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Deep Excavation Software

DeepEX 2017 talk to it and design your deep excavation!

New Deep Foundation Software

DeepFND - Deep Foundation Software, caissons, CFA, drilled piles, driven piles, concrete, timber

 

New helical pile software HelixPile

3rd Series

Four free deep excavation design webinars.

Optimization of deep excavations.

Mar 11th - 2015

Participation limited 500/webinar

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Free Helical Pile Design Webinars:

To be announced
Try our free 30 day trials for deep excavation software, for soldier piles, sheet pile walls, tiebacks etc.
Our Software Solutions
DeepFND 2017: Deep Foundation software (NEW!)
DeepEX 2017: Deep Excavation software
Soldier pile walls
Sheet pile walls
Secant pile Walls
Tangent piles
Diaphragm Walls
Soldier and Tremied Concrete
Soil Mix walls
Combined king pile sheet piles
Slope stability
Cost estimation for braced excavations
Waler-Strut Cofferdams
SnailPlus: Soil nailing - soil nailing walls
SiteMaster: Inclinometer software (adopted by Geokon)
HelixPile: Helical Pile Software
RC-Solver: Concrete Design ACI-318, EC2, EC8
Steel-Beam: Steel beam column design, full equations, AISC, EC3

Geotechnical Engineering - New York - New Jersey

Geotechnical engineering is a civil engineering discipline concerned with the engineering behavior of earth materials. Geotechnical engineering includes the investigation of existing subsurface conditions and materials and the determinination of their physical/mechanical and chemical properties that are relevant to the project considered.

The above geotechnical data are then assessed for risks posed by site condition and used in designing earthworks, structure foundations. A proper geotechnical investigation will also aid in properly indentifying critical points to monitor during earthwork and foundation construction.

A geotechnical engineering project begins with the review of project needs to define the required material properties and the site tests. A site investigation of soil, rock, fault distribution and bedrock properties on and below an area of interest to determine their engineering properties including how they will interact with, on or in a proposed construction will follow. Geotechnical site investigations are almost always needed in major projects and help gain an understanding of the project area. Soil and rock samples are typically collected with a dril rig and appropriate samplers. The soil samples are then transported to a geotechnical laboratory where a number of geotechnical tests are carried out. In situ tests typically include the Standard Penetration Test and the Cone Penetrometer Test.

Investigations typically include the assessment of the risk to humans, property and the environment from natural hazards such as earthquakes, landslides, sinkholes, soil liquefaction, debris flows and rock falls.

Based on the test and in-site (in-situ) tests an engineer can design all required foundations, earthworks, pavement subgrades, etc. Such foundations may be constructed for various size structures such as deep basements, high-rise buildings, bridges, medium to large commercial buildings.

Foundations built for above-ground structures include shallow and deep foundations. Retaining structures include earth-filled dams and retaining walls. Earthworks include embankments, tunnels, dikes, levees, channels, reservoirs, deposition of hazardous waste and sanitary landfills.

Geotechnical engineering is also critical in the successful design and construction of wharves, marinas, and jetties. Ocean engineering can involve foundation and anchor systems for offshore structures such as oil platforms.

Deep Excavation LLC provides competitive geotechnical engineering services for any sized project. We are licensed in the US and in Europe. Through our associate network we can extend our services all arround the world to meet your needs.

Please contact us for more information

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