Piling Records
The rig-by-rig, pile-by-pile log of driven or bored piles — depths, sets, torques, concrete volumes and rejections — that forms the primary evidence of a foundation's integrity.
Definition
Piling records are the pile-by-pile field log that documents exactly what happened at each foundation element the moment it went into the ground. Depths, sets, driving energies, torques, concrete volumes, cage lengths, tremie withdrawals, over-break, refusal — every measurable that describes whether the pile actually met the design intent. On any structural investigation, piling records are the first document the geotechnical engineer asks for and the last one anyone wants to admit was kept badly.
Why It Matters
A pile is invisible the moment the crew moves off it. Whatever went wrong during installation is entombed in concrete or soil, and the only remaining evidence is the record sheet the foreman filled in that afternoon. If that sheet is vague, incomplete, or copied-and-pasted from the previous pile, there is nothing to defend the foundation with when settlement shows up two years later. Insurance companies know this. Litigation lawyers know this. A tidy piling log has settled more disputes than any expert report.
What Goes on the Record
- Pile ID, grid reference, and reduced level of the working platform.
- Rig ID and operator's name — you will need to reach the operator again.
- Start and finish time of installation.
- For driven piles: hammer weight, drop, blow count per 250 mm, final set, energy delivered.
- For bored piles: casing depth, bore verticality check, spoil description at every metre, base cleaning method, tremie sequence.
- Concrete details — mix ID, slump, temperature, cube references, actual volume vs theoretical.
- Cage details — length, laps, spacer count, tie-in level.
- Any anomalies — overbreak, water ingress, collapse, refusal, cage-lift, tremie withdrawal above concrete.
- Signatures — foreman, quality inspector, engineer's representative.
Real-World Example
On a 22-storey residential tower in Manchester, a corner column began to show 11 mm of differential settlement six months after topping out. The forensic engineer requested piling records for the four raft piles under that column. Three of the four records were pristine — depths, sets, concrete volumes, all in agreement with the design. The fourth was a single-page sheet with the depth handwritten, the concrete volume left blank, and the foreman's name illegible. The contractor's own investigation, run under caution from their insurer, established that the pile had been terminated three metres shallow because the rig had hit an obstruction on a Friday afternoon and no engineer was on site to authorise a re-drive. The remedial jet-grout underpinning cost £1.4 million. The dispute was settled inside a month — the missing record was the case.
How to Run It Properly
- Pre-print the log sheets with pile ID, design depth, design toe level and design concrete volume. The operator only fills in what actually happened, alongside the target.
- One sheet per pile — no exceptions. A batch sheet with "20 piles as per design" is not a record.
- Engineer's representative signs each sheet before the rig moves. If the rig has moved and the sheet is not signed, the pile is suspect until proven otherwise.
- Reconcile concrete daily against the batching plant delivery tickets. A 15% overbreak on one pile is a soil condition; a systematic 15% is an accounting problem.
- Trend the daily sheets weekly. Blow-count patterns, cut-off levels and concrete overbreak all cluster before they fail.
- Integrity test the outliers. Any pile with an anomalous record gets a low-strain integrity test at minimum, before the pile cap is poured.
Practical Lessons Learned
- The last hour of the shift is where records get lazy. Have a mid-afternoon check-in — not to catch out the operator but to catch out fatigue.
- Friday piles are statistically the worst. Watch them closer, not looser.
- A concrete over-run is information, not embarrassment. Suppressing it hides the ground condition that will come back to haunt the next pile.
- Digital logging is worth the money. A rig with automatic depth-and-torque logging removes half the disputes before they start.
- The geotechnical engineer must have access to the records the day they are made, not the week after. Ground conditions revise faster than paperwork.
Expert Tips
- Photograph the pile head after casting, with the ID board visible. It costs 15 seconds and disarms most arguments about which pile is which.
- Cross-check the concrete volume trend against the driller's log — a tight bore in stiff clay should not consume 30% overbreak.
- Reject a pile early and cheaply rather than accept it and repair it late and expensively. A re-drive costs a shift; an underpin costs a project.
- Keep the original signed sheets on site in a fireproof box. Scans are for convenience; originals are for court.
- The geotechnical engineer's markup on each sheet — "accept," "accept with monitoring," "reject" — should be legally binding, not advisory.
Common Mistakes
- Batch-signing a week's worth of sheets on a Friday.
- Recording "as per design" instead of the actual measured values.
- No concrete reconciliation against batching-plant tickets.
- Rig moved before the engineer inspected the pile.
- Anomalies never followed up with integrity testing.
- Digital rig logs discarded because "the paper sheet is the record."
Key Takeaways
- The piling record is the only surviving evidence of what actually went into the ground.
- One sheet per pile, signed by the engineer before the rig demobilises from that position.
