The main role of a geotechnical engineer is to ensure buildings stand tall at the ground level. Many factors can upend a property’s stability, including soil density, water flow patterns, and more. Geotechnical engineering is important for community planning and construction; without it, buildings could lean, settle, and eventually collapse as the earth below them…
These three professions—though all are very closely related and have overlapping expertise—have three distinctive roles. As you’re assembling your design/construction team, you may be wondering about the difference between the three. While all three are experts in earth composition and structure, it can be broken down in this way: Geologist, PG, Engineering Geologist, CEG, and…
A site feasibility report is a study indicating whether or not the proposed scope of a project will work given the existing geotechnical circumstances. This important document helps architects and investors alike work through some of the necessary steps to get started and reassess if problems are indicated. Central Geotechnical Services provides a thorough site…
Geotechnical drilling is a fundamental part of any construction site evaluation. Drilling deep into the ground helps reveal the conditions below, allowing engineers and architects insight into what kind of environmental hazards need to be accounted for. Some of the most commonly used geotechnical drilling techniques include mud rotary drilling, hollow stem auger drilling, and…
There are many challenging subsurface geotechnical conditions that require civil engineers and architects to rethink their plans for construction. But what does subsurface mean, and what are some common complications that get in the way of building? Let’s dive deeper into subsurface conditions and why you need to examine them closely for your next project….
After so much careful planning, the last thing you want to uncover are geological hazards that pose a challenge to the project moving forward. Any seismic geologic hazard zone will require earthquake-related reinforcements, while other geological hazard examples such as landslides, volcanoes, and permafrost will require specialized evaluation. Learn more about the most common geological…
The ”geotechnical conditions” definition refers to the physical properties and conditions of the soil and other ground components found at a particular site. In order to proceed with construction or civil engineering projects, geotechnical conditions must be evaluated, established, and documented so that all parties understand what precautionary measures are necessary to move forward successfully….
Before construction begins, engineers are responsible for identifying indicators of geotechnical hazards. The geotechnical hazards definition comes down to the risks presented in a job site, specifically ground movements such as settlements, fractures, or landslides that can negatively affect a project. With a proper site investigation, many of these issues can be avoided; explore these…
Building on permafrost should be avoided if possible, as your foundation will see significant shifts as the ground begins to thaw and resettle. If you must proceed with construction, it’s vital to receive a thorough geotechnical analysis to avoid potential structural issues moving forward. Learn more about building foundations in permafrost and how to stay…
Slope stability refers to how much stress a slope can endure before collapsing. This information matters to civil and geotechnical engineers involved in planning construction for roads, dams, embankments, and other excavated slopes, as failing to understand slope stability could result in landslides, unwanted movement, or injury to both property and individuals. A slope stability…
We are a CVE Verified Service-Disabled Veteran-Owned Small Business (SDVOSB).
