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
Change of use legislation breaths new life into buildings
A run down on Class MA of the General Permitted Development Order.
Solar generation in the historic environment
Success requires understanding each site in detail.
Level 6 Design, Construction and Management BSc
CIOB launches first-ever degree programme to develop the next generation of construction leaders.
Open for business as of April, with its 2026 prospectus and new pipeline of housing schemes.
The operational value of workforce health
Keeping projects moving. Incorporating unplanned absence and the importance of health, in operations.
A carbon case for indigenous slate
UK slate can offer clear embodied carbon advantages.
Costs and insolvencies mount for SMEs, despite growth
Construction sector under insolvency and wage bill pressure in part linked to National Insurance, says report.
The place for vitrified clay pipes in modern infrastructure
Why vitrified clay pipes are reclaiming their role in built projects.
Research by construction PR consultancy LMC published.
Roles and responsibilities of domestic clients
ACA Safety in Construction guide for domestic clients.
Fire door compliance in UK commercial buildings
Architect and manufacturer gives their low down.
The new towns and strategic environmental assessments
12 locations of the New Towns Taskforce reduced to 7 within the new towns draft programme and open consultation.
Buildings that changed the future of architecture. Book review.