615-5801 December 28, 2021 Project No. 21-0629 In addition, the soils samples cannot be relied on to accurately reflect the strata variations that usually exist between sampling locations. The nature and extent of such variations may not become evident until construction. If variations appear evident, it will be necessary to reevaluate the recommendations of the report. In addition, it is recommended that B3 Material Testing Engineering, LLC. be retained to perform construction observation and thereby provide a complete professional geotechnical engineering service through the observational method. For environmental due to diligence, a phase I and/or phase II Environmental Site Assessments is recommended. This report has been prepared for the exclusive use of Mr. John Lieffort. for specific application to the project discussed and has been prepared in accordance with generally accepted geotechnical engineering practices. In the event that any changes in the nature, design or location of the project as outlined in this report are planned, the conclusions and recommendations contained in this report shall not be considered valid unless the changes are reviewed, and the conclusions of this report modified or verified in writing by the geotechnical engineer. Also, note that B3 Material Testing Engineering, LLC. is not responsible for any claims, damages, or liability associated with any other party's interpretation of this report's subsurface data or reuse of the report's' subsurface data or engineering analyses without the express written authorization of 83 Materiai Testing Engineering, LLC. B3 Material Testing Engineering, LLC. appreciates the opportunity to be of service to you at this phase of you project. Please feel free to contact us if there are any questions or comments pertaining to this report. Page617 B3 MATERIAL TESTING ENGINEERING E s s c n c c o f P e- r f e c L i o n 1676 West 31 PL., Hialeah FL, 33012 - Off. 786.773-5871/5889 - Fax. 786,615-5801 December 28, 2021 Project No. 21-0629 SOIL BORING LOGS Page717 133 MATERIAL TESTI NG ENGI IN E E R I NG E'. 5 c_ r .i I r' r I r r i r r n 1676 WEST 31st Place, Hialeah, Florida 33012/Off: 786-773-5871/ Fax: 786-773-5889 SOIL BORING LOG Date L Tuesday, December 28, 2021 PROJECT NO. 21-0629 Existing property PROJECT 915 Buckeye Drive, Fort Pierce, Florida Location: Refer to the map site John Lieffort CLIENT B_�1 1 915 Buckeye Drive Fort Pierce, Florida LATITUDE 27.368650° LONGITUDE1 -80.336613° Driller AL Heller FM L MATERIAL DESCRIPTION W z0 Z Q Z H e\° "N" z 0' w m 0 z Z 0 0 Curve 2 U R 20 40 60 P Oslo I r Wth vuelEffitifin. 2 6" - 2'6" Gray fine sand. 1 14 3 3 5- 2 17 6 19 9 36 2'6" - 5' Dark brown fine to medium sand. 5 16 3 20 20 26 17 4 23 20 20 40 5' - 12' Dark brown fine sand. 20 5 13 21 20 20 40 10 20 I 6 16 28 20 22 42 26 30 7 19 38 71 40 75 8 22 36 30 30 61 10 26 29 9 22 39 69 41 39 24 10 18 39 77 40 12' - 30' Gray fine to medium sand with shell fragment and lime rock. 30 30 11 21 30 60 40 29 29 12 17 29 59 40 30 5 29 13 19 31 62 32 i 14 22 2027 ag.''� } r e 1.�. T 15 16,`* '� 26,E 554 30 End of boring @ 30' e �o r Respectfullv submitted by Water Level (w): 9'-8" � � •V, ; Sample Type: Split Spoon (SS) : r Boring performed on; 12127/21 - r ar rrero, Honda >ta%. r o As F a mutual protection to clients, the public and ourselves, all reports are submitted as the confidential property of clients, and authorization for publications of statements, mnn pefsid app�p3=}y�l grrto J�ardirlf,�a'pr,>� Ais reserved pending our Written approval fY A��dAd�CFs�s't 13 3 M A T E R I A L T E S T I N G E N G I N E E R I N G 1676 WEST 31st Place, Hialeah, Florida 33012/Off: 786-773-5871/ Fax: 786-773-5889 SOIL BORING LOG Date Tuesday, December 28, 2021 PROJECT NO. 21-0629 Existing property PROJECT 915 Buckeye Drive, Fort Pierce, Florida Location: Refer to the map slte John Lieffort CLIENT _ B2 1915 Buckeye Drive Fort Pierce, Florida LATITUDE 27.368658° LONGITUDE1 -80.336322° Driller AL Helper FM a MATERIAL DESCRIPTION r o Z O 3 ¢ O w ^, "N" < 7 O U O m 0 U > Z O O V CU Ne _ z Z 0 20 40 60 Top5oll with ve elation.. 4 1 15 2 5 1' - 3' Gray fine sand. 3 I 6 2 19 s 11 • 15 3' - 6' Dark brown fine to medium sand with root. 1B 3 19 ZO 39 to 20 4 22 20 49 • - 6' - 12' Dark brown fine sand za 41 5 21 29 29 58 t I) 29 30 6 19 33 26 64 40 30 30 7 16 30 28 59 1r 8 18 30 60 38 • 41 9 17 39 26 25 53 10 21 30 39 73 �9 30 12' - 30' Gray fine to medium sand with shell fragment and lime rock. 40 11 16 34 39 77 39 10 12 19 29 30 30 61 �r 41 13 17 3 F 29 58 30 16 30 31 Ietl3 1°V9 d 15 22 59 30 End of boring @ 30' m, Respectfully submitted by ' Water Level ( w): Sample Type: Split Spoon (SS) r - Boring performed on: 12127121 - rlalda Heg.'�IrLr}l6 _ As a mutual protection to clients, the public and ourselves, all reports are submitted as the confidential property of clients, and authorization for publications of statements,crmclu ns or ""tart from or rnArding cur ropocts k reserved pending our written approval. LL C) Lo T" CD m nn LUJ I., Olt & -Marl Ise; cL.r 10 _v, Od