Electromechanical Universal Testing Machine Model 5 ST
A variety of loadcells are available at differing capacities that give precise applied load measurements from the smallest test specimen to ones that go to full machine capacity. Test machines become complete, powerful test systems with the addition of grips to hold the specimen, strain measurement instrumentation and Tinius Olsen’s Horizon Data Analysis software.
- Description
- Additional information
Description
HIGHLIGHTS
– Tinius olsen with a history of more than 140 years since 1880 in the field of Material Durability Testing.
– Install a single Horizon software on a computer that can be used for many different machines.
– Stable working ability, high durability and easy maintenance to help customers save costs.
– Library of test methods with at least common standards such as ASTM, ISO, EN, DIN, JIS, etc. Allows users to access relevant international standards or create new standards.
– Support to use Teamview Online technology during the time of using the software. Help technicians solve problems and problems in the process of using more effectively.
– The CEOs, Directors, and Engineers of Tinius Olsen Company participated in researching and developing a number of standards for testing material durability in the ASTM system of standards, which were published on the official website of the ASTM standards organization. .
– Easy to use: Allows testing and reporting in just 4 clicks.
Start the test.
Get Crosshead back.
Confirm the result
Print report.
Value SI | ||
5ST | ||
Tension Compression load capability | Yes | |
Frame capacity | 5kN | |
| 50 % over frame capacity | |
Floor or table mounting | Table mounting | |
Test zones | 1 | |
Number of columns | 1 | |
Column material | Aluminium Extrusion | |
Column finish | Anodise | |
Column colour | Natural | |
Base material | Mild Steel | |
Base finish | Pre primed, top coat powder coat paint | |
Base colour | TO Cool Grey Web # E6 30 27 | |
Crosshead material | Mild Steel solid | |
Croshead finish | Pre primed, top powder coat paint | |
Crosshead colour | TO Green Web # 00 4C 45 | |
Base cover | ABS recyclable | |
Base cover colour | Cal Black Web # 11 18 20 | |
Distance between columns | N/A | |
Max cross head travel | 755mm | |
Optional extension to cross head travel | 254mm | |
Stiffness | 7kN/mm | |
Height | 1168mm | |
Width | 511mm | |
Depth | 467mm | |
Weight | 46kg | |
Force protection system | Yes digital | |
Displacement protection system | Yes mechanical & user programmable | |
Accessory fitting interface type | Female diameter | |
Ball screw type | High precision low backlash | |
Ball screw cover/protection | Yes | |
Crosshead drive system | DC servo motor | |
Feet material | Impact resistant plastic | |
Feet adjustment & levelling | No | |
Reference rule to support cross head positioning | Yes mm & Inches | |
T slots in columns for accessory mounting | 4 * M6/M8 | |
Noise at full crosshead speed 2m radius | 28db |
Spec parameter | Value SI | |
Controller | Max data processing rate | 168 MHz |
Data acquisition rate at PC | 1000 sps | |
Number of instrument device connections external | 4 | |
Number of instrument device connections internal | 3 | |
Bluetooth enabled | v4.0 with A2DP, LE, EDR | |
External PC connection | USB | |
User interface connectivity | TO HMC, Proterm, Horizon | |
Force | Force measuring device – type | Strain gauge based load cell |
Load cells available | 5N, 10N, 25N 50N, 100N, 250N, 500N, 1kN, 2,5kN, 5kN | |
Resolution | 1 part in 8388608 | |
Accuracy | +/-0.1% of applied force across load cell force range | |
Range | 0.2% to 100% | |
Calibration standard | ISO 7500-1 ASTM E4 | |
Internal sampling rate | 1000sps | |
Extension measurement | Resolution | 0.1um |
Accuracy | +/-10um | |
Range | +/- 217m | |
Calibration standard | ISO 9513, ASTM E83 | |
Internal sampling rate | 2.73ksps | |
Position control | Test Speed | 0.001mm/min to 1000 mm/min up to 2kN |
0.001mm/min to 500 mm/min up to 5kN | ||
Resolution | 0.1um | |
Accuracy | +/- 0.005% | |
Return speed post test | 0.001mm/min to 1500 mm/min | |
Resolution | 0.1um | |
Accuracy | +/- 0.005% | |
Crosshead positioning speed | 0.001mm/min to 1500 mm/min | |
Resolution | 0.1um | |
Accuracy | +/- 0.005% | |
Return to zero function | Yes | |
Power requirement | Supply voltage options | 110/240V |
Frequency | 50/60Hz | |
Current | ||
Power | 2000W +/- 10% | |
| ||
Atmosphere | Operating temperature | 10 to 40 degree C |
Operating humidity | 10% to 90% non condensing | |
Storage temperature | 10 to69 degree C | |
Storage humidity | 10% to 90% non condensing | |
Updating…
HW21 Wedge Grips | |
Self-tightening wedge grips. Wedges remain stationary when applying initial gripping force on the sample via the handwheel, so avoiding excessive compression of the sample prior to test. Grips are supplied with cross-hatched jaw faces for gripping flat samples. Optional V profile wedges are available for gripping round sections up to 15mm (6/10in). | ♦ Maximum Capacity: 50kN/10,000lbf ♦ Minimum Loadcell: 500N/100lbf ♦ Gripping Length: 50mm/2in ♦ Maximum Sample Width: 30mm/1.2in ♦ Maximum Sample Thickness: 15mm/0.6in ♦ Length Each: 210mm/8.3in ♦ Weight Each: 6.3kg/14lbf ♦ Temperature Limits: -40 to 100°C
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The wedge style tensile grip is used on ST series materials testing machines.
| V Profile Jaw Face Options ♦ HW20R5: 3-5mm/0.12-0.2in diameter ♦ HW20R8: 4-8mm/0.15-0.31in diameter ♦ HW20R10: 5-10mm/0.2-0.4in diameter ♦ HW20R15: 8-15mm/0.31-0.6in diameter
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HW20 Wedge Grips | |
Self-tightening wedge grips. Wedges remain stationary when applying initial gripping force on the sample via the handwheel, so avoiding excessive compression of the sample prior to test. Grips are supplied with cross-hatched jaw faces for gripping flat samples. Optional V profile wedges are available for gripping round sections up to 15mm (6/10in).
| ♦ Maximum Capacity: 25kN/5,000lbf ♦ Minimum Loadcell: 500N/100lbf ♦ Gripping Length: 50mm/2in ♦ Maximum Sample Width: 30mm/1.2in ♦ Maximum Sample Thickness: 15mm/0.6in ♦ Length Each: 210mm/8.3in ♦ Weight Each: 6.3kg/14lbf ♦ Temperature Limits: -40 to 100°C
|
The wedge style tensile grip is used on ST series materials testing machines.
| V Profile Jaw Face Options ♦ HW20R5: 3-5mm/0.12-0.2in diameter ♦ HW20R8: 4-8mm/0.15-0.31in diameter ♦ HW20R10: 5-10mm/0.2-0.4in diameter ♦ HW20R15: 8-15mm/0.31-0.6in diameter
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HW14 Wedge Grips | |
Self-tightening wedge grips. Wedges remain stationary when applying initial gripping force on the sample via the capstan, so avoiding excessive compression of the sample prior to test. Grips are supplied with cross-hatched jaw faces for gripping flat samples. Optional V profile wedges are available for gripping round sections up to 20mm (8/10in).
| ♦ Maximum Capacity: 100kN/20,000lbf ♦ Minimum Loadcell: 5kN/1,000lbf ♦ Gripping Length: 75mm/3in ♦ Maximum Sample Width: 50mm/2in ♦ Maximum Sample Thickness: 12mm/0.5in ♦ Length Each: 10mm/12.2in ♦ Weight Each: 16kg/35lbf ♦ Temperature Limits: -70 to 200°C
|
The wedge style tensile grip is used on ST series materials testing machines.
| V Profile Jaw Face Options ♦ HW14R8: 4-8mm/0.15-0.31in diameter ♦ HW14R15: 5-15mm/0.2-0.6in diameter ♦ HW14R20: 4-20mm/0.55-0.8in diameter
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HW10 Wedge Grips | |
Self-tightening wedge grips with spring-loaded wedges to provide the initial gripping and allow rapid loading of the sample. Gripping wedges are supplied with serrated jaw faces for gripping flat samples. Optional V profile wedges are available for gripping round sections up to 15mm (6/10in)
| ♦ Maximum Capacity: 10kN/2,000lbf ♦ Minimum Loadcell: 250N/50lbf ♦ Gripping Length: 50mm/2in ♦ Maximum Sample Width: 25mm/1in ♦ Maximum Sample Thickness: 8mm/0.3in ♦ Length Each: 120mm/5in ♦ Weight Each: 1.8kg/4lbf ♦ Temperature Limits: -30 to 70°C
|
The wedge style tensile grip is used on ST series materials testing machines.
