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Tensile and Pressure Testing Machine UNIMAT® PLUS 050 - 2 kN
Tensile and Pressure Testing Machine UNIMAT® PLUS 052 - 5 kN
Electrically driven testing machine, consisting of: Testing machine frame with driving unit, a displacement measurement, and an integrated evaluation and control unit based on PHYSIMETER® 906 MC-E. In the standard version the evaluation unit is provided with an wire strain gauge input for sensors (nominal signal 1 mV/V to 2.2 mV/V), an analogue output (± 2.5 V) and an encoder input. These three measuring channels represent the necessary basic configuration of the evaluation unit. Via data cable to be ordered separately the measured data can be transmitted to a PC.
The Measuring and Evaluation Software PHYSISOFT II is available free of charge at www.erichsen.de/download. |
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| It is a universal testing machine capable of carrying out tensile, compression, bending and shearing tests. Operation is manual, semiautomatic, and automatic. The test instrument can be modularised taking into account that the structure con house 3 permanently installed load cells for compression tests, and tensile grips for tests, including at break. Our system uses several cards (for axis and cell reader control) that are connected via CanBus to enable displacements to position or force at a feedback speed of 1000 Hz. Load cell reads are effected 1,000 times per second. Minimum indexing is 1/32.700 (this can be ircreased by slowing down load cell reading',. The universal testing machine operates with computerized numerical control and includes a computer with HD and touch screen. |
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The systems of tests of table of Series 5860 are appropriate ideally for the tests of force lower than 50 kN requiring a precise alignment or to test the large test-tubes. These systems use the electronics of acquisition and the most powerful order and the software Bluehill® 2 standardized in industry. Compared to the systems monocolonnes, the design bicolonne improves alignment and increases rigidity. These systems can be equipped with a vast range with jaws and accessories for the inflection, compression, tensile tests and component. The accessories available include/understand extensometers for the measurement of the deformations and the climatic chambers for the tests at varied temperatures.
Characteristics
Very high degree of accuracy: + 0.4% of the posted load (up to 1,0% of full capacity)
Very broad beach: Measurement bracket of force 500:1 (use of the sensor of force up to 0,2% of its capacity without loss of precision) with + 0.5% of the posted load
Precision of load +-0,5% of the posted load
High-speed acquisition of the data: 5000 Hz, synchronous on all the channels
Manual control panel studied for the operator well-being
Automatic recognition of the sensors of force and the extensometers
Compatible with the software Bluehill® 2 and FastTrack for 5800
Exist in extra-high and extra-broad version
The second space of test in option
Library of testing methods ASTM and ISO
Open architecture for programming of personalized tests
Total conformity with label EC |
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SANTAM Universal Testing Machine is used for industrial quality control laboratories and research centers. The machine is able to test the mechanical properties of a wide range of the materials such as:
Metals Casting Sheet & Foils Graphits
Plastics Welding Bars & Belts Adhesives
Ceramics Wire & Cable Rubber Automobile Components
Composites Tube & Pipe Timber Finished Components
With additional accessories, the following test can be performed:
Tension Shear Ring Stiffness
Compression Flexure Foam Hardness
Bending Stiffness Creep
Peel Buckling Relaxation
Main Specifications:
- Capacities: 5, 20, 50, 150, 400, 600 & 1000 KN
- Operation: Servo electro mechanical (Precision ballscrews and Servo Drive System)
- Load Mode: Tension, Compression, Cyclic, Step, Creep, Relaxation & Hardness
- Load Control: Speed, Position, Force, Strain & Stress control
- Speed Range: 0.001 mm/min ~ Nominal speed (200~1000 mm/min depends on machine capacity)
Load Control
- Load measurement: Resolution : 1/200000 of load cell capacity ,Accuracy: 0.5% of reading from 1/250 ~ 1/1 of loadcell capacity
- Extension Measurement: Resolution: better than 0.00003mm, Accuracy: 0.03mm on 300mm
- Accessories: Different types of Load cells, Extensometers, Grips & Fixtures based on different applications and kinds of materials.
