Geotechnical Engineering for Safe and Reliable Structures

Request a Free Quote

Book A Call

Accurate Site Investigation

Finding information about subsurface soil and rock conditions becomes easy with a boring test or a geotechnical boring test. Basically, it allows engineers to determine the strength of the soil, its stability, and its deformation characteristics.

And, this information comes in handy while assessing the suitability of the site for specific projects like building foundations, roads, and bridges. We would like to end your constant search for top geotechnical engineering companies and help you with your requirements.

blog placeholder image
blog placeholder image

Reduced Construction Costs

Not just finding information related to assessment, Geotech soil boring also reduces construction costs by providing accurate information about soil and rock properties which engineers use to design more efficient structures and foundations.

Apart from this, soil boring test helps identify threats such as sinkholes, landslides, and soil liquefaction which are an expensive affair to remediate if not detected early on.

Better Safety

With proper geotechnical boring, engineers and builders can analyze the stability of the ground and determine if it can support the proposed structures. This reduces the risk of potential ground failure or overall structural collapse. Not just this, boring test also helps with property identification of soil and rocks which are important for designing foundation systems that are able to withstand natural disasters such as floods, hurricanes, and even earthquakes.

We stand with our heads up in the list of best geotechnical engineering firms in Florida and would be more than happy to guide you, starting with a free no-obligation consultation to understand your needs and help you learn about our services.

blog placeholder image
blog placeholder image

Environmental Protection

Environmental safety is a pretty important aspect of any construction project. We should work with extra care to ensure we are not doing much harm since we are indirectly affected too. Geotechnical soil boring helps in environmental protection by determining the type and quality of soil and groundwater present on a site.

It identifies the source of contamination, if any, such as buried tanks, hazardous waste, and chemical spills that pose a real threat to us and the environment as well. The information gathered from the geotechnical borings enables engineers to design the appropriate remediation system, effective in addressing the environmental concerns.

Our Services Include

SPT Borings with Truck Drill Rig
Auger Borings with Truck Drill Rig
Foundation settlement inspection
Subsurface Exploration
Preliminary Geotechnical Investigation
Geotechnical Engineering Report
Site Preparations & Foundation Specification
Hand Auger Boring Test
Static Cone Penetration Tests
Foundation Design
Pre-drilling
  • 2478+

    Projects Completed
  • 5,454

    Inspections
  • 1789+

    Permits Approved
  • 289+

    Violations Legalized

Why choose Souffront?

John Souffront

Multi-Disciplined Team of Licensed Engineers

We, at Souffront, are a team of licensed engineers who possess expertise in a variety of disciplines, including construction materials testing and geotechnical soil testing. Moreover, we aim at providing a wide range of services that can cater to all your needs.

John Souffront

Dedicated to Quality

We prioritize quality above all in our work. And, we provide safe, dependable, and economical engineering solutions that meet both your design and construction requirements. You can trust us to produce results, which are cost-effective and reliable too.

John Souffront

Experienced and Knowledgeable

Only being licensed isn’t sufficient. Geotechnical companies must have sufficient knowledge and experience working to be one step ahead of those who are just out there with some certification. Our team is one. We possess the engineering expertise to manage the most complex of jobs with integrity.

John Souffront

Quick Turnaround and Prompt Mobilization

Time is important in every aspect and domain of life, not just in the work industry. We respect that, which is why we offer quick turnaround times and prompt mobilization on your projects. We don’t just want to complete your project, but within the specified time and budget and efficiently.

Harness Earth’s Potential with Geothermal Engineering

Let our geothermal engineering specialists create environmentally responsible systems for your project’s success. Contact us to make a positive impact today.

Request A Quote
John Souffront

Our 4-Step Process

Initial Consultation

We will discuss your project requirements and provide an overview of our geotechnical engineering services. We will also gather any necessary information about your site, including project scope, location, and any relevant geological data.

Site Visit and Laboratory Testing Plan

We’ll visit the site, collect soil samples, and conduct geotechnical testing. Our lab has advanced equipment and experienced technicians who will test the soil’s properties, including strength, density, moisture content, and permeability.

Report Preparation and Delivery

We’ll create a report summarizing our findings and recommendations for site preparation and construction after lab testing. It will include soil analysis and design/construction suggestions. You can choose electronic or hard copy delivery.

Follow-Up Consultation and Support

Follow-Up Consultation and Support We will schedule a follow-up consultation with you to review the findings in the report and answer any questions. We offer ongoing support throughout the construction process to ensure that your project proceeds smoothly.

Geothermal Solutions for a Greener Tomorrow

Request a Free Quote

Request a Free Quote

"*" indicates required fields

Step 1 of 2

Frequently Asked Questions

What is soil boring, and why is it necessary for geotechnical engineering projects?

Soil boring is a process of drilling into the ground to extract soil samples for testing and analysis. This method helps engineers determine the soil’s physical properties, such as its density, moisture content, and strength.
Soil boring test provides valuable information about the site’s subsurface conditions. This data helps engineers design foundations, retaining walls, and other structures that can withstand the site’s unique geological characteristics.
Without soil boring, engineers would have to rely on assumptions and generalizations about the site’s soil conditions. This approach can lead to costly mistakes and safety hazards during construction. Looking for soil boring test companies near you? We want to end that search. You may get on a call with our team, and we can arrange for a free 30-minute consultation.