| V Profile Jaw Face Options ♦ HW10R8 4-8mm/0.15-0.31in diameter ♦ HW10R10 6-10mm/0.23-0.4in diameter ♦ HW10R15 10-15mm/0.4-0.6in diameter
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HT58 Lightweight Pneumatic Grips | |
Light weight low gripping pressure pneumatic vice grips. Ideally suited for use with low force capacity loadcells. Unique line contact jaw solution delivers maximum gripping pressure while minimizing premature grip breaks.
| ♦ Maximum Capacity: 100N/22.4lbf ♦ Minimum Loadcell: 5N/1lbf ♦ Maximum Sample Width: Typical Fibers ♦ Length Each: 100mm/4in ♦ Weight Each: 19g/0.04lb ♦ Temperature Limits: Ambient ♦ Operating Air Supply: 80 to 100psi / 5.5 to 7bar
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The pneumatic tensile grip is used on ST series materials testing machines.
| Application: ♦ Fiber ♦ Lycra ♦ Yarn ♦ Wool ♦ Hair
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HT57 Horn type bollard grip
| HT57 Horn type bollard grip
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Pneumatic bollard “Horn” type grips. Bollard reduces stress concentration on test specimen to avoid a grip induced break.
| ♦ Maximum Capacity: 1.5kN/300lbf ♦ Minimum Loadcell: 500N/100lbf ♦ Maximum Sample Diameter: 4mm/0.16in ♦ Length Each: 150mm/5.9in ♦ Weight Each: 1.4kg/3.08lb ♦ Temperature limits: Ambient ♦ Operating air supply: 80-100psi/5.5-7bar
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The pneumatic tensile grip is used on ST series materials testing machines.
| Application: ♦ Cords♦ filaments♦ fibers♦ fine wire♦ tire cord♦ hose reinforcement
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HT54 Miniature Vice Grips | |
Miniature vice clamp grip, general purpose tensile grip that uses a pivot action to initially grip the sample and a clamping screw to tighten the vice. Rubber faced jaws prevent sample slippage. The design of the grip allows easy and accurate setting of the distance between jaws.
| ♦ Maximum Capacity: 2kN/400lbf♦ Minimum Loadcell: 20N/4lbf ♦ Maximum Sample Width: 10mm/0.4in ♦ Maximum Sample Thickness: 2mm/0.08in ♦ Length Each: 80mm/3.15in ♦ Weight Each: 100g/0.22lb ♦ Temperature Limits: -70 to 200°C
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The vise style tensile grip is used on ST series materials testing machines.
| Application: ♦ Fibre optics♦ Yarn♦ Wood |
HT53 Miniature Knurled Roller Grips | |
Self-tightening miniature knurled roller grips. Versatile and quick loading, suitable for flat dumbbell shaped specimens. The pivot position of the eccentric roller is set to give maximum gripping efficiency.
| ♦ Maximum Capacity: 1kN/220lbf ♦ Minimum Loadcell: 20N/4lbf ♦ Maximum Sample Width: 12mm/0.5in ♦ Maximum Sample Thickness: 3mm/0.1in ♦ Length Each: 70mm/2.75in ♦ Weight Each: 200g/0.4lb ♦ Temperature Limits: -30 to 70°C
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The roller style tensile clamp is used on benchtop materials testing machines.
| Application: ♦ Sheet materials♦ Rubber♦ Polymers |
HT51 Side Loading Vice Grips | |
General purpose side loading vice clamp with 25 x 25mm (1 x 1in) rubber faced jaws. The open face design allows easy loading of thin non-rigid samples.
| ♦ Maximum Capacity: 1.5kN/300lbf ♦ Minimum Loadcell: 50N/10lbf ♦ Maximum Sample Width: 25mm/1in ♦ Maximum Sample Thickness: 2.5mm/0.1in ♦ Gripping Length: 25mm/1in ♦ Length Each: 75mm/3in ♦ Weight Each: 240g/0.5lb ♦ Temperature Limits: -70 to 200°C
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The vise style tensile grip is used on ST series materials testing machines.
| Applications: ♦ Flexible sheet materials ♦ Paper ♦ Film ♦ Polymers
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HT45 Pneumatic Grips | |
Heavy duty pneumatic grip are dual action pneumatically operated jaws clamp specimen on center line and maintain position even when specimen reduces thickness during test. Interchangeable jaw options.
| ♦ Maximum Capacity: 5kN/1,000lbf ♦ Minimum Loadcell: 500N/100lbf ♦ Maximum Sample Width: 75mm/3in ♦ Maximum Sample Thickness: 10mm/0.4in ♦ Length Each: 160mm/6.3in ♦ Weight Each: 1.7kg /3.75lb ♦ Temperature Limits: Ambient ♦ Operating Air Supply: 80 to 100psi/5.5 to 7bar
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The pneumatic tensile grip is used on ST series materials testing machines.
| Applications: ♦ Flat flexible materials♦ Textiles♦ Paper♦ Film♦ Polymers |
HT44 Pneumatic Grips | |
Pneumatic grip supplied with dual action foot switch. 25 x 10mm (1 x 0.4in) rubber faced jaws are supplied as standard. Serrated jaws are available.
| ♦ Maximum Capacity: 1kN/200lbf ♦ Minimum Loadcell: 100N/20lbf ♦ Maximum Sample Width: 25mm/1in ♦ Maximum Sample Thickness: 3mm/0.12in ♦ Gripping length: 10mm/0.4in ♦ Length Each: 105mm/4in ♦ Weight Each: 700g/1.5lb ♦ Temperature Limits: 0 to 40°C ♦ Operating Air Supply: 80 to 100psi/5.5 to 7bar
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The pneumatic tensile grip is used on ST series materials testing machines
| Applications: ♦ Flexible sheet materials ♦ Paper ♦ Film ♦ Polymers
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HT43 Seat Belt Grip | |
The grip is designed for testing fabric, webbing, strapping and similar materials. The specimen is wrapped around the 2 in (50 mm) diameter smooth spools with its end securely held between the serrated faces of the split spools.
| ♦ Maximum Capacity: 11 kN/5,000 lbf ♦ Maximum Width: 23 mm/0.9 in ♦ Maximum Thickness: 7.6 mm/0.3 in ♦ Length Each: 40 mm/1.6 in ♦ Weight Each: 150 g/0.33 lb ♦ Temperature Limits: -30 to 70°C
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The grip is used on LoCaps, benchtop testers, SL hydraulic testers machines and Electomatic materials testing machines with closed crossheads.
| Applications: ♦ Fabric ♦ Webbing ♦ Strapping ♦ Similar flexible flat material
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HT42 Pneumatic Grips | |
Light duty pneumatic grip, supplied with dual action foot switch to leave both hands free.
| ♦ Maximum Capacity: 500N/100lbf ♦ Minimum Loadcell: 50N/10lbf ♦ Maximum Sample Width: 25mm/1in ♦ Maximum Sample Thickness: 5mm/0.2in ♦ Gripping Length: 25mm/1in ♦ Length Each: 105mm/4in ♦ Weight Each: 700g/1.5lb ♦ Temperature Limits: 0 to 40°C ♦ Operating Air Supply: 80 to 100psi /5.5 to 7bar
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The pneumatic tensile grip is used on ST series materials testing machines.
| Applications: ♦ Paper♦ Plastic film♦ Woven textiles♦ Non-woven textiles |
HT38 Double Roller Gavin Grips | |
Self-tightening knurled roller grip that uses two rollers to hold the specimen. The grip is particularly efficient when used for testing flexible dumbbell specimens. The centre line of the specimen remains constant in relation to the test machine, irrespective of the specimen thickness.
| ♦ Maximum Capacity: 2kN/400lbf ♦ Minimum Loadcell: 25N/5lbf ♦ Maximum Specimen Width: 25mm/1in ♦ Maximum Specimen Thickness: 6mm/0.2in ♦ Length Each: 70mm/2.75in ♦ Weight Each: 250g/0.5lb ♦ Temperature Limits: -30 to 70°C
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The roller style tensile clamp is used on benchtop materials testing machines.
| Applications: Suitable for thin flexible materials such as latex, vulcanized rubber, plastic film and paper.
