WHERE DESIGN AND COSTS ARE PROFESSIONALLY MANAGED
GeMech own and maintain a diverse fleet of specialist plant.
Providing detailed tender stage design, allowing the most economic pile solution and cost effectiveness.
GeMech offer a wide variety of piling and ground improvement options to best suit your project.
GeMech offer a full range of founding and piling solutions, including bored piling, percussively drilled piling, CFA piling , SFA piling and driven piling, piled retaining walls, vibro stone piled columns and dynamic compaction.
Continuous Flight Auger Piling (CFA Piling) is a method of installing piles by rotating a hollow auger into the ground. The auger is then withdrawn, leaving a hole that is filled with concrete. This method is suitable for a wide range of ground conditions and is often used for residential, commercial, and industrial projects.
Steel Cased Bottom Driven Piles are a type of pile that is driven into the ground using a hammer. The pile is encased in a steel casing, which helps to protect the pile from damage during installation. This method is suitable for a wide range of ground conditions and is often used for large infrastructure projects.
Contiguous Piled Walls are a type of retaining wall that is constructed using a series of piles that are driven into the ground side-by-side. The piles are then connected together to form a continuous wall. This method is suitable for a wide range of ground conditions and is often used for basement construction and other projects where a strong retaining wall is required.
Secant Piled Walls are a type of retaining wall that is constructed using a series of piles that are driven into the ground at an angle to each other. The piles are then connected together to form a continuous wall. This method is suitable for a wide range of ground conditions and is often used for basement construction and other projects where a strong retaining wall is required.
King Post Walls are a type of retaining wall that is constructed using a series of piles that are driven into the ground at an angle to each other. The piles are then connected together to form a continuous wall. This method is suitable for a wide range of ground conditions and is often used for basement construction and other projects where a strong retaining wall is required.
ODEX Piling is a method of installing piles by using a special drilling rig that rotates a hollow auger into the ground. The auger is then withdrawn, leaving a hole that is filled with concrete. This method is suitable for a wide range of ground conditions and is often used for residential, commercial, and industrial projects.
Mini/Restricted Access Top Driven Pre-Cast Piles are a type of pile that is driven into the ground using a hammer. The pile is pre-cast and is typically used in areas where space is limited. This method is suitable for a wide range of ground conditions and is often used for residential, commercial, and industrial projects.
Ground Improvement Solutions are a range of techniques that are used to improve the strength and stability of the ground. These techniques can be used to reduce the risk of settlement, improve drainage, and increase the load-bearing capacity of the ground. Some common ground improvement techniques include vibro stone columns, dynamic replacement, and dynamic compaction.
Vibro Stone Columns are a type of ground improvement technique that is used to improve the strength and stability of the ground. This technique involves using a vibro-compactor to compact a column of stone into the ground. The stone column acts as a reinforcement, improving the load-bearing capacity of the ground.
Dynamic Replacement is a type of ground improvement technique that is used to improve the strength and stability of the ground. This technique involves using a heavy hammer to drive a column of granular material into the ground. The granular material acts as a reinforcement, improving the load-bearing capacity of the ground.
Dynamic Compaction is a type of ground improvement technique that is used to improve the strength and stability of the ground. This technique involves using a heavy hammer to compact the ground. The compaction process improves the density of the ground, increasing its load-bearing capacity.