- Trend the sheets weekly — outliers are early warnings, not paperwork faults.
- Digital logging plus disciplined paper is the modern minimum.
- A missing record is a defect, whether or not the pile itself is defective.
Related Concepts
Interlocks with Method Statements, Concrete Pour Cards, NCRs, As-Built Drawings and Quality Management. Rig log templates at PMMilestone.org.
Frequently Asked Questions
What are piling records?
The pile-by-pile field log that documents depths, sets or torques, concrete volumes, cage details and any anomalies at the moment of installation. They are the primary evidence of foundation integrity.Who is responsible for keeping them?
The piling subcontractor's foreman fills them in; the engineer's representative countersigns each sheet before the rig moves. The main contractor owns the coordinated log.How long should piling records be kept?
For the design life of the structure, at minimum. Most contracts and building codes require permanent retention alongside as-built drawings and structural calculations.What if a pile is rejected?
The record still stands — a rejected pile is a real event. It is annotated as rejected, the replacement pile is logged separately, and the pair is cross-referenced.Is digital logging mandatory?
Not universally, but on any modern rig it is now normal practice. Automatic depth and torque capture eliminates a large class of disputes and should be standard on all significant foundation packages.What about integrity testing?
Low-strain integrity testing is used to flag anomalies in cast piles. It is cheap and non-destructive, and should be routine on any pile with an unusual record — before the pile cap is poured.What is a common misconception about Piling Records?
That the topic is well-defined across all references. In practice, definitions vary between PMBOK, PRINCE2, AACE and ISO 21500 — this entry uses the definition most aligned with field practice on capital projects, and flags where the standards diverge.Which related encyclopedia entries should I read alongside Piling Records?
Read Earned Value Management, Critical Path Method and the DCMA 14-point assessment next. The full A–Z is available in the PMMilestone Encyclopedia, and quick one-line definitions live in the PM Glossary on the flagship platform.How does Dr. Hassan Eliwa's research treat Piling Records?
Dr. Hassan Eliwa's research focuses on owner-side project controls, schedule integrity and forensic delay analysis on capital construction and power programmes. Piling Records is treated through that lens — what a planning or controls engineer is expected to do with it on a live project, not its textbook definition alone. See the full research library at PMMilestone Research Articles.How is Piling Records defined on PMMilestone Research & Insights?
The rig-by-rig, pile-by-pile log of driven or bored piles — depths, sets, torques, concrete volumes and rejections — that forms the primary evidence of a foundation's integrity. For the full treatment, see the definition, principles, applications and related entries above — every encyclopedia entry follows the same research-grade structure.
People also ask
Follow-up questions practitioners search for next — each one points to the calculator, template or reference entry that answers it.
Which calculator on PMMilestone.org applies here?
The integrated EVM workbook covers most cost-schedule diagnostics. EVM Calculator ↗
Where is this in the glossary?
Quick-lookup definitions across 1,200+ PM terms. PM Glossary on PMMilestone.org ↗
Which learning track covers this end-to-end?
Structured tracks from beginner planner to programme controls director. Project Controls Academy ↗
Which book goes deeper than this entry?
Practitioner field handbooks with worked numerical examples. Books & Publications ↗
Related Entries
More in Construction Execution
- Letter AAs-Built Drawings Management
The disciplined capture, red-lining and issue of drawings that reflect the works as they were actually constructed, not as they were originally designed.
- Letter CConcrete Pour Card
A single-page control document that authorises a specific concrete pour by confirming design, formwork, reinforcement, embedments, weather and inspection sign-offs are all in place before the truck arrives.
- Letter DDaily Site Diary
The contemporaneous daily record of everything that happened on a construction site — labour, plant, weather, deliveries, visitors, instructions, delays — kept in chronological order and signed each day.
- Letter MMethod Statement
A written document that explains, step by step, how a specific construction activity will be executed safely, in what sequence, with what resources, and under what controls.
- Letter RRebar Bending Schedule
The dimensioned list that tells the steel-fixing crew — and the fabricator — every diameter, length, shape code and quantity of reinforcement needed for a concrete element.
- Letter RRFI Management
The disciplined tracking of Requests for Information — the formal channel through which contractors ask designers to clarify, correct, or resolve ambiguities in the construction documents.
Further reading on PMMilestone.org
Curated companion resources hosted on the flagship platform, PMMilestone.org.
- For practitioners who want to go deeper, the Project Controls Academy.
- Engineers researching this topic typically continue with the Schedule Health Checker.
- A practical companion to this entry is the Failure Database.
- Closely related on the flagship platform is the Learning Tracks.
- Useful alongside this article is the Books & Publications.
- Many readers follow this up with the Risk Register Template.
- Project teams often pair this with the PMMilestone.org knowledge hub.