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HT34 Soft Wire Grip | |
The 99-034-0060 grip exerts the clamping force on the wire between two aluminium discs.
| ♦ Maximum Capacity: 2 kN/400 lbf ♦ Minimum Loadcell: 20 N/4 lbf ♦ Maximum Specimen Diameter; 1.5 mm/0.06 in ♦ Length Each: 80 mm/3.14 in ♦ Weight Each: 140g/0.31 lb ♦ Temperature Limits: -30 to 70°C
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The soft wire grip is used on ST series materials testing machines.
| Applications: Fine ductile wire
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HT33 single bollard grip | |
The 99-033-0000 grip is designed for holding a single bollard grip. The free end of the test specimen is held in a vice clamp. The specimen is then wrapped around a single friction bollard; this friction bollard reduces the concentration of stress at the clamping point and prevents premature breakage of the specimen.
| ♦ Maximum Capacity: 2 kN/400 lbf♦ Minimum Loadcell: 50 N/10 lbf ♦ Maximum Specimen Diameter: 5 mm/0.2 in ♦ Length Each: 70 mm/2.75 in ♦ Weight Each: 350g/0.77lb ♦ Temperature Limits: -30 to 70°C
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The dumbbell grip is used on ST series materials testing machines.
| Applications: ♦ Yarn♦ Threads♦ Wool♦ Cables♦ Fishing line |
HT32 Double Bollard Grip | |
When using the double bollard grip, a vice clamp holds the free end of the specimen, which is then wrapped around two bollards in a figure of eight configuration. Friction on the bollards reduces the stress at the clamp point, preventing premature failure of the specimen.
| ♦ Maximum Capacity: 20 kN/4,000lbf ♦ Minimum Loadcell: 50 N/10 lbf ♦ Maximum Specimen Diameter: 6 mm/0.23 in ♦ Length Each: 135 mm/5.3 in ♦ Weight Each: 850 g/1.87 lb ♦ Temperature Limits: -30 to 70°C
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The 99-032-0000 grip is used on benchtop materials testing machines.
| Applications: ♦ Light rope♦ Ductile wire♦ Cord |
HT31 Dumbbell Grips | |
Dumbbell grips designed for flat rigid dumbbells. The prepared testpiece, with an 8mm diameter hole drilled in each end, is located between two serrated dies. The dies are clamped on the testpiece with a high tensile bolt.
| ♦ Maximum Capacity: 20kN/4,000lbf ♦ Minimum Loadcell: 50N/10lbf ♦ Serrated Die Diameter: 38mm/1.5in ♦ Bolt Diameter: 7.9mm/0.31in ♦ Maximum Specimen Thickness: 6mm/0.23in ♦ Length Each: 86mm/3.39in ♦ Weight Each: 650g/1.43lb ♦ Temperature Limits: -30 to 70°C
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This low force tensile grip is used on ST series materials testing machines.
| Applications: ♦ Sheet metal dumbbell test pieces ♦ Plywood dumbbell test pieces
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HT29 Single Bollard Self-Tightening Grip | |
When using the 99-029-0000 grip, the specimen is wrapped around the split bollard and retained between two serrated jaw faces. The large circumference of the bollard reduces the concentration of stress within the specimen at the point of clamping, thereby preventing breaks occurring between the jaw faces.
| ♦ Maximum Capacity: 5 kN/1,000lbf ♦ Minimum Loadcell: 100 N/20 lbf ♦ Maximum Specimen Diameter: 10 mm/0.39 in ♦ Length Each: 130 mm/5.1 in ♦ Weight Each: 1 kg/2.2 lb ♦ Temperature Limits: -30 to 70°C
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The single bollard self-tightening grip is used on benchtop materials testing machines
| Applications: ♦ Light ropes ♦ Cords ♦ Cables ♦ Flexible tubing ♦ Flexible tape ♦ Fishing line
|
HT25 Briquette Grip | |
Cement briquette non-clamping chuck with an internal profile conforming to the British Standard for the cast cement tes
| ♦ Maximum Capacity: 10kN/2,000lbf♦ Minimum Loadcell: 100N/20lbf ♦ Maximum Specimen Width: See Note* ♦ Maximum Specimen Thickness: See Note* ♦ Length Each: 90mm/3.5in ♦ Weight Each: 1kg/2.2lb ♦ Temperature Limits: -30 to 70°C Note: Specimen conforms to BS6319 Part B
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This low force tensile grip is used on ST series materials testing machines.
| Applications: ♦ Cast cement briquettes♦ Resin bonded sand briquettes |
HT24 Dumbbell Grips for Plastic Pipe | |
Dumbbell grip, designed for holding thick rigid dumbbells. The curved shoulder of the dumbbell is located between two bollards. With no clamping necessary, specimens can be loaded into the grip very quickly.
| ♦ Maximum Capacity: 10kN/2,000lbf♦ Minimum Loadcell: 50N/1,000lbf ♦ Gripping Length: See Note* ♦ Maximum Specimen Width: See Note* ♦ Maximum Specimen Thickness: 16mm/0.63in ♦ Length Each: 110mm/4.3in ♦ Weight Each: 800g/1.7lb ♦ Temperature Limits: -30 to 70°C * Note: Dumbbell conforms to ASTM D638 type iv, BS2782 Part 3 Method 320A Fig 1., and DIN53455 No 4 Fig 3
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This low force tensile grip is used on ST series materials testing machines.
| Applications: Rigid polymer dumbbells typically cut from a section of gas and water pipe
|
HT23 Tension Hooks 5kN | |
Tension hooks for use in component testing, often used individually in conjunction with other gripping devices. Variations of the hook profile are available to suit the component under test as well as a self-aligning option.
| ♦ Maximum Capacity: 5kN/1,000lbf ♦ Minimum Loadcell: 100N/440lbf ♦ Length Each: 78mm/3in ♦ Weight Each: 250g/0.55lb ♦ Temperature Limits: -30 to 70°C Note: Hook profile and required dimensions must be considered and included on order.
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This low force tensile grip is used on ST series materials testing machines.
| Applications: ♦ Tension springs♦ Zip components♦ Canned drink ring pulls♦ Medical components |
HB15 Bollard Grips | |
Self-tightening bollard wedge grips. The combination of a wedge and bollard provides an efficient method of gripping low friction materials. A lever release allows rapid loading of the test sample.
| ♦ Maximum Capacity: 10kN/2,000lbf ♦ Minimum Loadcell: 500N/100lbf ♦ Maximum Sample Width: 25mm/1in ♦ Maximum Sample Thickness: 3mm/0.1in ♦ Length Each: 130mm/5.1in ♦ Weight Each: 2.2kg/4.5lbf ♦ Temperature Limits: -70 to 200°C
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The wedge style tensile grip is used on ST series materials testing machines.
| Applications: Flexible low friction materials such as polypropylene strapping, PTFE tape, roofing felts etc. Ideally the overall sample length should be greater than 350mm (14in).
|
Elastic Filament Grip | |
The 99-1001497 grip is fitted with rubber faced jaws that are spring loaded to house the specimen prior to applying the final gripping pressure via a knurled thumb wheel.
| ♦ Maximum Capacity: 100 N/ 22.5 lbf ♦ Minimum Loadcell: 10 N/2.25 lbf ♦ Maximum Specimen Width: 10 mm/0.4 in ♦ Maximum Specimen Thickness: 2.5 mm/0.1 in ♦ Length Each: 85 mm/3.35 in ♦ Weight Each: 100 g/0.22 lb ♦ Temperature Limits: Ambien
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The elastic filament grip is used on ST series materials testing machines.
| Applications: ♦ Elastic filaments ♦ Nylon filaments ♦ Threads ♦ Yarns
|
Air Distribution Controller | |
Air distribution controller (ref. 99-045-0032) for pneumatically controlled grips.
| The air distribution controller is used on ST series materials testing machines. |
Features low pressure independent upper and lower grip open/close switches to allow specimen clamping, and a high pressure grip closure switch that requires two-handed operation to ensure operator safety.
| Applications: ♦ Sheet materials ♦ Paper ♦ Plastic films ♦ Waxed pape
|
187-006 Knurled Roller Grips | |
Medium duty self-tightening knurled roller grips. Versatile and quick loading, suitable for flat dumbbells. The eccentric diamond knurled roller and back plate provide efficient gripping on the smoothest specimen surface.
