Helical Piles - Everything You Need to Know - Civil & Structural Engineering

Q: 1. What is a helical pile?

A helical pile is a steel shaft with helical plates that is screwed into the ground to provide support for structures by transferring loads to more stable soil.

Q: 3. How much does helical piling cost?

Helical pile installation typically costs between $150 and $300 per pile , depending on factors like soil conditions, pile length, and load requirements.

Q: 4. What is the lifespan of a helical pile?

Helical piles have a lifespan of 75+ years , especially when constructed with corrosion-resistant materials like galvanized steel.

Q: 5. Can you build a house on helical piles?

Yes, helical piles are frequently used for residential construction, especially in areas with poor soil conditions or high water tables.

Q: 6. Can helical piles be removed?

Yes, helical piles can be removed and reused, making them a flexible and eco-friendly foundation option for temporary structures.

Q: 7. Are helical piles better than concrete?

For deep foundations, helical piles are often more cost-effective, faster to install, and less invasive than concrete, especially in difficult soil conditions.

Q: 8. Do helical piles settle?

Properly installed helical piles do not settle significantly, as they anchor deep into stable soil or bedrock.

Helical piles, also known as helical piers or screw piles, are a trusted solution in modern foundation engineering. They are cost-effective, easy to install, and can be used in a wide range of soil conditions, making them ideal for both new constructions and foundation repairs.

This guide covers everything about helical piles, including their installation, cost, types, and comparison to other foundation methods like concrete. We will also explore helical pile foundation details and why they are becoming the go-to choice for various structural projects in the USA. So, let’s get started! 🚀

What Are Helical Piles? 🤔

Helical piles are steel shafts fitted with helical plates (or blades) that screw into the ground. The helical design helps the pile to efficiently transfer loads from the structure it supports into the stable soil or bedrock below. Helical piles are widely used for deep foundations in structures where the surface soil is too weak to support the load.

They are used in a range of projects, from residential homes to large commercial buildings, solar installations, and bridges.

History of Helical Piles 🏛️

Helical piles were first invented in the early 1830s by engineer Alexander Mitchell, primarily for use in marine construction to anchor lighthouses and docks. Since then, their use has expanded due to their versatility and efficiency. They have become a widely accepted deep foundation solution across the USA, especially in areas with poor soil conditions.

Types of Helical Piles 🔄

Helical piles come in different designs and configurations to suit various structural needs. The main types include:

Type of Helical Pile	Description	Application
Round Shaft Helical Piles	Designed with a solid round steel shaft, these are used in areas with softer soils.	Ideal for tension applications, bridges, and towers.
Square Shaft Helical Piles	Made with a square-shaped shaft, these piles provide more torque and are used in denser soils.	Suitable for compression applications.
Combination Helical Piles	These use a combination of both round and square shafts for optimal strength and durability.	Great for projects needing both tension and compression load support.
Helical Grouted Piles	Helical piles that are combined with grouting for added capacity in weak soils.	Used in areas with very soft or loose soil.

Key Differences:

Round Shaft piles offer greater resistance to bending and are ideal for areas with variable or soft soils.
Square Shaft piles are more suitable for compact, rocky soils due to their higher torque capacity.
Combination piles are a versatile option for projects needing both compression and tension support.
Grouted piles provide additional lateral support and are often chosen for areas with very poor soil conditions.

Helical Piles Installation 🔧

The installation process for helical piles is both efficient and quick, making them a preferred option over traditional deep foundations like concrete piers or driven piles. Here are the installation steps in detail:

1. Site Evaluation and Design

Before installation, engineers assess soil conditions to determine the appropriate helical pile size, length, and configuration. This is critical for ensuring the pile will handle the load effectively.

2. Positioning the Pile

Once the design is finalized, the piles are positioned at the designated points on the foundation plan. This can be done manually for small projects or using a GPS system for larger sites.

3. Driving the Piles

The helical piles are driven into the ground using a hydraulic rotary drive attached to an excavator or a skid steer. The helical plates help the pile cut through the soil while creating a secure anchor as it screws deeper into the ground.

4. Torque Monitoring

During installation, torque readings are continuously monitored. These readings ensure that the pile is installed to the correct depth and has sufficient load-bearing capacity. The higher the torque, the more resistance the soil provides, which indicates a stronger foundation.

5. Load Testing

After installation, load testing may be performed to confirm the pile’s ability to support the specified load. This testing ensures that the foundation meets all engineering standards for safety and performance.

Helical Pile Foundation Details 🏠

Helical piles are versatile and can be used for various types of foundations, whether in residential, commercial, or industrial projects. Here are the key foundation details:

Depth: Helical piles are typically installed to depths ranging from 10 to 60 feet, depending on the soil conditions and load requirements.
Load Capacity: Helical piles can support loads ranging from 25 to over 200 tons, making them suitable for both light residential structures and heavy industrial applications.
Shaft Design: The piles are made from galvanized or epoxy-coated steel, offering protection against corrosion and ensuring a long service life.
Connection to Structure: After the piles are installed, they are connected to the structure using brackets or pile caps, which distribute the loads from the building into the pile.

Cost of Helical Piles 💵

The cost of helical piles can vary based on several factors:

Factor	Impact on Cost
Soil Conditions	Challenging soil requires deeper piles, raising costs.
Pile Length	Longer piles increase material and installation costs.
Load Requirements	Higher loads require larger and more expensive piles.
Site Accessibility	Difficult-to-reach areas may require specialized equipment.

