Tolunay Engineering Group (TEG), located in the Energy Corridor of Houston, specializes in providing Geotechnical Engineering and Construction Materials Testing in our own laboratory, adjacent to our office, for various project structures providing timely testing and credible analysis to our clients.
With every assignment, we are committed to safety, professionalism, thorough data gathering and analysis, industry approved chain-of-custody practices, detailed communication to associated team members, and timely results.
Our team works collaboratively under direct contract with Project Owners, Local/State/Federal Governments, Civil Engineers or Architects as part of a design team effort and take our obligation to provide safety and security very seriously. Prior to beginning any work at any facility a site-specific TEG Safety Plan will be developed.
We are always available and take pride in being personally invested in your success…our reputation depends on your satisfaction.
Geotechnical Engineering Services
- Soil Borings and Cone Penetrometer Tests
- Laboratory Testing
- Slope Stability and Slope Remediation
- Groundwater Control & Improvement
- Levee/Embankment Design
- Earth Structures & Retention Systems
- Marine & Dock Structures
- Shallow & Deep Foundations
- Finite Element Analysis
- Forensic Studies
Collective Greatness, a Spirit of Collaboration, Limitless Curiosity and an unwavering Moral Compass reflects our commitment to the communities in which we work. We serve you as both a client and partner.
The cone penetration or cone penetrometer test (CPT) is a method used to determine the geotechnical engineering properties of soils and delineating soil stratigraphy.
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Soil Boring Testing to understand the "Influence of stress state on soil-water characteristics and slope stability" Journal of Geotechnicaland Geoenvironmental Engineering.
The finite element method (FEM), is a numerical method for solving problems of engineering and mathematical physics. Typical problem areas of interest include structural analysis, heat transfer, fluid flow, mass transport, and electromagnetic potential. The analytical solution of these problems generally require the solution to boundary value problems for partial differential equations. The finite element method formulation of the problem results in a system of algebraic equations. The method approximates the unknown function over the domain.[1] To solve the problem, it subdivides a large system into smaller, simpler parts that are called finite elements. The simple equations that model these finite elements are then assembled into a larger system of equations that models the entire problem. FEM then uses variational methods from the calculus of variations to approximate a solution by minimizing an associated error function.
The cone penetration or cone penetrometer test (CPT) is a method used to determine the geotechnical engineering properties of soils and delineating soil stratigraphy.
\r\n
Soil Boring Testing to understand the "Influence of stress state on soil-water characteristics and slope stability" Journal of Geotechnicaland Geoenvironmental Engineering.
The finite element method (FEM), is a numerical method for solving problems of engineering and mathematical physics. Typical problem areas of interest include structural analysis, heat transfer, fluid flow, mass transport, and electromagnetic potential. The analytical solution of these problems generally require the solution to boundary value problems for partial differential equations. The finite element method formulation of the problem results in a system of algebraic equations. The method approximates the unknown function over the domain.[1] To solve the problem, it subdivides a large system into smaller, simpler parts that are called finite elements. The simple equations that model these finite elements are then assembled into a larger system of equations that models the entire problem. FEM then uses variational methods from the calculus of variations to approximate a solution by minimizing an associated error function.
The finite element method (FEM), is a numerical method for solving problems of engineering and mathematical physics. Typical problem areas of interest include structural analysis, heat transfer, fluid flow, mass transport, and electromagnetic potential. The analytical solution of these problems generally require the solution to boundary value problems for partial differential equations. The finite element method formulation of the problem results in a system of algebraic equations. The method approximates the unknown function over the domain.[1] To solve the problem, it subdivides a large system into smaller, simpler parts that are called finite elements. The simple equations that model these finite elements are then assembled into a larger system of equations that models the entire problem. FEM then uses variational methods from the calculus of variations to approximate a solution by minimizing an associated error function.
The cone penetration or cone penetrometer test (CPT) is a method used to determine the geotechnical engineering properties of soils and delineating soil stratigraphy.
\r\n
Soil Boring Testing to understand the "Influence of stress state on soil-water characteristics and slope stability" Journal of Geotechnicaland Geoenvironmental Engineering.