| ♦ Maximum Capacity: 5kN/1,000lbf♦ Minimum Loadcell: 100N/20lbf ♦ Maximum Specimen Width: 75mm/3in ♦ Maximum Sample Thickness: 7mm/0.28in ♦ Length Each: 74.5mm/2.9in ♦ Weight Each: 1.45kg/3.2lb ♦ Temperature Limits: -70 to 150°C
|
The roller style tensile clamp is used on benchtop materials testing machines.
| Applications: ♦ Sheet materials♦ Rubber♦ Polymers |
187-005 Knurled Roller Grips | |
Self-tightening knurled roller grips. Versatile and quick loading, suitable for flat dumbbells. The eccentric diamond knurled roller and back plate provide efficient gripping on the smoothest specimen surface.
| ♦ Maximum Capacity: 2kN/440lbf♦ Minimum Loadcell: 50N/10lbf ♦ Maximum Specimen Width: 50mm/2in ♦ Maximum Sample Thickness: 4mm/0.16in ♦ Length Each: 66mm/2.6in ♦ Weight Each: 0.65kg/1.4lb ♦ Temperature Limits: -70 to 150°C
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The roller style tensile grip is used on benchtop materials testing machines.
| Application: ♦ Sheet materials ♦ Rubber ♦ Polymers
|
157-005 Scissor Grips | |
Medium duty scissor action grip. Self-tightening and self-aligning grips that use two cross-cut faces. The grip is particularly efficient for testing flexible dumbbell specimens. The centreline of the specimen remains constant in relation to the test machine, irrespective of the specimen thickness.
| ♦ Maximum Capacity: 5kN/1,000lbf♦ Minimum Loadcell: 250N/50lbf ♦ Jaw Face: Diamond cut ♦ Maximum Specimen Width: 50mm/2in ♦ Maximum Sample Thickness: 15mm/0.6in ♦ Length Each: 205mm/8.1in ♦ Weight Each: 2.65kg/5.8lb ♦ Temperature Limits: -70 to 150°C
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The tensile vise grip is used on benchtop materials testing machines.
| Applications: ♦ Polystyrene ♦ Rubber ♦ Composites ♦ Sintered materials ♦ Medical tablets ♦ Components
|
157-004 Scissor Grips | |
Light duty scissor action grip. Self-tightening and self-aligning grips that use two knurled rollers. The grip is particularly efficient for testing flexible dumbbell specimens. The centreline of the specimen remains constant in relation to the test machine, irrespective of the specimen thickness.
| ♦ Maximum Capacity: 2kN/440lbf ♦ Minimum Loadcell: 25N/5lbf ♦ Jaw Face: Diamond knurl ♦ Maximum Specimen Width: 25mm/1in ♦ Maximum Sample Thickness: 10mm/0.4in ♦ Length Each: 130mm/5.1in ♦ Weight Each: 0.47kg/1lb ♦ Temperature Limits: -70 to 150°C
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The tensile vise grip is used on benchtop materials testing machines.
| Applications: ♦ Polystyrene ♦ Rubber ♦ Composites ♦ Sintered materials ♦ Medical tablets ♦ Components |
137-004 Bollard Grips | |
Light duty stirrup grip. Specimen is clamped by wrapping between plain self-tightening bollard and backing plate to eliminate stress concentration.
| ♦ Maximum Capacity: 1kN/220lbf♦ Minimum Loadcell: 25N/5lbf ♦ Maximum Specimen Width: 50mm/2in ♦ Maximum Sample Thickness: 3mm/0.12in ♦ Length Each: 80mm/3.15in ♦ Weight Each: 0.42kg/0.9lb ♦ Temperature Limits: -70 to 150°C
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The roller style tensile grip is used on benchtop materials testing machines.
| Applications: Thin flexible materials such as latex, vulcanised rubber, plastic film, and paper.
|
131-007 Bollard Grips | |
Bollard/horn type grips designed for testing cords, fine wire, filaments etc. The bollard reduces stress concentration on the test specimen to avoid a grip-induced break.
| ♦ Maximum Capacity: 1kN/220lbf ♦ Minimum Loadcell: 25N/5lbf ♦ Maximum Sample Thickness: 3mm/0.1in ♦ Length Each: 76mm/3in ♦ Weight Each: 0.33kg /0.73lb ♦ Temperature Limits: -10 to 50°C
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The roller style tensile clamp is used on benchtop materials testing machines.
| Applications: ♦ Filaments♦ Threads♦ Cords♦ Fibres♦ Fine wire♦ Tyre cord
|
121-014 Vice Grips | |
Medium duty clamps with a hinged front specimen clamping plate for easy loading and unloading of test specimens. Gripping pressure is applied via a screw action. Jaw faces are rubber.
| ♦ Maximum Capacity: 5kN/1,000lbf ♦ Minimum Loadcell: 250N/50lbf ♦ Jaw Face: Rubber ♦ Maximum Specimen Width: 80mm/3.2in ♦ Maximum Sample Thickness: 10mm /0.4in ♦ Length Each: 105mm/4.1in ♦ Weight Each: 2.7kg/5.9lb ♦ Temperature Limits: -10 to 50°C
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The vise style tensile grip is used on benchtop materials testing machines.
| Applications: ♦ Sheet materials♦ Paper♦ Plastic films♦ Medical components♦ Packaging components |
121-013 Filament Grips | |
Light filament grip. Fitted with rubber faced jaws and spring loaded to retain the specimen prior to applying final gripping pressure via a knurled thumb wheel.
| ♦ Maximum Capacity: 100N/22 lbf♦ Minimum Loadcell: 5N/1lbf ♦ Jaw Face: Rubber ♦ Maximum Specimen Width: 0mm/0.4in ♦ Maximum Sample Thickness: 1.5mm/0.06in ♦ Length Each: 75mm/2.95in ♦ Weight Each: 0.14kg/0.3lb ♦ Temperature Limits: -10 to 50°C
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This tensile vise grip is used on benchtop materials testing machines.
| Applications: ♦ Elastic and nylon filaments ♦ Yarns ♦ Threads
|
121-003 Vice Grips | |
Light duty clamps with a hinged front specimen clamping plate for easy loading and unloading of test specimens. Gripping pressure is applied via a screw action. Jaw faces are rubber.
| ♦ Maximum Capacity: 2kN/440lbf♦ Minimum Loadcell: 50N/10lbf ♦ Jaw Face: Rubber ♦ Maximum Specimen Width: 60mm/2.4in ♦ Maximum Sample Thickness: 3mm/0.1in ♦ Length Each: 63mm/2.5in ♦ Weight Each: 0.55kg/1.2lb |
The vise style tensile grip is used on benchtop materials testing machines.
| Applications: ♦ Sheet materials♦ Paper♦ Plastic films♦ Medical components♦ Packaging components |
VEM 100 Series
Tinius Olsen’s VEM 100 series of video extensometer modules are designed to measure higher levels of strain (>10%) in tensile, compression, shear and flexural modes.
The units are fully integrated with the testing machine and results-reporting software, supporting multiple gauge length click and drag placements, strain rate control and real time results during and throughout the test.
The VEM 100 series is directly compatible with all Tinius Olsen testing machine frames. It is mounted using a stabilised carbon fibre arm with built-in X, Y and Z fine positioning adjustment for optimum measuring performance.
The unit can be mounted at the front or rear of a testing machine, left or right in support of operator comfort and efficiency of use. The extensometer on its mounting arm can be quickly moved away from the test area, ensuring full operator access for specimen loading and grip or accessory changes, then equally quickly swung back into position, locating precisely using the magnetic homing position – simple, precise and quick.
The built-in lighting strip ensures repeatability in tests irrespective of lab conditions yet requires no special light sources or red colours, being easily controlled by the user adjusting intensity as required to ensure a stable light environment.
Information
These versatile extensometer modules are available in a number of different performance configurations each compatible with Tinius Olsen’s Horizon and VSS materials testing software, whether the Basic, Standard or Advanced option.
The precise camera, lens and data acquisition technology delivers zero gauge length error every time and quick application of gauge marks, including for the measurement of rotation (to track specimen alignment) during testing. Calibration is digitally embedded but, for reassurance, can be checked at any time using the standard traceable gauge block supplied.
For most applications a single VEM extensometer module meets the need, but up to four extensometer modules can be synchronised to work together capturing four simultaneous events.
The VEM Video Extensometer is the future of extensometery simply because it improves productivity through speed of use, improves repeatability and aids traceability via the embedded strain data video stored as part of the results data set. In addition, there are no mechanical parts under strain when subjected to the release force at the specimen break point.