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| These series are mainly designed according to ASTM & ISO standards for tensile, compression, bending and shearing test of metallic and non-metallic materials. With special accessory, they can complete mechanics performance test of rubber, belt, chain, steel, cable, cement, brick, concrete and other materials. The Machines can process test data, screen display test results and print test reports with a printer. Equipped with a (X-Y) recorder, they can plot the testing curves. |
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Allround-Line
The Allround-Line satisfies strictest demands and performs superior test tasks. Add-ons are available and harmonized with the test machines for clear-cut operability. These test machines cover a wide range of applications.
High Capacity Machines
These are static testing machines for load forces up to 2000 kN. |
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| The new MultiTest range of compression & tension testers features test stands which are manufactured using a rigid aluminium base casting. The test stands have a fabricated metal housing, thus providing rugged instruments with a high degree of rigidity and strength. |
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Model: CMT4102; CMT4202; CMT2502; CMT4102; CMT4103; CMT4203; CMT4503
CMT4104; CMT4204; CMT4304
Capacity: 100N; 200N; 500N; 1kN; 2KN; 5KN; 10KN; 20KN ; 30KN
Features:
These rugged electromechanical UTMs feature SANS strain gage load cell force measuring systems. Choice of single working space or dual working space load frame and maximum frame capacities from 100Nto 30kN.
All testing hardware is fully complemented by SANS developed software that turns your hardware into a sophisticated quality analysis system. Be sure to examine the software products to determine which package is right for your application.
SANS professional testing software and proprietary control system ultimate come true closed loop testing and control of load, extension and displacement.
Easy to use and operate
1. High accuracy: Measurement accuracy of testing speed, load, crosshead displacement can meet or surpass +0.5% of reading
2. High sampling rate: The sampling rate 50Hz, reach advanced international level
3. High load resolution: Better than 1/300000, no step, and unchanged in full range
4. Multi-cycle control modes: Control system is capable in load cycle, displacement cycle, extensometer cycle or their combination
5. Extending function: Equipped with multi-load cells to meet the further requirement of customers
6. High security: The system can inspect and protect automatically once overload, over currency; Position limiter; Emergency stop
7. Comply with different standards, such as ASTM, BS, JIS, ISO, IEC |
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Simple to set up, operate and maintain
Load measuring system exceeds the requirements of all recognised international standards
Uses high accuracy interchangeable XLC load
cells (0.5% of reading)
Crosshead travel 855 mm (33.66 in)
Speed range 0.001- 510 mm/min (0.00004 to20.08 in/min)
Data sampling rate 8 kHz
Saves up to 600 test results
10 programmable test set-ups
High resolution backlit LCD display with intuitive operator interface
Multi-lingual and multi-unit display options as standard
Flash memory upgradeable
Can be mounted above floor standing compression cage for large sample/complete assembly testing
Full PC integration with ISO TickIT accredited
NEXYGENPlus material test and data analysis software. |
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| The Bose BioDynamicTM test instrument provides precise characterization of biomaterials and biological specimens within a closed saline or cell culture media environment. It is available either as a dedicated desk-top instrument or as an accessory to an existing ElectroForce system. Either way, the ability to precisely load specimens and simulate biological conditions in a single instrument opens up new research possibilities for medical device development and tissue engineering. |
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Lacquer and Paint Testing Machine, Model 202 C
Version with electro-hydraulic drive for coated sheets up to 1.5 mm thick. Infinitely variable control of drawing speed up to 50 mm/min. Automatic clamping of specimen. By virtue of the C-form test head aperture it is possible to test sheet metal panels in addition to sheet metal strips.
