Home Improvement

Types of Piling

Every building’s stability and resilience depend on its foundation. KHB piling is a tried-and-true method for reinforcing the foundation of your home or other structure.

It requires constructing a deeper foundation that transfers the weight of the structure to deep layers in the soil. A competent piling contractor can do the job safely and effectively.

Mini piling

Mini piling is a relatively new foundation reinforcement method that can be used to help transfer the weight of a building to the ground beneath. It is especially effective for areas that require low-headroom, and it can be used on a variety of different soil types.

Mini piles are a great alternative to standard piles due to their compact size and lightweight nature. They can also be installed in spaces where conventional piles would not work, making them an ideal option for any construction project.

The main advantage of mini piling is that it uses less concrete and steel, which can help decrease costs and minimize the impact on the environment. This makes it an excellent foundation option for projects that are seeking to reduce their carbon footprint.

Bored piles are a popular foundation technique that can be installed quickly and without disrupting traffic or neighboring structures. They also have good load-bearing capacity and can be placed in almost any type of ground.

Helical piles

Helical piles are a type of foundation anchor that can be used for a variety of applications. They can be installed in a variety of soil types and conditions, making them a popular option for construction projects.

The design process for a helical pile requires a detailed understanding of the subsurface conditions and the necessary load-bearing capacity. A professional geotechnical engineer will perform a soil assessment and design calculation for your project.

After this, the engineer will recommend a helical pile configuration that is suitable for your project needs. They will also help determine if cross bracing or battered piles are necessary for your project.

Once the helical pile is installed, it should be checked to ensure it meets the required depth and torque requirements. This is important because if the helical pile isn’t installed properly, it can cause the entire structure to sink down and fail.

Sheet piles

Sheet piles are long sections of steel that are driven into the ground to provide earth retention and excavation support. They are typically used for retaining walls, land reclamation, underground structures and in marine locations to protect riverbanks or seawalls.

Sheet piling is made from a number of materials including steel, concrete and timber. It is usually constructed with an interlocking system which facilitates easy positioning and driving as well as providing a close-fitting joint to form an effective water seal.

It provides high resistance to driving stresses and can be reused on several projects. It can also be drilled to increase length either by welding or bolting.

They are relatively light in weight making them easy to lift and handle, and can be adjusted to suit the project requirements. They require only a little maintenance above and underwater.

They can be installed using a silent and vibration-free method, saving on noise disturbance and environmental pollution. This allows the public to be protected and corporate social responsibility to be met.

Driven piles

Driven piles are pre-manufactured structural shapes made from steel, concrete, or timber that are installed by impact hammering, vibrating or pushing them into the ground until the required depth or resistance is reached. They are commonly used as deep foundation elements in commercial, industrial, infrastructure and off-shore projects.

They are built to precise tolerances using high-strength materials and reliable quality control. They are typically inspected prior to installation to verify integrity.

In order to withstand handling stresses during transportation and installation, precast or prestressed concrete piles must be adequately reinforced. Depending on the exact length required, splicing or cutting techniques may be necessary to ensure they are not damaged.

They are well suited to difficult site conditions, such as when driven through water, creating temporary working platforms, or in large diameter form in earthquake prone regions. They also require no special coatings or delays related to concrete curing and can be adapted for different subsurface conditions.

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