Key Features
♦ Non-contacting video extensometer solution
♦ One extensometer measures in tension, compression, flexural, shear modes
♦ No risk of damage due to violent specimen breaks
♦ Capable of measuring up to 1000% strain
♦ Supports quick gauge length change 10mm, 25mm, 50mm, 100mm, 200mm
♦ Provides a permanent record for recall of the test in video format with full resolution embedded strain data
♦ Meets the requirements of ISO 9513 class 0.5, ASTM E83 class B1 and GB/T 12160 class 0.5″
VEM 200 Series
Tinius Olsen’s VEM 200 series of video extensometer modules is designed to measure low levels of strain from 0.01% in tensile, compression, shear and flexural modes.
The units are fully integrated with the testing machine and results-reporting software, supporting multiple gauge length click and drag placements, strain rate control and real time results during and throughout the test.
The VEM 200 series is directly compatible with all Tinius Olsen testing machine frames. It is mounted using a stabilised carbon fibre arm with built-in X, Y and Z fine positioning adjustment for optimum measuring performance.
The unit can be mounted at the front or rear of a testing machine, left or right in support of operator comfort and efficiency of use. The extensometer on its mounting arm can be quickly moved away from the test area, ensuring full operator access for specimen loading and grip or accessory changes, then equally quickly swung back into position, locating precisely using the magnetic homing position – simple, precise and quick.
The built-in lighting strip ensures repeatability in tests irrespective of lab conditions yet requires no special light sources or red colours, being easily controlled by the user adjusting intensity as required to ensure a stable light environment.
Information
These versatile extensometer modules are available in a number of different performance configurations each compatible with Tinius Olsen’s Horizon and VSS materials testing software, whether the Basic, Standard or Advanced option.
The precise camera, lens and data acquisition technology delivers zero gauge length error every time and quick application of gauge marks, including for the measurement of rotation (to track specimen alignment) during testing. Calibration is digitally embedded but, for reassurance, can be checked at any time using the standard traceable gauge block supplied.
For most applications a single VEM extensometer module meets the need, but up to four extensometer modules can be synchronised to work together capturing four simultaneous events.
The VEM Video Extensometer is the future of extensometery simply because it improves productivity through speed of use, improves repeatability and aids traceability via the embedded strain data video stored as part of the results data set. In addition, there are no mechanical parts under strain when subjected to the release force at the specimen break point.
Key Features
♦ Non-contacting video extensometer solution
♦ One extensometer measures in tension, compression, flexural, shear modes
♦ No need for bonded strain gauges or multiple clip on extensometers for r&n
♦ Supports axial, transverse, orthogonal and rotational measurements
♦ Provides a permanent record for recall of the test in video format with full resolution embedded strain data
♦ Meets the requirements of ISO 9513 class 0.5, ASTM E83 class B1 and GB/T 12160 class 0.5
VEM 300 Series
Tinius Olsen’s VEM 300 series Video extensometer is designed as a flexible platform allowing users to define their own extensometer performance using standard technology building blocks these being to measure low or high strain in tensile, compression, shear and flexural modes. The building blocks consist of camera and lens, lighting, machine frame mounting options and data exchange options.
The VEM 300 series is directly compatible with all Tinius Olsen testing machine frames, single, twin and four column machines, camera staging options are available including a unit that allows for fine X, Y and Z camera positioning and adjustment for optimum measuring performance. The 300 series can be mounted at the front or rear of most testing machines or free standing on a tripod.
There are over 70 lens types to choose from in pursuit of a specific camera lens performance, be it data capture speed, field of view in which the event will occur, resolution and accuracy.
Information
This versatile extensometer platform delivers zero gauge length error every time, quick application of gauge marks including for the measurement of rotation to track specimen alignment during the test. Calibration is digitally and can be verified at any time using a standard traceable gauge block supplied.
Tinius Olsen’s VEM Video extensometer is the future of extensometery simply because it is straight forward to use be it in a research application or as an educational tool. Test reporting is strengthened by the strain embedded video record which along with the strain mapping option gives depth to material analysis and reports.
Key Features
♦ Non-contacting video extensometer solution
♦ System supports up to four synchronised cameras capturing data real time and simultaneously
♦ Measures in tension, compression, flexural, shear modes
♦ No need for bonded strain gauges or multiple clip on extensometers for r&n
♦ Supports axial, transverse, orthogonal and rotational measurements
♦ Provides a permanent record for recall of the test in video format with full resolution embedded strain data
♦ Meets the requirements of ISO 9513 class 0.5, ASTM E83 class B1 and GB/T 12160 class 0.5 proportional low strain”
Automatic Extensometer
The extensometer models AE300 and AE500 are suitable for almost all samples with an initial gauge length from 10mm. Their low clamping forces combined with high measurement accuracy makes them highly suitable even for small, notch sensitive test samples.
The AE series can be connected to partly or fully automatic testing machines and used with all types of grips. The strain can be measured from the elastic range to fracture for almost all types of samples. When used in combination with the transverse models, the AE extensometers are highly suitable for testing the deep-drawing properties of thin sheets.
The AE extensometers are controlled through Tinius Olsen’s Horizon software via a serial interface (RS232 or USB). All movements can be initiated at any time required. The measuring arms can be positioned in parallel within the available interval under computer control and thus can quickly be adjusted symmetrically to different sample lengths.
Specifications
♦ Accuracy class EN ISO 9513: 0.5
♦ Accuracy class ASTM E83: B1
♦ Measurement principle: opto-incremental
♦ Travel (minus gauge length): 300mm (AE 300)/500mm (AE 500)
♦ Position travel: 190mm
♦ Gauge length: 10 to 300mm (AE 300)/10 to 500mm (AE 500)
♦ Indication error (rel.): 0.5%*
♦ Indication error: 1.5µm*
♦ Error in linearity: 0.005
♦ % error in gauge length: 0.5%
♦ Resolution: 1 or 0.1µm
♦ Activating force: <0.01N
♦ Clamping force: 0.25N**
♦ Operating temperature range: 0-50°C
♦ Weight: approx. 26kg (AE 300)/approx. 31kg (AE 500)
* The larger of the values is admissible
** The clamping force can be adjusted by tension springs
Key Features
♦ Two-sided measurement by means of four measuring sensors
♦ Very high resolution of up to 0.1μm over the complete measuring range
♦ Very low clamping forces even allow testing of foils and thin wires
♦ The round knife edges can be utilised along their entire perimeter by rotating them
♦ The gauge length position and value can be exactly set under computer control
LVDT Type Extensometer
Extensometers measure strain, the change in length of a specimen divided by the original length (gauge length) of the specimen, by means of knife edges that contact the sample, one of which is fixed in position and the other located on a moveable arm.
On these models, the moveable arm is pivoted – the knife edge is at one end and the other end is attached to an armature that moves through an LVDT coil.
Most of these extensometers can be adapted to exact specimen holding needs by the options that are described below, but in their standard form hold flat or round specimens from 1.6 to 16mm (1/16 to 5/8in).
Options 1
♦ Averaging — With this type of extensometer, knife edges are placed on opposite sides of the specimen to provide an average amount of strain between the two gauge points.
♦ Film Clamps — These spring activated clamps allow precise strain measurement of thin materials up to 3mm/0.125in thick, including plastics and foils, without marring the specimen. This option is only available for non-averaging extensometers and typically requires the use of a counterbalance to support the extensometer.
♦ Breakaway Release — This option is ideal for measuring strain on samples with brittle characteristics that may cause premature failure. It typically requires the use of a counterbalance to support the extensometer and is available for both averaging and non-averaging type extensometers.
♦ Sheet Metal Attachment — This option allows the extensometer to accommodate thin, flat specimens. Note that this option is only available for non-averaging extensometers and typically requires the use of a counterbalance to support the extensometer.
Options 2
♦ Extension Bracket — This option allows the extensometer to be used with samples that are thicker than maximum opening of 16mm/0.625in on the standard model. There are three versions where an extension bracket allows the extensometer to be mounted on samples that are 25mm/1in, 50mm/2in or 75mm/3in thick. This option is only available for non-averaging extensometers.
♦ Pneumatic Release — This option is combined with a swing-away support and allows the remote release of the extensometer from the sample.
♦ Counterbalance Support – This option is used to support the extensometer and is commonly used when the extensometer is attached to small or fragile samples.
Model 100R Extensometer
The Tinius Olsen model 100R is a high elongation extensometer that is designed to measure the ‘stretch’ of a wide range of materials including elastomers and non-rigid plastics.
The initial measuring length, or gauge length, can be changed to suit the specimen size or the test standard that is being applied.
The unique design ensures an extremely low tracking force for testing sensitive materials, as well as a robust construction that can easily withstand the high release forces and breaking energies with certain specimens.
