Triaxial Cells

Unsaturating soil testing operating principle
Triaxial cells are one of the main components of a triaxial system. They are used to house ssoil samples during triaxial testing. Three models are available and vary according to test type and performances. Each model comes in several versions with different dimensions and pressure capacities. Standard triaxial cells are suitable for effective/total stress test, such as Unconsolidated Undrained (UU), Consolidated undrained (CU), Consolidated Drained (CD) and Permeability test Banded triaxial cells, as per the previous model but are also adapted to Stress Path and Dynamic Testing. Meanwhile, double wall triaxial cells enable you to perform unsaturated soil tests.

Banded Triaxial Cells

Used for performing triaxial - effective/total stress, stress path, dynamic, permeability tests.

Standards BS 1377:6 BS 1377:7 ASTM D2850 ASTM D4767 ASTM D5084 BS 1377:8 ASTM D7181 EN 17892-8 EN 17892-9

Banded triaxial cell
Description

 

The cell essentially consists of a trasparent banded chamber to prevent excessive expansion during the test and to protect against explosive failure when used with compressed air systems. 
The design of the cell ensure vertical alignement of the cell ram by clamping the Perspex wall separately from the cell top.
 
PEDESTAL 
 
TOP CAP, VACUUM TOP CAP and ACCESSORIES 
Main Features
  • Light alloy construction, stainless steel ram and O ring seal
  • Built-in cell ram clamp
  • Includes pillar and anvil for strain dial gauge or transducer
  • Five on/off no-volume changes valves fit as standard
  • For sample sizes between 38 and 150 mm dia.
  • Standard length chambers accepts submersible load cells
  • Rapid assembly design
  • Cells are designed to accommodate a specimen with a high twice its diameter
  • Base adapters, plinths, top caps, porous disc, rubber membranes and sealing rings are not included. See accessories.
  • Models :28-WF4070; 28-WF4100; 28-WF4150 with  pedestal and top cap can be used also to perform stress path tests and dynamic test using a vaccum attachment 
  • Models :28-WF4070; 28-WF4100; 28-WF4150 can be upgraded with an advanced kit making them compatible with mini on sample transducers and bender elements.
Products
 
 
28-WF4050

Banded triaxial cell for up to 50mm sample diameter.

 
28-WF4070

Banded triaxial cell for up to 70mm sample diameter.

 
28-WF4100

Banded triaxial cell for up to 100mm sample diameter.

 
28-WF4150

Banded triaxial cell for up to 150mm sample diameter.

Technical Specifications
Model 28-WF4050WF4070WF4100WF4150
Nominal size dia. mm5070100150
Range of spec. size dia. mm38-5038-7038-10038-150
Max. working pressure kPa3500350020002000
Max. height [mm]410670745870
Dia. mm (including valves)350400440650
Weight approx.[kg]7152140
Test    
Effective stress/Total stressxxxx
Stress path  xxx
Dynamic test / Extension  xxx
On sample/bender elements*  xxx

* Requires Advanced upgrading kit 

Accessories and Spare Parts
 
 
28-WF4070/ADV
Advanced upgrading kit for triaxial cell mod. WF4070 allowing use of mini on sample transducers and bender elements.
 
28-WF4100/ADV
Advanced upgrading kit for triaxial cell mod. WF4100 allowing use of mini on sample transducers and bender elements.
 
29-WF4005/E
Extension test accessory for rigid connection to the ram of the banded triaxial cell
 
28-WF4150/ADV
Advanced upgrading kit for triaxial cell mod. WF4150 allowing use of mini on sample transducers and bender elements.

Standard Triaxial Cells

Used for performing triaxial test - effective/total stress and permeability

Standards BS 1377:6 BS 1377:7 ASTM D2850 ASTM D4767 BS 1377:8 ASTM D7181 EN 17892-8 EN 17892-9

Standard triaxial cells 28-WF0416/B, 28-WF0411/B, 28-WF0410/B
Description

 

The cell essentially consists of a transparent polycarbonate chamber which has a piston assembly fit to the top and a double flange base fit to the bottom.  Three (or six) simple thumbscrew are used to clamp the upper part of the cell to the base, which make assembly and disassembly a very quick and simple operation. The base of the cell has four inlet points for top and drainage/back pressure, cell pressure and bottom drainage/pore water pressure. 
Pedestal , top caps, porous disc, rubber membranes, sealing rings and other accessoreis are not included, pease see the table here below or Releted Products.