Option:
Camera module VIDEOMASTER USB comfortable observation of the deep drawing process or stereo microscope. |
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Cupping and Deep-drawing Cup Test Machine, Model 242
For testing lacquers and paints of all kinds for elasticity and adhesive quality using the Erichsen Cupping Test in conformity with DIN ISO 1520, ISO 1520, BS 3900:Part E4, NF T 30-019 and SIS 18 41 77 and deep drawing cup test. Matched test tools permit automatic sequence of operations: pressing the test piece, cutting the blank, exerting the sheet holder pressure, deep drawing, sheet holder pressure release, stripping of cup, return of punch to initial position and switch-off of machine.
The testing machine including one test tool according to DIN ISO 1520. |
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Fascinating Flexibility in Thermal Analysis
DSC 404 F3 Pegasus® - High-Temperature DSC
The new DSC 404 F3 Pegasus® offers a high flexibility for all DSC and DTA applications in quality control and product development. Furnaces and DSC/DTA sensors are available for a broad temperature range (-150...2000°C). Numerous upgrade possibilities allow adaption of this cost-effective system to sophisticated applications.
The DSC 404 F3 Pegasus® is part of the economical NETZSCH F3-product line, which is specially tailored to the requirements of comparative material characterization and quality control.
The DSC 404 F3 Pegasus® can be operated from -150°C to 2000°C with various DTA and DSC sensors that are easily exchangeable by the user and various furnace types.
The sample chamber can be purged with inert or oxidizing gases in order to remove gases evolved from the sample.
The measuring system is vacuum tight (10-2mbar). |
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TCT 426 - Thermal Conductivity Tester: furnace/hot-wire method
The TCT 426 works according to the hot wire method and is especially designed for the investigation of refractory rock. The measuring cross, parallel wire, and T(R) methods can be used in the instrument. The TCT 426 is indispensable for the efficient use of energy in industrial kiln engineering with refractories.
The hot-wire method is an absolute method for direct determination of the thermal conductivity, based on the measurement of the temperature increase of a linear heat source/hot wire (cross-wire technique) or at a specific distance from a linear heat source (parallel-wire technique).
The hot wire and thermocouple are embedded between two test pieces, which make up the actual test assembly. The time-dependent temperature increase after the heating current is switched on is a measure of the thermal conductivity of the material being tested.
Another variation, the so-called "Platinum Resistance Thermometer Technique" or "T(R) Technique", is described in ASTM-C 1113. Here an integral temperature measurement is carried out over the entire length of the hot wire; i.e. the hot wire is both heat source and temperature sensor at the same time.
The TCT 426 thermal conductivity tester enables the use of all three of the methods described in easily interchangeable, pre-wired measuring frames. |
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Temperature Shock Test Chambers - 2-Zone System
VT 7012 S2 and VT 7030 S2
Of course our systems fulfil the requirements of international testing standards such as
- MIL STD 883, method 1010.7, severity of test A,B,C,D,F
- MIL STD 810 E, method 503
- IEC 60068-2-14, test Na
- BS 2011
- DIN 40046, test Na etc.
Temperature Shock Test Chamber, VT 7012 S2
Test space volume 125 l
Temperature range hot zone +50 °C to +220 °C
Temperature range cold zone -80 °C to +70 °C
Temperature Shock Test Chamber, VT 7030 S2
... Exceptionally spacious test systems for
rapid temperature changes.
Test space volume 300 l
Temperature range hot zone +50 °C to +220 °C
Temperature range cold zone -75 °C to +70 °C
Control System:
Controller Board S!MCON/32-NET
with serial Colour touchpanel.
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Enclosure of thermal impact tests.
Our equipment meets the standards:
- MILLET STD 883, method 1017.7, severity of the tests has, B, C, D, F
- MILLET STD 810E, method 503
- CEI 60068-2-14, test Na
- BS 2011
- DIN 40046, test Na etc...