The design also incorporates a simple yet effective method by which the extensometer followers are attached to the specimen, allowing rapid throughput of testing.
Specifications
♦ Elongation Measurement Range: 720mm/28.35in (extended options available)
♦ Gauge lengths: 10, 15, 20, 25, 40 50mm
♦ Accuracy: 1% on 25mm gauge length, ISO 5893 class A, ASTM E83 class C
♦ Resolution: 0.01mm/0.0004in
♦ Tracking Force: <10g/<0.02lbf
♦ Specimen Thickness: 0 to 5mm/0 to 0.2in
♦ Dimensions: H x W x D 1015 x 53 x 200mm/40 x 2.1 x 7.9in
♦ Weight: 5.5kg/11lb
Measuring Extension
Extension is measured by attaching two counterbalanced extensometer clamps to the specimen at a pre-selected gauge length. When tensile forces are applied to the specimen by the testing machine, the slightest change in gauge length is measured by an optical encoder. Signals from the optical encoder are fed into the signal conditioner interface for processing.
The 100R extensometer can be fitted to all sizes of screw-driven materials testing machines.
Model 100S Extensometer
The Tinius Olsen model 100S is designed as a dual purpose extensometer to measure E modulus and offset yield stress (proof stress) on relatively high modulus materials while also providing the ability to measure high elongations up to break.
A typical application is the testing of polycarbonate, where a high resolution system is required to measure the E modulus (Youngs modulus) and a secondary system is required to measure elongation to the point of break, which typically could be as high as 200% strain.
Other materials the 100S extensometer is ideally suited to include polyurethane, polyethylene (PET), glass reinforced plastics (GRP), and aluminum alloys.
The unique design ensures an extremely low tracking force for testing sensitive materials and a construction that is sufficiently robust to withstand the release force when the specimen breaks. An important feature is the ease with which the extensometer clamps can be attached to the specimen, resulting in very rapid testing throughput.
Specifications
Range of Scan:
♦ LVDT Transducer – 10% on 25mm/1in gauge length, 5% on 50mm gauge
♦ Optical Digital Encoder – 720mm/28.35mm (extended options available)
Accuracy:
♦ LVDT Transducer – 1%, EN10002-4 Class 1
♦ Optical Digital Encoder – 1% on 25mm gauge length, BS5214 grade C&D
Resolution:
♦ LVDT Transducer – 0.0005mm/0.00002in
♦ Optical Digital Encoder – 0.0004mm/0.01in
♦ Tracking force – 10g/0.02lbf
♦ Specimen Thickness – 0 to 10mm/0 to 0.4in
♦ Dimensions: H x W x D 1015 x 95 x 200mm/40 x 3.75 x 7.9in
♦ Weight: 7.5kg/16.5lb
Measuring Extension
Extension is measured by attaching two counterbalanced extensometer clamps to the specimen at a preselected gauge length.
When tensile forces are applied to the specimen by the testing machine, the slightest change in gauge length is measured by a precise LVDT transducer. If the range of this LVDT transducer is exceeded, measurement of elongation and strain transfers to an optical encoder.
Signals from the LVDT and optical encoder are fed into the signal conditioner interface for processing. The 100S extensometer can be fitted to all twin-screw materials testing machines and must be used under software control.
Model 500LC Laser Extensometer
The Tinius Olsen model 500LC non-contacting extensometer is designed to measure the extension of medium to high elongation materials, typically elastomers. Since there is no contact between the extensometer and the sample, the 500LC is also ideal for measuring the elongation of fragile samples where such contact could induce a premature sample break.
The model 500LC uses a low power helium neon laser with precision optical components and a dedicated 16-bit processor. The laser projects a visible red scanning beam that is directed at two reflective targets attached to the specimen.
An additional benefit of using laser technology is its ability to scan the test specimen through the glass viewing window of an environmental test chamber. Elongation characteristics can then be evaluated from –70°C to 300°C.
Specifications
♦ Range of Measurement: Up to 600mm/23.6in
♦ Gauge Lengths: 10mm/0.39in to full scan
♦ Accuracy: 1% on 25mm gauge length, BS5214 grade D
♦ Resolution: 0.012mm/ 0.000472in with filtering
♦ Optical Scan: 320 scans per second/90 degrees
♦ Dimensions: H x W x D 320 x 111 x 180mm/ 32 x 4.4 x 7.9in
♦ Weight: 7kg/15.5lb
Measuring Extension
Preparation of the test specimen is quick and easy. A punch is supplied to cut narrow strips of adhesive reflective tape. The gauge length is defined by attaching these two reflective strips to the sample. Any gauge length can be used and this is accurately measured by the laser at the start of the test. When force is applied to the sample, the laser scanning beam will measure the separation of the reflective gauge marks at a scan rate of 320 scans per second.
Unlike other non-contacting extensometers, if the scanning beam is interrupted for any reason, elongation measurements will automatically be corrected when normal operation is resumed.
Non-Contact Video Extensometer
Tinius Olsen’s Epsilon ONE high-precision optical extensometers measure axial strain with industry-leading resolution, accuracy and speed.
Innovative Instant Reset, Always On and Laser Alignment features maximize performance and increase testing throughput.
Tinius Olsen Epsilon ONE optical non-contact extensometers perform high-accuracy, high-resolution, non-contacting axial strain and displacement measurement. These extensometers are suitable for testing high-modulus materials such as metals and composites, high-elongation materials, thin or delicate specimens, cyclic fatigue, strain controlled testing, deflectometer applications, and measuring crack opening displacements. Strain or extension is measured and output in real time.
Epsilon ONE’s high resolution and ISO 0,5 / ASTM B-1 accuracy classes make it suitable for non-contact measurement of a wide range of strain values, from very small strains required to measure modulus of metals, composites, ceramics and CMCs through elastomers and everything in between.
Information
Class-leading accuracy and resolution are achieved by Epsilon’s comprehensive optical path optimization, a unification of several optical technologies and signal processing algorithms. Ultra-high camera resolution, real-time data rates up to 3000Hz, minimization of optical error sources, and signal processing techniques provide high strain resolution and accuracy with the lowest noise. No other system on the market combines all of these technologies.
The Laser-Assist Alignment System provides an instant alignment and distance spot check. Epsilon ONE will project pre-aligned laser lines on the specimen before the test, revealing any misalignment. During the test, high precision telecentric lenses eliminate errors due to out-of-plane movements – on low strain materials and components. Epsilon ONE arrives factory calibrated – there are no calibration grids or gauge length bars, saving a great deal of time.
The system sets up for new specimen types in minutes and requires very little training or skill to use. The desktop user interface software and optional Touch Interface provide continuous digital readouts and status information. Epsilon ONE was designed for the fastest specimen cycle times. Auto-start repetitive tests without any software interaction; Epsilon ONE is always running, and its Instant Reset and Automatic Mark Detection eliminate software start/stop interactions common with video extensometers. Epsilon ONE fits all types of materials testing machines. The system may be used with environmental chambers that are equipped with a window”
Key Features
♦ Non-contacting video extensometer solution
♦ Resolution, accuracy and speed
♦ Always on, always real time
♦ Telecentric design
♦ Laser assist alignment system
♦ Real-time digital output
♦ Better strain control
♦ Applicable for testing with many ISO, ASTM standards
♦ ISO 6892-1, 527-2, 527-4, 527-5
♦ ASTM E8, E9, D3039, D638, A370, D3552, E646
Strain Gauge Type Extensometers
Extensometers measure strain, the change in length of a specimen divided by the original length (gauge length) of the specimen, by means of knife edges that contact the sample. This series of extensometers comprises strain gauged devices.
The models in this series of extensometer can be used to measure either longitudinal or transverse strain, or can be used in combination for determining ‘r’-value and Poisson’s ratio.
Specifications
SGM Models – Metric Units: Measuring Range, Gauge Length, Direction
♦ SGM-20%-50: 20%, 50mm, Longitudinal
♦ SGM-20%-25: 20%, 25mm, Longitudinal
♦ SGM-20%-80: 20%, 80mm, Longitudinal
♦ SGM-50%-80: 50%, 80mm, Longitudinal
♦ SGM-50%-50: 50%, 50mm, Longitudinal
♦ SGM-100%-50: 100%, 50mm, Longitudinal
♦ SGMT-10%-25: +/-2.5mm, 0-25mm,Transverse
SG Models – English Units: Measuring Range, Gauge Length, Direction
♦ SG-20%-2: 20%, 2in, Longitudinal
♦ SG-20%-1.4: 20%, 1.4in, Longitudinal
♦ SG-20%-1: 20%, 1in, Longitudinal
♦ SG-20%-0.5: 20%, 0.5in, Longitudinal
♦ SG-50%-2: 50%, 2in, Longitudinal
♦ SGT-10%-1: +/- 0.1in, 0 to 1in, Transverse
Key Features
♦ Can be left on specimen through failure
♦ Lightweight to minimise any influence on the test
♦ Low operating force
♦ Rugged construction to withstand rigours of operation
50mm compression platen 1kN
Light compression platens, round in profile, with a precision hardened surface. Platens also feature test specimen centering locating rings.
