KO Consolidation Apparatus
Model BTU-STC-KO
Description
This equipment is a KO consolidation apparatus, modelBTU-STC-KO, used to determine thecoefficient of earth pressure at rest (K₀)of soil specimens with a diameter of Ø61.8 mm. The lateral pressure under no lateral strain conditions is measured using a pore pressure meter (or lateral pressure sensor). It is mainly used to study the compression characteristics of soil under lateral restraint, providing K₀ values for settlement calculations and earth pressure analysis.
System overview: The KO consolidation apparatus is used to determine the coefficient of earth pressure at rest for Ø61.8 mm soil specimens. The lateral pressure can be measured by a pore pressure meter.
Test Standards (International)
- ASTM D2435(One‑dimensional consolidation – K₀ conditions can be derived)
- ASTM D4186(CRS consolidation – K₀ measurement possible)
- ASTM D4767(Triaxial compression – K₀ consolidation stage)
- ISO 17892‑5(Consolidation test)
- BS 1377‑6(Consolidation test)
- Chinese GB/T 50123‑2019(Standard for soil test methods – includes K₀ test)
The equipment can meet the requirements of these standards for lateral pressure measurement, axial loading, displacement measurement, etc.
Specification
| Parameter |
Specification |
| Model |
BTU-STC-KO |
| Instrument name |
KO consolidation apparatus |
| Specimen size |
Φ61.8 mm × H40 mm |
| Axial displacement |
0‑12.7 mm, resolution 0.01 mm |
| Pressure cell seal |
No leakage at rated pressure, volume change <0.20 ml |
| Lateral pressure measurement |
Via pore pressure meter (or lateral pressure sensor) |
Note: The screenshot does not specify maximum axial pressure, loading method (lever/servo), lateral pressure sensor range, accuracy, etc. – refer to the product manual.
Detail
- K₀ consolidation principle– Under fully lateral restraint (zero lateral strain), axial pressure is applied to the specimen and the lateral pressure(σ h)is measured. The coefficient of earth pressure at rest is K₀ = σ_h / σ_v.
- Specimen size– Diameter 61.8 mm, height 40 mm (height‑to‑diameter ratio ≈0.65, common for K₀ consolidation tests).
- Axial displacement measurement– Range 12.7 mm, resolution 0.01 mm (10 μm), allowing precise compression recording.
- Pressure cell seal– No leakage at rated pressure, volume change <0.20 ml (very small volumetric change, ensuring lateral rigidity).
- Lateral pressure measurement– Using a pore pressure meter (connected to a lateral pressure sensor or liquid pressure sensor).
- Suitable materials– Fine‑grained soils (clay, silty clay), commonly used for saturated soil K₀ determination.
Application
- Foundation settlement calculation– K₀ values are used for settlement estimation of normally consolidated and overconsolidated soils (e.g., K₀ consolidation test method).
- Earth pressure calculation– K₀ is needed for calculating earth pressure at rest on retaining walls, basement walls, etc.
- Constitutive model parameters– Provides K₀ parameter for models such as Modified Cam Clay.
- Laboratory testing– Research institutions and university soil mechanics laboratories.
- Numerical model validation– Provides laboratory K₀ values for calibrating finite element models.
Advantages
- Specialised K₀ consolidation– Dedicated design for measuring the coefficient of earth pressure at rest, compact structure.
- High‑precision displacement measurement– 0.01 mm resolution, meeting consolidation deformation accuracy requirements.
- Good sealing– Pressure cell volume change <0.20 ml, ensuring lateral restraint (approximate zero lateral strain).
- Easy operation– Lateral pressure can be measured directly with a pore pressure meter.
- Standard specimen size– Ø61.8 mm is a common size, facilitating sample preparation and comparison.
- Compatibility– Can be used with various loading systems (lever, servo, etc., to be supplied separately).
What To Choose
Select this equipment or compare with other configurations based on testing requirements:
| Requirement |
Recommendation |
Reason |
| Need to determine K₀ (coefficient of earth pressure at rest) |
This equipment is very suitable |
Specialised design |
| Specimen size requirement Ø61.8×40 mm |
Standard configuration |
No customisation needed |
| Need high‑precision lateral pressure measurement |
Requires optional high‑accuracy lateral pressure sensor |
Basic configuration may only include a pore pressure meter |
| Need automatic step loading or CRS |
Requires external servo loading system (this unit may be only the consolidation cell) |
The model may be a core unit requiring a separate load frame |
| Only routine consolidation (no K₀ required) |
Do not choose this model; select a standard consolidometer |
Single function |
| Need larger specimen size |
Custom or other model required |
Only supports Ø61.8 mm |
| Limited budget but need K₀ testing |
Consider a manual K₀ consolidation device |
Lower accuracy |
Process Flow
Example:Standard K₀ consolidation test (step loading, saturated clay)
- Specimen preparation
- Cut undisturbed or remoulded clay specimen using a Ø61.8×40 mm ring.
- Saturate (vacuum or back pressure saturation), measure initial water content and density.
- Specimen installation
- Place the specimen into the pressure cell of the K₀ consolidometer, with porous stones above and below.
- Install the axial displacement sensor (zero it).
- Connect the lateral pressure measurement system (pore pressure meter or lateral pressure sensor) and de‑air the pressure cell.
- Position the pressure cell in the loading frame (e.g., a separate consolidometer main frame).
- Apply initial seating pressure
- Apply a small axial pressure (e.g., 5 kPa) and record initial axial displacement and lateral pressure.
- Set test parameters
- Define the load sequence (e.g., 25, 50, 100, 200, 400, 800 kPa).
- Duration for each load step is typically 24 hours or until consolidation is stable (displacement change <0.01 mm per hour).
- Set data acquisition intervals (e.g., 0.1, 1, 10, 60 minutes).
- Start the test
- Apply the first axial load step.
- Record axial displacement and lateral pressure in real time.
- At each load step, after axial displacement stabilises, record the lateral pressure.
- Calculate K₀
- For each load step, K₀ = lateral pressure(σh)/axial pressure(σv).
- Plot K₀ vs. σ_v curve.
- End and disassembly
- After the test, unload, remove the specimen.
- Clean the pressure cell and sensors.
- Data processing
- Calculate K₀ values for each load step; take the average or analyse the trend.
- For normally consolidated soils, K₀ ≈ 1 – sin φ′ (Jaky’s formula) can be used for verification.
- Generate a test report.
If the equipment is paired with aservo loading system, it can perform CRS or automatic step loading with real‑time lateral pressure acquisition, improving efficiency.
Summary:The BTU-STC-KO is a dedicated K₀ consolidation apparatus for determining the coefficient of earth pressure at rest of Ø61.8×40 mm soil specimens. It features an axial displacement resolution of 0.01 mm and a well‑sealed pressure cell (volume change <0.20 ml). Lateral pressure is measured via a pore pressure meter or lateral pressure sensor. It is suitable for foundation settlement calculations, earth pressure analysis, and constitutive model parameter determination. Note that the loading system (e.g., a consolidometer load frame) must be supplied separately; if high‑precision automatic loading is needed, a servo system can be added. The apparatus is designed for fine‑grained soils only, with a fixed specimen size.
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KO Consolidation Apparatus Images
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