Vibro-compaction for ground improvement
Contents |
[edit] Introduction
Vibro-compaction is a ground improvement technique that can be used to transfer structural loads to suitable levels in poor ground conditions. The effect of vibration consolidates and strengthens the ground, helping to compact non-cohesive soils such as sand that would otherwise be unsuitable for construction. Since cohesive soils don’t respond to vibration, this process is not suitable for those ground conditions.
It can be a cost-effective alternative to piled foundations and grouting and can be used for structures such as buildings, embankments, dams, tanks, towers and so on. However, the site must be large enough to accommodate and justify the plant that is required. By consolidating loose sands before construction of raft foundations, this method may be more economical than piling.
Another similar method is vibro-replacement.
[edit] Technique
Vibro-compaction works by using a vibrator suspended from a crane to penetrate to the design depth. Water jetting is often used to aid penetration. The energy of the vibrations reduces the forces acting between the soil particles which allows them to become denser.
Once the depth has been achieved, the water pressure (if jets are used) is reduced and sand infill poured in from ground level around the vibrator, compacting at the base. As more infill is added and compacted the vibrator is gradually removed until the infill has been built up to ground level.
Vibro-compaction can be used in loose soils of up to 29 metres in depth, and enable shallow foundations to be built with bearing pressures of up to 500 kN/m2.
[edit] Related articles on Designing Buildings Wiki
- Driven piles.
- Geothermal pile foundations.
- Ground improvement techniques.
- Grouting in civil engineering.
- Micropiles.
- Pile foundations.
- Retaining walls.
- Screw piles.
- Soil compaction.
- Types of roller.
- Underpinning.
- Vibro-replacement.
[edit] External references
- ‘Introduction to Civil Engineering Construction’ (3rd ed.),HOLMES, R. (1995), The College of Estate Management
- Hayward Baker – Vibro-compaction
Featured articles and news
HSE simplified advice for installers of stone worktops
After company fined for repeatedly failing to protect workers.
Co-located with 10th year of UK Construction Week.
How orchards can influence planning and development.
Time for knapping, no time for napping
Decorative split stone square patterns in facades.
A practical guide to the use of flint in design and architecture.
Designing for neurodiversity: driving change for the better
Accessible inclusive design translated into reality.
RIBA detailed response to Grenfell Inquiry Phase 2 report
Briefing notes following its initial 4 September response.
Approved Document B: Fire Safety from March
Current and future changes with historical documentation.
A New Year, a new look for BSRIA
As phase 1 of the BSRIA Living Laboratory is completed.
A must-attend event for the architecture industry.
Caroline Gumble to step down as CIOB CEO in 2025
After transformative tenure take on a leadership role within the engineering sector.
RIDDOR and the provisional statistics for 2023 / 2024
Work related deaths; over 50 percent from construction and 50 percent recorded as fall from height.
Solar PV company fined for health and safety failure
Work at height not properly planned and failure to take suitable steps to prevent a fall.
The term value when assessing the viability of developments
Consultation on the compulsory purchase process, compensation reforms and potential removal of hope value.
Trees are part of the history of how places have developed.