The 99-1001241 Compression Platen is used on benchtop materials testing machines.
Specifications
♦ Maximum Capacity: 1kN/220 lbf
♦ Minimum Loadcell: 25N/5lbf
♦ Platen Diameter: 50mm/2in
♦ Minimum Sample Size: 8 mm/0.3in
♦ Length Each: 41mm/1.6in
♦ Weight Each: 0.21kg/0.5lb
♦ Temperature Limits: -70 to 150°C”
Applications
♦ Polystyrene
♦ Rubber
♦ Composites
♦ Sintered materials
♦ Medical tablets
♦ Components
100mm compression platen 1kN
Light compression platens, round in profile, with a precision hardened surface. Platens also feature test specimen centering locating rings.
The 99-1001242 Compression Platen is used on benchtop materials testing machines.
Specifications
♦ Maximum Capacity: 1kN/220 lbf
♦ Minimum Loadcell: 50N/10lbf
♦ Platen Diameter: 100mm/4in
♦ Minimum Sample Size: 8mm/0.3in
♦ Length Each: 58mm/2.3in
♦ Weight Each: 0.85k/1.87lb
♦ Temperature Limits: -70 to 150°C
Applications
♦ Polystyrene
♦ Rubber
♦ Composites
♦ Sintered materials
♦ Medical tablets
♦ Components
150mm compression platen 1kN
Light compression platens, round in profile, with a precision hardened surface. Platens also feature test specimen centering locating rings.
The 99-1001243 Compression Platen is used on benchtop materials testing machines.
Specifications
♦ Maximum Capacity: 1kN/220 lbf
♦ Minimum Loadcell: 100N/20lbf
♦ Platen Diameter: 150mm/6in
♦ Minimum Sample Size: 8mm/0.3in
♦ Length Each: 58mm/2.3in
♦ Weight Each: 1.5kg/3.3lb
♦ Temperature Limits: -70 to 150°C
Applications
♦ Polystyrene
♦ Rubber
♦ Composites
♦ Sintered materials
♦ Medical tablets
♦ Components
50mm compression platen 30kN
Medium duty compression platens, round in profile, with a precision ground hardened surface. Platens also feature test specimen centering locating rings.
The 99-1001244 Compression Platen is used on benchtop materials testing machines.
Specifications
♦ Maximum Capacity: 30kN/6,000lbf
♦ Minimum Loadcell: 50N/10lbf
♦ Platen Diameter: 50mm/2in
♦ Minimum Sample Size: 10mm/0.4in
♦ Length Each: 41mm/1.6in
♦ Weight Each: 0.6kg/1.3lb
♦ Temperature Limits: -70 to 150°C
Applications
♦ Polystyrene
♦ Rubber
♦ Composites
♦ Sintered materials
♦ Medical tablets
♦ Components
100mm compression platen 30kN
Medium duty compression platens, round in profile, with a precision ground hardened surface. Platens also feature test specimen centering locating rings.
The 99-1001245 Compression Platen is used on benchtop materials testing machines.
Specifications
♦ Maximum Capacity: 30kN/6,000lbf
♦ Minimum Loadcell: 100N/20lbf
♦ Platen Diameter: 100mm/4in
♦ Minimum Sample Size: 10mm/0.4in
♦ Length Each: 58mm/2.3in
♦ Weight Each: 1.8kg/4lb
♦ Temperature Limits: -70 to 150°C
Applications
♦ Polystyrene
♦ Rubber
♦ Composites
♦ Sintered materials
♦ Medical tablets
♦ Components
150mm compression platen 30kN
Medium duty compression platens, round in profile, with a precision ground hardened surface. Platens also feature test specimen centering locating rings.
The 99-1001246 Compression Platen is used on benchtop materials testing machines.
Specifications
♦ Maximum Capacity: 30kN/6,000lbf
♦ Minimum Loadcell: 250N/50lbf
♦ Platen Diameter: 150mm/6in
♦ Minimum Sample Size: 10mm/0.4in
♦ Length Each: 58mm/2.3in
♦ Weight Each: 3.8kg/8.4lb
♦ Temperature Limits: -70 to 150°C
Applications
♦ Polystyrene
♦ Rubber
♦ Composites
♦ Sintered materials
♦ Medical tablets
♦ Components
HF508 Flex grips
Short span four-point, fixed span flexural test attachment comprising base and upper units, each with two points of contact. Upper unit is semi-articulating and all points of contact are free to rotate to minimise any frictional constraints.
The HF508 is used on benchtop materials testing machines.
Specifications
♦ Maximum Capacity: 5kN/1,000lbf
♦ Minimum Loadcell: 250N/50lbf
♦ Lower fixed spans: 20, 40 or 80mm/0.8, 1.58 or 3.15in
♦ Upper fixed spans: 10, 20 or 40mm/0.4, 0.8 or 1.58in
♦ Radius of Contact Anvils: 1, 1.25, 2.25 or 4.5mm/0.04, 0.05, 0.09, 0.18in
♦ Max Specimen Width: 8mm/0.2in
♦ Weight of upper contact: 0.35kg/0.75lb
♦ Temperature Limits: Ambient
High and low temperature options are available for use in temperature chambers.
Applications
♦ Ceramics at ambient temperatures.
HF630 Flex grips
Fixed span three-point flexural test attachment comprising a base unit with two support contact points and one upper point of contact.
The HF630 is used on benchtop materials testing machines.
Specifications
♦ Maximum Capacity: 5kN/1,000lbf
♦ Minimum Loadcell: 500N/100lbf
♦ Fixed Span: 254mm/10in
♦ Radius of Contact Points: 16mm/0.63in
♦ Maximum Specimen Width: 76mm/3in
♦ Weight of upper contact: 0.7kg/1.54lb
♦ Temperature Limits: Ambient
Applications
♦ Sintered materials
♦ Ceramics
♦ Glass
Three-point flexural test Grip 99-1002330
Variable span three-point flexural test attachment comprising base unit with two support points of contact and one upper point of contact. Graduated scale on main body of the unit allows accurate setting of support span.
The 99-1002330 flexural test attachment is used on ST Series material testing machines.
Specifications
♦ Maximum Capacity: 25kN/5,620lbf
♦ Minimum Loadcell: 250N /56lbf
♦ Variable Span: 35 to 300mm/1.4 to 11.8in
♦ Radius of Contact points: see below*
♦ Max Specimen Width: 50mm/2in
♦ Weight of upper contact: 1.5kg/ 3.3lb
♦ Weight (except upper contact): 9.75kg /21.5lb
♦ Temperature Limits: -30 to 70°C
Options
♦ Two-point centre anvil for conversion from three-point loading to four-point loading.
♦ Spans available in either metric or English graduations
*Available anvil loading bars
Length Diameter
50.8mm 4mm
50.8mm 5mm
50.8mm 6mm
50.8mm 8mm
50.8mm 10mm
50.8mm 12mm
50.8mm 16mm
50.8mm 20mm
50.8mm 25mm
50.8mm 1/2in
50.8mm 1/4in
50.8mm 1/8in
102mm 3/4in
Applications
♦ Polymers
♦ Composites
♦ Corrugated card
♦ Sheet materials
Three-point flexural test Grip 99-1002330 with LVDT
Variable span three-point flexural test attachment comprising base unit with two support points of contact and one upper point of contact. 10mm travel LVDT transducer kit and a mounting bracket also accompanies this flexural assembly. Graduated scale on main body of the unit allows accurate setting of support span.
