Geotechnical Design
Pile Design
Pile design is a pivotal area of geotechnical engineering that intricately addresses the strategic planning and optimization of deep foundation elements essential for supporting structures in challenging soil conditions.
Through a blend of static and dynamic analyses, we determine the most suitable type, size, and spacing of piles, all meticulously aligned with the project’s load-bearing requirements and subsurface intricacies. Our expertise includes various pile types such as driven piles, drilled shafts, or auger-cast piles, each customized to precisely meet the distinctive demands of every project.
Ground Improvement Design
Ground improvement design is a crucial facet of geotechnical engineering, addressing challenges related to weak or variable soil conditions to enhance the overall stability and performance of construction projects.
With more than a decade of experience in providing engineered ground improvement solutions, our design team implement ground improvement measures such as soil compaction, grouting—including, techniques like Vibrocompaction, and Vibroreplacement. These techniques are aimed at strengthening the soil, reducing settlement, and increasing load-bearing capacity.
Our ground improvement designs undergo thorough analysis and validation to ensure effectiveness and compliance with industry standards. Whether for foundations, embankments, or other geotechnical applications, our commitment to precision in ground improvement design contributes to the resilience and success of construction projects.
Shoring Design
Shoring design is very crucial technique used in construction to ensure workers safety and structure stability. It serves as the foundation for most construction projects, providing support, stability, and protection against various structural stresses and earth instabilities. Using state-of-the-art software and engineering expertise, our team designs shoring systems tailored to the specific needs of each project. This includes selecting appropriate materials, such as sheet piles, soldier beams, or retaining walls, and optimizing their configuration for maximum stability.
Our shoring designs undergo rigorous validation through analytical methods and, when applicable, physical testing to ensure they meet safety standards and project specifications.
