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This equipment is a Fully Automatic Triple-Unit Temperature-Controlled Creep Triaxial Apparatus (BTU-TCA-3T). It is an advanced geotechnical testing system integratingtemperature control, triaxial shearing, and creep testing. It adopts adual-chamber temperature-controlled pressure celland provides precise temperature control from -30℃ to +100℃, with bothstrain-controlled and stress-controlledoperation modes. The system includes three independent testing units (triple-unit) that allow simultaneous testing of multiple specimens for creep or triaxial tests. The software covers conventional triaxial, k0 consolidation, stress path, andtriaxial creepmodules, making it suitable for long-term deformation and temperature‑coupled studies.
SL 237-1999(Chinese specification for soil testing)
Temperature control and creep aspects may follow relevant research specifications or custom procedures.
---
3. Specification (Parameter )
Parameter
Specification
Model
BTU-TCA-3T
Specimen sizes
Ø39.1mm×80mm, Ø61.8mm×125mm
Temperature control range
-30℃ ~ +100℃, accuracy ±0.1℃ (sensor embedded at specimen base)
Max. axial force
30 kN
Load cell
30 kN, accuracy ±0.1% F.S
Shearing speed
0.00001 ~ 9.99999 mm/min, stepless adjustment
Max. stroke
100 mm
Cell pressure
0~2 MPa, resolution 1kPa, accuracy ±0.1% F.S
Back pressure
0~2 MPa, resolution 1kPa, accuracy ±0.1% F.S
Drainage/volume change measurement
≥200 ml, resolution 0.001 ml
Pore water pressure
0~2 MPa, resolution 1kPa, accuracy ±0.1% F.S
Triple-unit configuration
Three independent testing units, can operate simultaneously
Software
Rheological triaxial testing software with multiple modules
Software modules: Data acquisition, back pressure saturation, UU, CU, CD, k0 consolidation, stress path, triaxial creep
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4. Detail (technical details)
Dual-chamber temperature-controlled pressure cell: Dual-chamber design with circulating temperature-control liquid, reducing interference with cell pressure and volume change measurements.
Temperature sensor embedded at specimen base: Measures the actual internal temperature of the specimen rather than ambient temperature, with accuracy ±0.1℃.
Wide temperature control range: -30℃ ~ +100℃, covering frozen soil, high-temperature geotechnics, energy piles, etc.
High-precision loading system: Shearing speed as low as 0.00001 mm/min, suitable for long-term creep tests; maximum axial force 30 kN.
Dual control modes: Supports bothstrain-controlled(constant rate shearing) andstress-controlled(constant load application) modes – the latter being essential for creep tests.
High-resolution drainage/volume change measurement: Resolution 0.001 ml, capacity ≥200 ml, suitable for detecting small volume changes during long-term creep.
Triple-unit structure: Three independent pressure cells and loading axes, allowing simultaneous testing of three different specimens (same or different conditions), significantly improving testing efficiency.
---
5. Application
Long-term settlement studies of soft soils: Simulating creep behaviour of soft soils under constant loading
Frozen soil and cold-region engineering: Creep and strength characteristics at sub-zero temperatures (-30℃)
Energy piles and ground source heat pumps: Effect of temperature cycles on soil creep around piles
Nuclear waste repositories: Long-term deformation of buffer materials under temperature‑stress coupling
High-filled embankments and dams: Deformation prediction under long-term loading
Constitutive model parameter calibration: Determining parameters for creep and rheological models
Teaching and research: Complex stress‑temperature‑time coupled testing
---
6. Advantages
Wide temperature control range(-30℃ ~ +100℃): covers frozen soil, high temperature, and ambient temperature conditions
True specimen temperature measurement: Sensor embedded at specimen base for more accurate temperature control
Dual control modes(strain + stress): meets both creep and conventional triaxial requirements
Ultra-low shearing speed capability: 0.00001 mm/min, suitable for long-term rheology
High-resolution drainage/volume change: 0.001 ml, suitable for detecting small volume changes
Triple independent testing units: Three systems independently controlled, high efficiency, suitable for comparative tests
Modular software: Includes advanced modules such as k0, stress path, and creep
Software: Convenient
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8. What To Choose (selection guide)
Requirement
Recommended configuration
Reason
Only routine triaxial tests (no temperature, no creep)
Choose TTS series or WXY series
Lower cost, sufficient functionality
Need long-term creep tests (ambient temperature)
TCA-3T + creep module
Stress control + high-resolution volume change
Need sub-zero creep tests (frozen soil)
TCA-3T (-30℃)
Only model covering -30℃
Need high-temperature creep (e.g., >50℃)
TCA-3T (up to ~100℃)
Covers high-temperature scenarios
Need to test multiple specimens simultaneously (comparative tests)
TCA-3T triple-unit configuration
Three independent units, high efficiency
Need k0 + stress path + creep combined
TCA-3T standard software
Software includes all modules
Need higher axial force (>30kN)
Choose TTS-100S or TTS-200S
This model max 30kN
Need larger specimens (>Ø61.8mm)
Choose TTS-6S or above
This model max Ø61.8mm
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9. Process Flow
Specimen preparation→ Prepare saturated/unsaturated soil specimens of Ø39.1mm×80mm or Ø61.8mm×125mm
Mount pressure cell→ Install specimen in the dual-chamber temperature-controlled pressure cell; connect cell pressure, back pressure, and pore pressure lines; embed temperature sensor at base
Set temperature→ Set target temperature (e.g., -20℃, +5℃, +60℃); wait for temperature to stabilize (accuracy ±0.1℃)
Saturation and consolidation→ Back pressure saturation → B-check → Isotropic consolidation or k0 consolidation (optional)
Creep stage (stress-controlled)→ Apply constant axial stress (or constant cell pressure/deviatoric stress); record axial deformation and volume change over time
Shearing stage (strain-controlled, optional)→ After creep, shear at constant rate to failure; determine residual strength
Data acquisition→ Long-term monitoring (hours to months): axial force/stress, displacement/strain, volume change, drainage, pore pressure, temperature
Parallel multi‑specimen testing→ The triple-unit system can perform creep tests on three different specimens under different temperature/stress conditions simultaneously
Report output→ Automatically generate test tables and curves; support export and printing
Company Details
Bronze Gleitlager
,
Bronze Sleeve Bushings
and
Graphite Plugged Bushings
from Quality China Factory
Business Type:
Manufacturer,Exporter
Year Established:
2006
Total Annual:
10000000-20000000
Employee Number:
200~300
Ecer Certification:
Site Member
260 workers, 25000 ㎡ non-dust workshop, 16 years experience, SGS & INTERTEK certificated, one hour reach Tianjin port, this is how we keep good quality and competitive prices for global valued customers.
Our main products cover Universal testing machine, Compression testing machine, Soi...
260 workers, 25000 ㎡ non-dust workshop, 16 years experience, SGS & INTERTEK certificated, one hour reach Tianjin port, this is how we keep good quality and competitive prices for global valued customers.
Our main products cover Universal testing machine, Compression testing machine, Soi...