PEDESTAL 

 

TOP CAP and ACCESSORIES 

Main Features
  • Maximum working pressure of 1700 kPa
  • Light alloy construction, stainless steel ram and O-ring seal
  • Suitable for submersible and/or external load cell
  • Four on/off no-volume changes valves fitted as standard
  • For sample sizes between 35 and 100 mm dia.
  • Suitable for total and effective stress tests
  • Rapid assembly design
  • Cells are designed to accommodate a specimen with a height twice its diameter
  • Pedestal, top caps, porous disc, rubber membranes and sealing rings are not included. See accessories.
Products
 
 
28-WF0410/B

Standard triaxial cell for sample sizes 35 to 50 mm sample diameter.

 
28-WF0411/B

Standard triaxial cell for sample sizes 35 to 70 mm sample diameter.

 
28-WF0416/B

Standard triaxial cell for sample sizes 35 to 100 mm diameter.

Technical Specifications

 

Cell model28-WF0410/B28-WF0411/B28-WF0416/B
Max. specimen size
Dia. x height
50×10070×140100×200
Max. working pressure1700 kPa1700 kPa1700 kPa
Max. load on the piston45 kN45 kN45 kN
Max height380 mm440 mm515 mm
Diameter140 mm174 mm200 mm
Weight approx.:4 kg7.3 kg14.3 kg
Accessories and Spare Parts
 
 
 
28-WF0410/B5
Piston locking device to hold the triaxial cell ram on triaxial cell modell 28-WF041X/B
 
28-WF4005/39
Adaptor to fix standard triaxial cell on TRITECH50or TRITECH100 triaxial frame

Triaxial cells' accessories Selector

Consumable and not consumable accessories to be use with triaxial cells.

ASTM D4647 BS 1377:6 BS 1377:7 ASTM D2850 BS 1377:8 ASTM D7181 EN 17892-9 EN 17892-8

Triaxial cell's accessories
Description

 

Suitable for Standard, Banded and Double wall triaxial cells
Main features

Triaxial cells require accessories for sample preparation and for performing the test.

It can be consumable or not consumable, suitable for 35 to 150 mm sample and linked to triaxial cell models: 

  • Banded triaxial cells
  • Standard triaxial cells 
  • Double wall triaxial cells 

Double Wall Triaxial Cells for Unsaturated Tests

Used for performing triaxial test on unsaturated soil sample, thanks to the double wall chamber.

ASTM D4647 BS 1377:6 BS 1377:7 ASTM D2850 BS 1377:8 ASTM D7181 EN 17892-9 EN 17892-8

Unsaturating soil testing operating principle
Description

 

Introduction
In the traditional triaxial systems, where saturated samples are tested, the volume change measurement is a simple monitoring of the water entering or leaving the sample by a volume change transducer.
On the contrary, in the unsaturated systems volume change measurements are complicated by the compressibility of air.
If an increase of confining pressure is applied to an unsaturated sample, a movement of water out of the sample will occur but at the same time the size will change due to the compression of the air in the voids.
A correct measurement requires the volume of water leaving the sample and the total volume change of the sample as shown in the sketch.
With these two measurements, by difference the volume change due to water being squeezed out of the sample and the volume change due to the compressibility of air can be determined.
A double walled triaxial cell can be the solution: the same pressure inside and outside of the inner cell wall will produce zero expansion of the inner cell and allow to measure the total volume change from a volume change transducer inserted in the cell pressure line.
The inner wall of the cell above is made from glass: this eliminates the problem of water absorption.
The cell pressure is applied equally to the inside and outside of the glass wall: this eliminates the problem of expansion.
The total volume change of the sample can then be measured using a standard volume change transducer.
Cell pressure line supplying pressure to the outer cell and the inner cell via the volume change transducer.

