elical piles come in a variety of types and sizes, giving engineers and contractors flexibility to find the best solution for a project based on soil type and site conditions. Since the A.B. Chance Company started making helical anchors in 1912, engineers have been innovating and improving the technology to suit a broad range of applications.
The four main types of helical piles that Chance has developed and still manufactures today are:
Engineers and contractors are encouraged to use square shaft helical piles as much as possible due to their advantages with torque correlation efficiency and better penetration in dense soil. Square shaft piles have the lowest cost per capacity at load ranges 50 kip or less. Ultimate capacity ranges from 55 kip to 200 kip depending on shaft size. They transfer load to the soil in end-bearing via the helix plates at the pile tip. Square Shaft is the most effective shaft type to maximize bearing capacity on the helix plates. It is the best choice for tension only loads.
It is important to remember that square shaft is solid, not hollow. It is manufactured from grade 70 for SS5 and grade 90 steel bar for SS150, SS175, SS200, and SS225. If the geotechnical report declares the corrosion potential is moderate to severe, the solid cross section and low perimeter surface area of a square shaft helical pile is the best choice.
Square shaft has the highest torque correlation factor of any other shaft type. Torque correlation means that it is generally accepted that the installation torque of helical piles can be used to verify their axial capacity. Read more about torque correlation in this article.
Square Shaft Product Ratings
(complete ratings available in section 7 of the Chance Technical Design Manual)
|
Product Series |
Shaft Size Across Flats |
Diagonal Length |
Kt Value |
Torque |
Ultimate Compression Capacity |
|
SS125 |
1.25 (32) |
1.66 (42) |
10 |
4,000 (5 400) |
40 (178) |
|
SS5 |
1.5 (38) |
1.91 (49) |
10 |
5,700 (7 730) |
57 (254) |
|
SS150 |
1.5 (38) |
1.91 (49) |
10 |
7,000 (9 500) |
70 (312) |
|
SS175 |
1.75 (44) |
2.27 (58) |
10 |
10,500 (14 240) |
105 (467) |
|
SS200 |
2.0 (51) |
2.57 (65) |
10 |
16,000 (21 700) |
160 (712) |
|
SS225 |
2.25 (57) |
2.93 (74) |
10 |
21,000 (28 475) |
210 (934) |
Square shaft piles are the easiest to install with relatively small installation equipment. They are the most efficient helical pile to install and are the best penetrators in dense soil.
Square shaft helical piles have slender cross sections, meaning they can’t resist much lateral load. Shaft buckling is a concern for square shaft in very soft soils, when other shaft types are a better choice. When the soil surrounding the shaft is firm, shaft buckling is not a problem, but square shaft should not be used for compression in very soft soils or when the helical pile is expected to resist lateral load passively.
In summary, square shaft should always be considered first because it is the easiest shaft type to install, provides the highest torque correlation factor, and is the most cost effective for loads up to 50 kip.
Pipe shaft, compared to square shaft, is hollow and has more perimeter surface area relative to the cross-sectional area of steel, which means that it is not the best choice for corrosive soils without additional means of corrosion protection, such as coatings.
Round shaft piles are an excellent solution for applications in soft soils requiring considerable lateral resistance or when buckling concerns exist. Extendable, they can be installed as deeply as necessary to reach the required load bearing stratum in soil.
|
Product Series |
Shaft Diameter inch (mm) |
Wall Thickness inch (mm) |
Kt Value |
Torque Rating |
Ultimate Compression Capacity |
|
RS2875.203 |
2.875 (73) |
0.203 (5) |
9 |
6710 (9098) |
60.4 (269) |
|
RS2875.276 |
2.875 (73) |
0.276 (7) |
9 |
8000 (10 847) |
72 (320) |
|
RS3500.300 |
3.5 (89) |
.300 (8) |
7 |
13,000 (17 626) |
91 (405) |
|
RS4500.237 |
4.5 (114) |
.237 (6) |
6 |
18,000 (24 405) |
108 (480) |
|
RS4500.337 |
4.5 (114) |
.337 (9) |
6 |
25,000 (33,900) |
150 (667) |
Try HeliCAP® helical capacity design software to calculate the capacity of different pile types in your custom-input soil profile. Create your free account online at www.hpsapps.com/helicap.
Combo piles “combine” the advantages of square shaft and pipe shaft piles. Square shaft offers the most efficient penetration into firm, hard, or dense soil. The pipe shaft extensions that follow provide stability against columnar buckling in soft soils or when the shaft is exposed at the surface. Pipe shaft extensions also provide lateral capacity that square shaft cannot. Combo Piles also provide higher torque correlation factors compared to straight pipe shaft helical piles.
Combo piles are limited to the torque strength of the lowest rated shaft element, which is usually the square shaft lead section, but not in all cases. No tooling change is required – just add the tapered coupler between the square and pipe shaft and then proceed installing pipe shaft extensions until installation is completed.
Since pipe shaft piles have to displace a little bit more soil than the square bar does, it takes more energy to overcome that friction, which means the torque-to-capacity relationship is not as efficient as square shaft. When you combine them, you get maximum bearing strength or capacity with the square shaft, plus the larger section of the pipe minimizes any concerns about buckling and provides lateral capacity.
|
Product Series |
Torque Rating |
Kt |
|
SS5 square shaft to |
5,700 (7728) |
9.5 |
|
SS150 square shaft to |
7,000 (9491) |
9.5 |
|
SS150 square shaft to |
7,000 (9491) |
9.5 |
|
SS175 square shaft to |
8,000 (10 847) |
9.5 |
|
SS175 square shaft to |
10,500 (14 236) |
8.5 |
|
SS200 square shaft to |
13,000 (17 626) |
8.5 |
|
SS200 square shaft to |
16,000 (21 693) |
7 |
|
SS225 square shaft to |
21,000 (28 472) |
7 |
The grout column provides additional capacity from friction along the sides of the shaft in contact with the soil. Grout fills the void created as the pile advances. The grout column provides additional resistance to corrosion. Displacement piles are often used when design loads exceed about 60 kip.
One type of displacement pile is called the Helical Pulldown™ Micropile. This video shows an installation of this type of pile:
The installation process can employ grout only, or grout in combination with steel or PVC casing. The result is a helical pile with a composite steel/grout section that is similar drilled and grouted Micropiles or auger cast-in-place piles. Ultimate capacity ranges from 55 kip to 430 kip depending on shaft type and size. Ultimate lateral capacity with steel casing ranges between 3 kip and 15 kip.
Displacement piles are used to prevent columnar buckling in very soft or loose soil, especially when used with square shaft material. In addition, the grout column increases axial capacity with side resistance via skin friction on the shaft above the helix plates. The grout column also increases the “axial stiffness” of the pile, which means the pile will support load with less settlement. Displacement piles with square shaft material has the lowest cost per capacity in most situations at load ranges above 50 kip.
Disadvantages include possible refusal in dense or obstruction-laden soil and increased cost with the inclusion of labor and material for the grout.
If you have any questions for our engineering team about which shaft type would be best for your application, reach out to us at civilconstruction@hubbell.com.