How Would You Go About Ground Investigation for a Building Structure?

Ground investigation is an important part of any building project. It gives you a comprehensive understanding of the ground conditions so you can assess the risks and feasibility of the design. By knowing the soil conditions, groundwater presence and other subsurface features this investigation will ensure safety, success and cost effectiveness of the construction.

This article will show you how to do ground investigation for a building.

What is Ground Investigation?

Ground investigation or site investigation is the process of examining and testing the soil, geology and groundwater at a development site. It is done to understand the ground conditions and design safe and efficient foundations. To assess the risks and mitigate them before construction starts.

A ground investigation is done in two stages:

1. Non-intrusive examination, site history review and surface survey.
2. Intrusive investigation, drilling, sampling and in-situ testing at shallow and a greater depth as required.

Companies like IBEX specialise in providing comprehensive ground investigation services, ensuring reliable data for safe and successful project execution.

Steps in Ground Investigation

1. Initial Site Investigation

Before commencing any detailed investigation, a preliminary site assessment is carried out to gather background information. This step typically involves:

• Desk study: Review of historical records, geological maps and past investigation of the site. To check for significant geological features or potential hazards.
• Site reconnaissance: Engineers visit the site to identify visible conditions like vegetation, surface water and access constraints.

This initial stage gives you an understanding of the site history and sets the stage for planning the investigation.

2. Planning the Investigation

Next is to define the scope of the investigation:

• Objectives: What data is needed based on the proposed design and construction requirements. For example if the project requires deep foundations, investigation at deeper depth will be required.
• Methods: Engineers will decide on the combination of intrusive and non-intrusive techniques. Testing methods will be chosen based on the structure size, soil type and potential risks.

The plan must comply with industry standards.

3. Field Investigation

Fieldwork is where data is gathered directly from the ground using various methods.

Drilling and Sampling

• Boreholes: Drilled to shallow depths or deeper depths to get soil and rock samples.
• Trial pits: Excavated to examine shallow soil layers and identify buried features.

In-Situ Testing

• Standard Penetration Test (SPT): To test soil strength and density.
• Cone Penetration Test (CPT): Measures soil resistance and gives a profile without excavation.

Geophysical Surveys

These non-intrusive methods like ground-penetrating radar (GPR) will identify subsurface features like voids or groundwater without intrusive methods.

This combination of methods will give a full picture of the ground conditions.

4. Laboratory Testing

Samples collected during field investigation will be tested in the laboratory to determine their properties:

• Soil classification: Grain size, plasticity and organic content.
• Strength and stability: Shear strength and load bearing capacity.
• Chemical composition: To check for contaminants or corrosive elements that may affect the proposed design.

Laboratory testing will give more precision to the site conditions so engineers can refine their design and construction plan.

5. Data Analysis and Interpretation

The data from field and laboratory testing will be compiled and analysed to produce a geotechnical report. The report will include:

• Ground conditions: Description of the soil and rock layers.
• Risks: Unstable ground or high groundwater levels.
• Foundation recommendations: Type of foundation based on site conditions.

A detailed report will give engineers the knowledge to design safe and cost effective structures.

Why Ground Investigation is Important

Ground investigation is important for many reasons:

• Safety: To identify and mitigate risks so the structure is stable and long term performance.
• Cost effective: To reduce unexpected costs during construction.
• Regulatory compliance: Investigations are done in accordance to local regulations.

Without investigation, construction projects will have higher risk of failure, delays and additional costs.

Example: Ground Investigation in Action

For a medium rise commercial building, an intrusive investigation may involve drilling boreholes at specific locations to a depth of 10-20 meters. This will determine the soil’s load bearing capacity. Laboratory tests will check compressibility and identify contaminants that need to be remediated. In areas with history of groundwater issues, monitoring wells will be installed to check water table levels.

This combination of methods will ensure the design is site specific.

Summary

A good ground investigation:

• Starts with a full understanding of the site history and conditions.
• Combines field testing, laboratory analysis and expert interpretation.
• Identifies risks to optimise the foundation design and construction.

Investing in proper ground investigation will save you time and money and ensure the safety of the building structure. Work with geotechnical engineers who knows how to assess and interpret site conditions and you’ll have a solid ground for your next project.