Axis translation method with High Air Entry Stone (HAES). Operating principle.
One of the problems when a sample with high suction is to be tested, is to prevent the sample from sucking the water from the porous stone on the base pedestal and cause cavitation in the triaxial cell pore water measuring system.
To prevent this happening the porous disc has been replaced with a high air entry stone, cemented into the base pedestal. The high air entry stone will allow water to pass through but not air, at various values. For example, a 5 bar stone will not allow air under 5 bar pressure to pass through the stone. The stone is cemented into the base pedestal to prevent water passing around the outside of the stone. The saturated stone will then allow the passage of water but not air. This will make it very difficult for the water to be sucked out of the stone; it will stop air entering the stone but it will not stop cavitation under the stone. This requires another modification to our triaxial system. To stop cavitation happening and to enable the suction to be measured, an air pressure is applied to the pore space in the sample. Suction is caused by the surface tension forces providing a difference in pressure between the air and the water pressure. If the air pressure is zero (atmospheric) then the water pressures will be negative. If we increase the air pressure in the pore space, the water pressure will also increase, keeping the difference between the air and water pressure the same. The air pressure is increased until the water pressure becomes positive. The suction is still maintained because the water pressure is still lower than the air pressure. The air pressure is applied via the top cap (in the same way as a water back pressure in a saturated test) at about 200 kPa below the air entry value of the porous stone. This will raise the pressure inside the sample to a positive value and in turn will apply a positive pressure to the porous stone and the pore water transducer.

Description
Double wall triaxial cell, inner wall made from glass, complete with acces ring for transducer cables. The cell has to be completed with the base pedestal with High Entry Stone. 

 

Products
 
28-WF4170
Triaxial cell for unsaturated tests on 70mm samples
 
28-WF4171
Triaxial cell for unsaturated tests on 100 mm samples
Main features

Triaxial cells require accessories for sample preparation and for performing the test.

It can be consumable or not consumable, suitable for 35 to 150 mm sample and linked to triaxial cell models: 

  • Banded triaxial cells
  • Standard triaxial cells 
  • Double wall triaxial cells 
Technical specifications
Product code28-WF417028-WF4171
Max diamter sample [mm]70100
Sample diamter range [mm]50 to 70 50 to 100
Maximum working pressure [kPa]20002000
Maximum cell height [mm]690795
Cell diamter including valves [mm]478535
Weight (approx) [kg]3050
No. of inlet ports66
Attachment for vaccum top cap for extension testIncluded
Acessories
 
 
28-WF4150/1B
1 bar High Air Entry Stone sealed on alluminium ring, for 50 mm dia. sample
 
28-WF4150/15B
15 bar High Air Entry Stone sealed on alluminium ring, for 50 mm dia. sample
 
28-WF4150/5B
5 bar High Air Entry Stone sealed on alluminium ring, for 50 mm dia. sample
 
28-WF4170/1B
1 bar High Air Entry Stone sealed on alluminium ring, for 70 mm dia. sample
 
28-WF4170/15B
15 bar High Air Entry Stone sealed on alluminium ring, for 70 mm dia. sample
 
28-WF4170/5B
5 bar High Air Entry Stone sealed on alluminium ring, for 70 mm dia. sample
 
28-WF4170/50
Unsatured test set for 50mm dia.sample to be fitted in double wall triaxial cell mod. 28-WF4170comprising: base pedestal, High Air Entry Stone sealed on aluminium ring and compensation ring.
 
28-WF4170/70
Unsatured test set for 70mm dia.sample to be fitted in double wall triaxial cell mod. 28-WF4170comprising: base pedestal, High Air Entry Stone sealed on aluminium ring and compensation ring.
 
28-WF4171/1B
1 bar High Air Entry Stone sealed on alluminium ring, for 100 mm dia. sample.
 
28-WF4171/100
Unsatured test set for 100mm dia.sample to be fitted in double wall triaxial cell mod. 28-WF4171comprising: base pedestal, High Air Entry Stone sealed on aluminium ring and compensation ring.
 
28-WF4171/15B
15 bar High Air Entry Stone sealed on alluminium ring, for 100 mm dia. sample.
 
28-WF4171/5B
5 bar High Air Entry Stone sealed on alluminium ring, for 100 mm dia. sample.
 
28-WF4171/50
Unsatured test set for 50mm dia.sample to be fitted in double wall triaxial cell mod. 28-WF4171comprising: base pedestal, High Air Entry Stone sealed on aluminium ring and compensation ring.
 
28-WF4171/70
Unsatured test set for 70mm dia.sample to be fitted in double wall triaxial cell mod. 28-WF4171comprising: base pedestal, High Air Entry Stone sealed on aluminium ring and compensation ring

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