What is soil resistivity? And, what is the importance of soil resistivity testing?

Soil resistivity is a measure of the ability of the soil to resist the flow of electrical current. It is an essential parameter for designing the electrical grounding system for power plants, substations, transmission lines, and other electrical installations.
And, soil resistivity testing is the process of measuring the soil’s electrical resistance and determining how well it can conduct electrical current. It helps with the safe and efficient operation of electrical systems. Soil with high resistivity can cause a voltage rise on the grounding system, leading to electric shocks, equipment damage, and power outages. Conversely, low soil resistivity can lead to dangerous levels of current flow, which can similarly damage the electrical system or even cause an explosion. SR testing ensures proper grounding that can help prevent electrical hazards in the installation, ensuring safe, reliable, and efficient operation. If you’re in search of soil resistivity testing companies in your location, Souffront can definitely be of service. We may start with an initial consultation which is free and void of any obligation.

What equipment is used to conduct soil boring, and how does it work?

There are 4 basic ones: a drilling rig, drill bits, drill rods, and a sampling system.
The drilling rig is the primary equipment used for soil boring. It is a machine that is designed to drill into the ground using different types of drill bits. The drill bits are attached to the end of the drill rods, which are then rotated by the drilling rig’s motor. The rotation of the drill bit creates a hole in the ground, allowing access to the soil layers below.
Once the hole has been drilled, a sampling system is used to collect soil samples from different depths. The most common type of sampling system used is called a split spoon sampler. This device consists of two tubes that are driven into the ground using a hammering action. Once in place, the tubes are separated, allowing soil samples to be collected between them.
Apart from split spoon samplers, other types of sampling systems can be used depending on specific project requirements. For example, Shelby tube samplers are used when collecting undisturbed soil samples is necessary.

What information can be gathered from soil borings, and how is this information used in geotechnical engineering?

Soil borings help understand the physical and chemical properties of soils and rock beneath the earth’s surface. After extracting soil samples from different depths using a drilling rig, engineers gather valuable information about the soil profile, including its strength, stiffness, deformation characteristics, permeability, and other material properties.

Some of the key insights that geotechnical engineers can obtain from soil borings include:

  1. Soil Type and Composition: Soil borings allow geotechnical engineers to determine the type of soil present at different depths, such as sands, clays, or gravels, and their relative proportions.
  2. Soil Strength and Stiffness: Geotechnical engineers determine the strength and stiffness of soils by performing laboratory tests on soil samples obtained from soil borings. This information is crucial for determining the bearing capacity of soils to support the weight of the proposed structure.
  3. Groundwater Levels: Soil borings provide information about the depth and location of the water table, which is critical for designing foundations that can withstand the effects of groundwater.
  4. Geologic Hazards: Engineers can also use soil borings to identify potential geologic hazards such as landslides, sinkholes, or seismic activity.
Are there any risks associated with soil boring, and how are these risks mitigated?

Yes, there are some risks associated with soil boring.
One significant risk is the potential for small, loose soil particles to become entrapped in the equipment, leading to equipment damage and malfunction. Consequently, soil samples collected through soil boring methods must be handled with care to avoid compromising the accuracy of the information we collect.
Next, we have the potential for site contamination. Soil boring may expose underground hydrocarbons, chemicals, or other hazardous materials that can contaminate surrounding soils and groundwater if not handled correctly. Proper protocol, such as the use of protective clothing, screening and testing samples, and disposing of hazardous waste appropriately, is essential to manage this risk.
To mitigate these potential risks, it is advisable to work with licensed and experienced geotechnical engineers who understand the potential hazards that come with soil boring techniques. They can help establish protocols for protecting equipment and the environment during the soil boring process, as well as identify and manage any environmental or ground conditions that may present additional risks.

How much does soil boring typically cost, and what factors can affect the price?

The cost of soil boring can vary greatly depending on several factors.
This includes the location of the site, the depth required, the type of soil present, and the number of borings needed. The difficulty of access and challenging terrain of a site can increase costs, as can obtaining permits in heavily populated areas. The depth of soil boring required also affects costs, with deeper borings costing more. The type of soil on a site can impact costs due to differences in drilling techniques and tools required. Ultimately, the number of borings needed will also impact the overall cost, with more borings translating to higher costs.
Therefore, it is challenging to provide a definitive figure for the cost as each project is unique. However, we can give a ballpark range of $1000 to $7,000, depending on the factors mentioned earlier. It’s important to note, however, that investing in a thorough soil boring analysis can ultimately save you a great deal of money in the long run when it comes to construction or identifying potential geotechnical hazards, making it a worthwhile expense for any responsible builder or property owner.

Can soil borings be conducted in any type of soil or geologic setting, or are there limitations?

Soil borings can generally be conducted in any type of soil or geologic setting. However, there may be some limitations based on the desired depth of the borings and the equipment available to conduct the borings. For example, some types of rock may be too hard for conventional drilling methods, and the use of specialized equipment may be necessary.
Similarly, very soft or waterlogged soils may require specialized drilling techniques to prevent the collapse of the borehole. Factors such as groundwater levels, topography, and local regulations may also influence the feasibility and practicality of conducting soil borings in a particular location. To know more, get in touch with professional soil boring companies, one of them being us.