Enclosures type VT 7012 S2 and TS 130
Volume of work 125 liters
Temperature of work hot room +50°C with +220°C
Temperature of work cold room -80°C to +70°C
Standard enclosure VT 7030 S2
Volume of work 300 liters
Temperature of work hot room +50°C with +220°C
Temperature of work cold room -75°C to +70°C
For more information to consult us. |
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| Thermal Schock Chamber with different volumes 16, 64 and 166 litres, -70º up to +200ºC, AISI 304, RAL 1015/8072... |
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Thermal Shock Chambers
Designed primarily to meet the requirements of MIL-STD 883, Method 1010 and MIL-STD 202, Method 107, temperature cycling and thermal shock respectively, these chambers test the resistance of electronic components and assemblies to sudden and severe temperature changes. In addition to the popularly-sized 2 cubic foot and 8 cubic foot units, Tenney offers the T-Shock Junior, a bench-top thermal shock chamber with a ¼ cubic foot carriage capacity. Designed to accommodate pilot runs and the smaller production quantities of sophisticated discrete components, the T-Shock Junior is an efficient, cost-effective alternative to larger capacity units.
Thermal Shock Chambers Features:
Vapor-tight interior liners made of 100% continuously welded stainless steel
Control system provides fully automatic, PID, chamber control through a user-friendly alpha-numeric display
Available in horizontal or vertical configurations and two zone operation
Carriage transport is automatically controlled and positioned and includes a large wire mesh stainless steel product basket |
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Thermogravimetry (TGA) measures weight changes in a material (subjected to temperature variation in a controlled atmosphere).
All SETARAM Instrumentation's balances satisfy the highest accuracy and stability criteria.
Properties measured by thermogravimetry (TGA) include corrosion, pyrolysis, adsorption / desorption, loss of solvent, oxidation / reduction, hydration / dehydration, decomposition, carbon black, etc,.
SETARAM Instrumentation offers several systems:
SETSYS Evolution, High Performance and modular Thermogravimetric Analyzer (ambient to 2400°C)
LABSYS, easy-to-use Thermogravimetric Analyzer (ambient to 1600°C)
96 LINE, large volume and high temperature Thermogravimetric Analyzer (ambient to 2100°C) |
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TG 209 F3 Tarsus - Thermo-Microbalance
Together with the DSC 200 F3 Maia®, the new thermo-microbalance, TG 209 F3 Tarsus, represents a cost-effective overall concept, tailored not only to the quality assurance of polymers, but also to routine applications in the fields of organic chemistry, pharmaceuticals, cosmetics and food.
This new basic instrument for thermogravimetric measurements offers already a resolution of 0.1 µg. The TG 209 F3 Tarsus operates between room temperature and 1000°C with freely selectable heating rates from 0.001 K/min up to 100 K/min. The accurate sample temperature is detected by a thermocouple in direct contact with the sample crucible. Through the reliable vertical construction with sample carrier lift, the thermo-balance as a top-loader, is easy and safe to use, with no hang-down wires or exposed fragile parts.
The calculated DTA-signal c-DTA® (option) not only is ideal for temperature calibration. During sample measurements it yields important information regarding endothermal processes (e.g. vaporization with mass loss or melting without mass loss) as well as exothermal reactions.
For the TG 209 F3 Tarsus we offer an automatic sample changer (ASC) for up to 20 samples also in different crucible types.
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| Thermogravimetric Analysis (TGA) measures weight changes in a material as a function of temperature (or time) under a controlled atmosphere. Its principal uses include measurement of a material's thermal stability and composition. Thermogravimetric Analysis instruments are routinely used in all phases of research, quality control and production operations. TA Instruments offers the Q5000IR, Q500, Q50, and simultaneous DSC / TGA (Q600) to meet the various needs of the researcher, quality control analyst and academic instructor. |
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TMA 402 - Vertical thermomechanical analyzer
The TMA 402 thermo-mechanical analyzer combines in a unique way the flexibility for investigation of samples under loads of various types and configurations with extremely precise, high-resolution determination of expansion and deformation. This is achieved through the vertical design, with the very homogeneous furnace at the bottom and thermostatically controlled measurement system at the top.
Easy handling and exchangeable sample holders for expansion, penetration, bending and tension measurements, as well as load selection via standard weights, mean quick sample preparation and measurement.
Dynamic elasticity measurements are possible with an electromagnetic dynamic load accessory.