The 99-1002330 with LVDT is used on ST Series material testing machines
Specifications
♦ Maximum Capacity: 25kN/5,620lbf
♦ Minimum Loadcell: 250N /56lbf
♦ Variable Span: 35 to 300mm/1.4 to 11.8in
♦ Radius of Contact points: see below*
♦ Max Specimen Width: 50mm/2in
♦ Weight of upper contact: 1.5kg/ 3.3lb
♦ Weight (except upper contact): 4.9kg /32.8lb
♦ Temperature Limits: -30 to 70°C
♦ Transducer resolution: 0.5µm/2E-5in
♦ Transducer accuracy: 10µm/4E-4in
♦ Transducer travel: 10mm/0.4 in
♦10mm LVDT kit: part# 99-1002382
♦ Mounting Bracket: part# 99-1002383
Options
♦ Two-point centre anvil for conversion from three-point loading to four-point loading.
♦ Spans available in either metric or English graduations.
*Available anvil loading bars
Length Diameter
50.8mm 4mm
50.8mm 5mm
50.8mm 6mm
50.8mm 8mm
50.8mm 10mm
50.8mm 12mm
50.8mm 16mm
50.8mm 20mm
50.8mm 25mm
50.8mm 1/2in
50.8mm 1/4in
50.8mm 1/8in
102mm 3/4in
Applications
♦ Polymers
♦ Composites
♦ Corrugated card
♦ Sheet materials
90 degree Peel Fixture
The 90 degree peel unit is comprised of a moving test plate mounted on bearings.
To maintain a constant peel angle, the test plate is driven in unison with the testing machine crosshead via a cord and pulley system. The printed circuit board (PCB )sample is retained on the test plate with a slotted clamp plate. An HT50 grip is supplied to grip the PCB copper strip. This fixture is compatible with ST series of benchtop material testing machines.
Specifications
♦ Maximum Capacity: 1.5kN/300 lbf
♦ Minimum Loadcell: 50N/10lbf
♦ Maximum sample width: 50mm/2in
♦ Maximum sample length: 150mm/5.9in
♦ Test plate length: 177mm/7in
♦ Temperature Limits: -20 to 100°C
Applications
Specifically designed for peel testing the bond between copper and PCBs
90 degree Peel Fixture with servo driven test plate
90 degree peel unit has a servo driven test plate on which various subtrates can be attached.
A seperate control unit is supplied that enables the operator to set the speed of the test plate to accurately correspond with the speed of the testing machine – this maintain a constant peel angle. An HT50 grip is supplied to grip the free end of the sample. This fixture is compatible with ST series of benchtop material testing machines.
Specifications
♦ Maximum Capacity: 250N/50lbf
♦ Minimum Loadcell: 50N/10lbf
♦ Maximum sample width: 50mm/2in
♦ Minimum peel length: 250mm/10in
♦ Speed range of test plate: 1-1000mm/min
♦ Temperature Limits: -20 to 100°C
Applications
Pressure sensitive tapes
180 degree Peel Fixture
180 degree peel unit comprising a test bed with a spring-loaded retaining plate. The test bed with a spring-loaded retaining plate is used for locating various test panels on which the peel sample is bonded. An HT50 grip is supplied to grip the free end of the sample. This fixture is compatible with ST series of benchtop material testing machines.
Specifications
♦ Maximum Capacity: 1.5kN/300 lbf
♦ Minimum Loadcell: 50N/10lbf
♦ Maximum sample width: 50mm/2in
♦ Test plate length: 200mm/8in
♦ Weight: 675g/1.49lb
♦ Temperature Limits: -70 to 100°C
Applications
Flexible pressure sensitive tapes, labels and laminated coatings
Climbing Drum Peel Unit
Climbing drum peel unit comprising a flanged drum with integral clamp for holding the free end of the test assembly.
The opposing end is attached to the load cell. The drum is made to rotate by applying tension to the chains attached to the outer rims. This action produces a peel action on the adhesive bond. For ease of handling, the drum assembly is supported with Bowden cables. This unit is compatible with ST series of benchtop material testing machine.
Specifications
♦ Conforms to BS5350 part C13, ASTM D1781
♦ Maximum Capacity: 5kN/1,000 lbf
♦ Minimum Loadcell: 100N/20lbf
♦ Drum diameter: 102mm/4in
♦ Maximum sample width: 75mm/3in
♦ Weight top clamp: 900g/2lb
♦ Weight drum assembly: 2.5kg/5.5lb
♦ Temperature Limits: -30 to 200°C
Applications
For determining the perpendicular peel strength of adhesive bonds between the core and outer skin of sandwich assemblies, typically honeycomb and other composites.
Coefficient of friction test components
The components supplied for a Coefficient of Friction test include a sled of known mass that is connected via a cable to a nosepiece attachment.
A support plate is fixed to the bottom nosepiece and the nosepiece attachment and cable from the sled are passed under the freewheel mounted on the support plate and attached to the top nosepiece. Once all appropriate fixtures have been tightened, the friction test is ready to be performed. This fixture is compatible with ST series of benchtop material testing machines.
Specifications
♦ Maximum Capacity: 25N/5.6lbf
♦ Minimum Loadcell: 5N/1lbf
♦ Maximum support bed width: 100mm/4in
♦ Support bed length: 300mm/12in
♦ Sled weight: 200g +/- 2g
♦ Temperature Limits: Ambient to 28°C
Applications
Flexible pressure sensitive tapes, labels and laminated coatings. Typical test standards include ASTM D1894, ISO 8295 and more.
Horizon Software
Computer assisted data acquisition and machine control system which can be supplied with most Tinius Olsen testing equipment. The Horizon software package allows data to be collected, analyzed, graphed (where appropriate), and stored. If the testing machine allows, it can also provide control over testing operations.
Horizon has a comprehensive selection of pre-defined testing programs which includes powerful analysis of testing data, complex control, and sophisticated reporting. These programs can be modified and further enhanced to fit a customer’s particular requirements. The testing data collected by these programs may be exported to an outside source then later transferred to other data analysis systems. The Horizon databases may also be configured to be shared across several computers on a company’s network thereby allowing the testing programs and testing data to be utilized by multiple systems.
Using Horizon will make easy work of your materials testing, whether it’s designed for the demanding rigors of R&D or the charting and analysis functions of QC testing.
Key Features Overview
Advanced Machine Segment Control |
Customizable Report Layout |
Data Archiving and Backup |
Data Exporting (Results/Limits/Statistics/Points) |
Data Importing (Result Entries/Limits) |
Data Stored with SQL Server Express |
Formula Generation |
Library of Pre-Defined Testing Programs |
Method/Output Editor |
Multiple Graphs/Reports for Output |
Multiple Machine Controlled by one Horizon |
Multiple Users |
Networking Databases |
Report Consolidation |
RS232 Device Communication |
Security Lockout Capability |
Touchscreen Capability |
Video Extensometer Capability |
Test & Recall
The testing area allows for the viewing of live data from the machine while the test is being performed. Multiple tabs showcase the recalling of previous testing data as well as each testing machine connected to the software. Once a testing tab is created, it never has to be destroyed. When a new testing program needs to be run, simply change the Tab Options and load a new program. Each testing tab can be configured to display custom results, multiple graphs, multiple plots on a single graph, and live data (including custom formulas). Each tab may be customized to suite a user’s preferences.
Method/Output Editor
The testing program transferred from the Library may be customized for the customer in the Method and Output Editors. Create custom batch/sample identifiers for reporting and recalling purposes. Enhance the control of the machine with advanced machine segments. Automatically accept tests then print or email the report based on pre-defined limits. Customize multiple reports for various recipients. Import specimen data (such as dimensions or limits) from an outside file based on an identifier. Export results, limits, statistics, and/or curve points to an external file.
Custom Results
Methods transferred from the Library contain a number of results which have been standardized. In the Result Editor, however, custom result can be created. Such results can might be defined as entry type, a single point along a curve, a calculation between two points along a curve, a live source, or even a calculated formula. Depending upon how the result is created, it can be added to a testing panel to be viewed during the test or added to a report.
Library of Methods
A searchable database containing a variety of pre-defined testing routines. These methods are based on Standards from ASTM, ISO, EN, BS, DIN and many more. These routines include testing in tension, compression, flexure, torsion, melt index, heat distortion, hardness, impact, and more. Each method may be transferred into the user’s main database and customized with their own identifiers, units, report layouts, etc. With each new version update of Horizon, more and more routines are added to the Library.
Help Desk
Access to the tutorials which guide a user is various activities in the software.Displays details of the Software Key including items purchased. System Information displays valuable data regarding the software as well as the computer which it is installed upon. This guides the Tinius Olsen support staff when there are questions regarding system functionality. Please also note this page offers quick access to the Horizon QS program which will allow our Tinius Olsen support staff to take control of the computer when assistance is requested.
Additional information
Manufacturer | Tinius Olsen |
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Origin | USA |
Type | Manual |