Hudson Yards – New York, NY


Micropiles are small diameter, bored cast-in-place piles, with most of the applied load being resisted by steel reinforcement. They are constructed by drilling a borehole, often using casing, then placing steel reinforcement and grouting the hole. Micropiles have a wide range of uses and are becoming a more mainstream method of supporting and resupporting foundations, seismic retrofits, stabilization of slopes and even earth retention.

Micropiles are usually designed in small clusters or groups with each typically carrying an equal amount of load. These piles may also be designed with a batter to improve the lateral rigidity of the group. They can be designed to resist a combination of compression, tension and lateral forces.

Micropiles are an ideal pile for complex sites where low vibration or low noise levels are required, or where limited access such as low headroom and drilling is difficult. Other site conditions that make micropiles attractive are: obstructions, large cobbles or boulders, nearby sensitive structures, karst topography or high groundwater conditions. The unique characteristics of micropiles make them a perfect solution when other deep foundation methods are not suitable.


  • Creates a pile with a relatively high axial load capacity
  • Works in compression and tension
  • Lightweight rotary percussive equipment can be used
  • Easily installed within confined spaces
  • No harmful vibrations or noise to surrounding structures
  • Minimal spoil generation on contaminated sites


Hollow Bars: Micropiles

Micropiles produced with hollow bars have been well proven and are widely accepted in private and public works in the United States. After extensive research, the system has been accepted by the Federal Highway Administration (FHWA).

In collapsing soils, the use of hollow bars to produce micropiles is ideal. Where open hole drilling may be limited in depth or temporary casing is required, hollow bars offer a single step process of grouting and reinforcing. In addition, higher values of ground to grout bond have resulted from the use of this method. The smaller, and often less expensive equipment, used with the hollow bar system allows for lower project costs and makes it easier for less specialized general contractors to use. This system is also perfect in sites with limited access or low headroom.


  • Works in compression and tension
  • Potential for very high production rates
  • The most efficient form of micropile in confined spaces
  • Hollow bars form smaller pile groups
  • Grouting while drilling provides a potential for densification of insitu soils