Polymers, composite materials, glass, ceramics and metals are among the preferred application materials in the form of cylinders, rods, small plates, films, fibers or wires. |
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The Q400 is a sixth-generation product from the world leader in thermal analysis. Its performance, ease-of-use, and reliability aptly demonstrate our long experience
in designing novel instruments for high sensitivity mechanical measurements over a wide temperature range. |
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Equipment manually operated for right and left torque control on springs with two ad{ustabfe stops for the angular position, with horizontal enb/oc structure with precision ball type guides- Its high definition electronic cell allows torque measurements while the angular positions are controlled by digital encoder with 0. / degree minimum division. The elasticity of the torquemeter cell is automatically compensated. This torquemeter is supplied with tables, adjustable in order to set the torsion point, and either operates with the relative zero given by the spring contact, or with the absolute zero given by the anvil contact. How it is conceived: The instrument provides direct torque measurement, which means it provides the same measurement at all times, including when connection points vary. Therefore, there is no need for accurate positioning of the drive arms.
DIGITAL
The digital part has a push button panel in order to visualize on two displays the torques and angles. Kgmm and Nmm are the commutable units and on request, British measures con be supplied. These functions are set with keyboard and they provide for:
• AUTOMATIC ZEROSETTING. Possibility to zeroset angle and torque on any point
• RECALIBRATION. Keys are provided far setting the sample torque, together with a key for storage.
• MULTICELI (optional). Electronic commutation key in case of more cells
• TOLERANCES. Three leds are far rates over/under/within tolerance
• DATA TRANSMISSION. The instrument is supplied with an RS 232 output |
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Instron's line of torque testers extends Instron's materials testing solutions by providing dependable torsion and axial-torsion testing capability.
These torsion testers utilize the familiar 5500 and 8800 electronics you've come to rely on. Available in capacities from 12 Nm (100 in-lb) through 13,000 Nm (120,000 in-lb) these test frames are versatile and easy-to-use for many applications including biomedical, automotive, aerospace and other industrial and consumer products.
The 55MT Series is a family of two table-top torsion testers.
55MT1 offers a 22 Nm (200 in-lb) capacity
55MT2 offers a capacity of up to 220 Nm (2,000 in-lb)
The 55MT Torsion Testers are based on a dual linear slide design, which provides for high torsional stiffness and minimal axial friction. The system torque cell is attached to a movable crosshead, which can be left free floating or clamped during testing. When left free floating, the user can apply an axial pre-load to the specimen using a weight and pulley arrangement. Closed loop servo control of the electromechanical drive is provided by Instron's standard 5500 electronics and Partner torsion software. |
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They are used for tension-compression, torsion, fatigue, sorting and strength test of various kinds of springs, I.e. helix spring, worm spring, papilionaceous spring etc.
TNS-L Series: 50-5000Nm 7 kinds of specifications, digital display torque and torsion angle, vertical construction and easy to operate.
TNS-S Series: 500-100000Nm 8 kinds of specifications, digital display torque and torsion angle & printing test report.
TNS Series: 500-5000Nm 4 kinds of specification, digital display torque and torsion angle, horizontal construction.
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For maximum torsion testing versatility and capability, Tinius Olsen offers a full range of torsion testing machines in capacities from 1,000 to 30,000 Nm. These uniquely superior torsion testers provide loading and weighing capabilities in both directions of rotation. This feature makes it possible to conveniently determine not only the ultimate torque load of a specimen, but how that specimen behaves under conditions of continuous or intermittent torque loading in both directions. Essentially, each torsion tester comprises a variable speed drive loading system and a digital control and indicating system in a fixed unit. The weighing head with its strain gage torque sensor is mounted on a moveable unit which can positioned on the rails to accomodate specimens of varying lengths.
All testing hardware is fully complemented by Tinius Olsen developed software that turns your hardware into a sophisticated quality analysis system. Be sure to examine the software products to determine which package is right for your application.
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Material characterization, Testing machines, Testing chambers
