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Facts About Micropiles

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Published on:
07/16/2018

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Admin

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Deep foundation systems 
Drilling equipment 
Installation of micropiles 
Install micropiles 
Johnathan Bennett 
Maloney Construction 
Micropile 
Micropile axial 

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A micropile has a small diameter, typically less than 300 mm, drilled and grouted non-displacement pile which is heavily reinforced and carries most of its loading on the high capacity steel reinforcement. 

Micropiles can be installed at various angles from vertical and are capable of resisting both axial and lateral loads. The unique structural makeup of micropiles has an effect on the way in which they develop their load resistance and how they behave in response to these loads at various inclinations, according to Johnathan Bennett, PE, D.G.E and the author of a blog about micropiles. 

At Maloney Construction, we are called upon to install micropiles in a variety of applications, particularly where resistance to uplift is needed in addition to resisting compression or gravity loads.

Micropiles develop their axial capacity primarily through the bond between grout and soil or rock in the bonded zone of the pile. Because of this, micropiles provide both tension and compression resistance thus making them useful With the majority of micropile axial load being resisted by steel casing or internal reinforcing core, micropiles exhibit relatively high axial stiffness and are capable of resisting large axial loads. 

Because of the installation methods (down-hole hammer and rotary-percussive drilling) and equipment used, micropiles can be installed in soil and rock conditions where the use of other conventional deep foundation systems are not a reasonable alternative, such as where modest subsurface obstructions or boulders are present, for example. Micropiles can be installed through modest obstructions and boulders that would be problematic for installation of helical piles, driven piles, drilled shafts or augercast piles. They can also be drilled into pinnacled rock where achieving acceptable anchorage or bearing for other deep foundation types might be questionable.

Micropiles can be easily installed in caving soils and below the water table by either using casing or hollow bar micropile installation methods. Caving soils and elevated water can be problematic for deep foundation systems that rely on open hole drilling such as drilled shafts.

Compact and low headroom drilling equipment is available such as to make installation of micropiles possible in low-headroom or limited space applications where the installation of other types of conventional deep foundation systems is not possible. Examples of this are applications where supplemental foundation support is required in basements or areas with overhead restrictions or otherwise small or space restricted areas where relatively large equipment cannot fit.

The drilling and installation equipment used for micropiles does not produce an amount of vibration that would be harmful to structures as opposed to driven piles which can produce magnitudes of vibration that have the potential for causing settlement of adjacent structures resulting in structural damage. For this reason micropiles are well suited for use in close proximity to existing structures.

Micropiles are ideal for retrofit applications in that they can easily be installed through a core drilled hole in an existing foundation or footing and anchored to the existing foundation for load transfer.

Maloney Construction has a proven track record of quality and cost effective projects. We owe this record to our commitment to the team concept of project management. We work closely with builders, contractors, architects, engineers, and owners, because we feel that communication is the key element in the success of a construction project. The free flow of detailed information between all parties is essential to that goal.

Sources: Wikipedia and Micropile.org

 

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