On average, helical pile installation costs between $150 and $300 per pile, including materials and labor. For residential foundation work, the total project cost can range from $3,000 to $10,000, depending on the size and scope of the project.

Cutting Length Calculation for Spiral Reinforcement Cage/Helical Piles

This guide explains the simple process for calculating the cutting length of spiral or helix reinforcement in pile design and determining the steel quantity.

Purpose of Pile Cages

Increase strength of vertical concrete columns, especially in weak soil or deep foundations.
Vary based on column size, application, and design.
Can be pre-fabricated or assembled on site.

Data for Calculation

Diameter of pile: 1.5 m
Depth of pile: 20 m
Pitch of spirals: 100 mm (0.1 m)
Diameter of spiral bar: 12 mm
Concrete cover: 50 mm (0.05 m)

Steps for Calculation

1. Net Diameter of Spiral

$\text{Net Diameter} = \text{Total Diameter} - 2 \times \text{Concrete Cover}$

$\text{Net Diameter} = 1.5 - 2 \times 0.05 = 1.4 \, \text{m}$

2. Circumference of One Spiral

$\text{Circumference} = \pi \times \text{Net Diameter}$

$\text{Circumference} = 3.1416 \times 1.4 = 4.4 \, \text{m}$

3. Number of Spirals

$\text{Number of Spirals} = \frac{\text{Depth of Pile}}{\text{Pitch}} + 1$

$\text{Number of Spirals} = \frac{20}{0.1} + 1 = 201$

4. Total Cutting Length

$\text{Total Length} = \text{Circumference of One Spiral} \times \text{Number of Spirals}$

$\text{Total Length} = 4.4 \times 201 = 884.4 \, \text{m}$

Steel Quantity Calculation

Unit Weight of 12 mm Diameter Bar

$\text{Unit Weight} = \frac{d^2}{162}$

$\text{Unit Weight} = \frac{12^2}{162} = 0.888 \, \text{kg/m}$

Total Steel Quantity

$\text{Steel Quantity} = \text{Total Length} \times \text{Unit Weight}$

$\text{Steel Quantity} = 884.4 \times 0.888 = 785.35 \, \text{kg}$

Summary Table

Parameter	Value
Diameter of pile	1.5 m
Depth of pile	20 m
Pitch of spirals	0.1 m
Diameter of spiral bar	12 mm
Concrete cover	50 mm
Net diameter of spiral cage	1.4 m
Circumference of spiral	4.4 m
Number of spirals	201
Total cutting length	884.4 m
Unit weight of 12 mm bar	0.888 kg/m
Total steel weight	785.35 kg

Helical Piles vs. Screw Piles ⚖️

Helical piles and screw piles are often used interchangeably, but there are some distinctions to keep in mind. Here’s a quick comparison:

Feature	Helical Piles	Screw Piles
Application	Used for deeper foundations and heavy structures.	More suited for lighter loads and smaller projects.
Installation Depth	Typically installed deeper (10 to 60 feet).	Usually installed at shallower depths.
Load Capacity	Higher load capacity, often over 200 tons.	Suitable for lighter loads, up to 25-30 tons.
Construction Time	Fast installation with minimal soil disturbance.	Quick for smaller, simpler structures.

While both systems offer efficient solutions, helical piles are often chosen for larger projects where greater load capacity is required, whereas screw piles may be sufficient for smaller, lighter structures.

Advantages and Disadvantages of Helical Piles

Advantages ✅

Quick Installation: No need for excavation or curing time.
Less Environmental Impact: Minimal disturbance to surrounding soil.
Versatility: Suitable for a wide variety of soil types and projects.
Cost-Effective: Generally cheaper than deep concrete foundations.
Immediate Load-Bearing: No waiting period after installation.

Disadvantages ❌

Not Suitable for Rocky Soil: Dense, rocky ground can make installation difficult or impossible.
Specialized Equipment: Requires access to hydraulic rotary equipment, which may not be available in all locations.

FAQs About Helical Piles

1. What is a helical pile?

A helical pile is a steel shaft with helical plates that is screwed into the ground to provide support for structures by transferring loads to more stable soil.

2. What are the disadvantages of helical piles?

Helical piles may not be suitable for very dense or rocky soils, and they require specialized installation equipment, which can sometimes limit accessibility.

3. How much does helical piling cost?

Helical pile installation typically costs between $150 and $300 per pile, depending on factors like soil conditions, pile length, and load requirements.

4. What is the lifespan of a helical pile?

Helical piles have a lifespan of 75+ years, especially when constructed with corrosion-resistant materials like galvanized steel.

5. Can you build a house on helical piles?

Yes, helical piles are frequently used for residential construction, especially in areas with poor soil conditions or high water tables.

6. Can helical piles be removed?

Yes, helical piles can be removed and reused, making them a flexible and eco-friendly foundation option for temporary structures.

7. Are helical piles better than concrete?

For deep foundations, helical piles are often more cost-effective, faster to install, and less invasive than concrete, especially in difficult soil conditions.

8. Do helical piles settle?

Properly installed helical piles do not settle significantly, as they anchor deep into stable soil or bedrock.

Conclusion

Helical piles provide a fast, cost-effective, and long-lasting foundation solution for a wide range of construction projects. Whether you’re building a house, repairing a foundation, or embarking on a large commercial project, helical piles offer a versatile and reliable option. With their ease of installation and durability, they are quickly becoming a preferred choice in the USA for modern foundations. 😊