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DIP | Capability and Environmental Impact

45° inclination
Excavator adjustability combined with tube and joint rigidity enable DIPs to be driven at angles up to 45°, exponentially expanding the range of pile uses.

Minimal ground disturbance
DIP driving is low vibration, allowing piles to be placed in close proximity to existing structures and foundations, or other piles.

The DIP system displaces and compacts the soil,
hence improving its characteristics.

Ground heave is virtually non-existent.


Welcome to the DIP revolution!
Welcome to the DIP revolution! We invite you to review our presentation and discover this innovative, flexible, and cost effective foundation technology.
Huge Cost Savings with DIP
CMS has proven 
that DIP provides huge potential cost savings of up to 70% of the value 
of traditional precast or steel encased concrete piling.
DIP Capability and Environmental Impact
Ductile iron Piles can be driven at angles up to 45°, exponentially expanding the range of pile uses. They produce minimal ground disturbance even in close proximity to existing structures.
DIP Engineering
The Plug&Drive© DIP pile system's precision engineering consists of self locking joints,
 built for durability, consistency, strength and ease of installation.
Mobility and Adaptability
The Plug&Drive© DIP pile system's mobility and adaptability is due to compact,
 lightweight equipment and a comprehensive array of well designed accessories.
Dry Driven for Skin Friction Piles
Dry Driven for Skin Friction Piles is a technique is used with deep soft soil 
where it is impractical to find firm bedrock.
Dry Driven for End Bearing Piles
End Bearing Ductile Iron Piles are ‘Dry Driven’ into the ground until they reach practical refusal. Fast and cost effective to install in areas of bedrock or very dense, cohesive strata.
Grouted Annulus for Skin Friction Piles
Grouted Annulus for Skin Friction Piles is a simultaneous driving and grout injection method to install DIPs, creating skin friction and corrosion protection.

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