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The Concentromat is a universal gage for checking the concentricity of the round parts having diameter of 1mm to 25mm. Used for checking External dia., Internal dia and Curved surface.
Includes:
-Base
- Two "V" blocks with four replaceable pins.
- Carbide stop, which is flat and perpendicular to the "V" blocks.
- Roller device.
- Retractable articulated arms test indicator holder (indicator not included).
All parts can be easily moved and set along the base, enabling the adjustment for different geometries of parts to be tested. |
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Measure the rebound resilience of a rubber test piece with one of our specialist resilence instruments.
Lüpke Pendulum
The Lüpke Pendulum measures the rebound resilience of rubber, which is defined as the ratio of returned energy to input energy when a steel rod strikes the test piece.
Dunlop Tripsometer
This apparatus consists of a pendulum in the form of steel disc, mounted on frictionless air bearings, with a striking ball. The Tripsometer measures resilience as the ratio of returned energy to input energy when rubber is struck by the ball.
MRPRA - Wallace Rebound Resiliance Data Computer
Can be used in conjunction with either of the above products to make accurate results even simpler to achieve. |
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Model: ZBC1400, ZBC1251
Capacity: 4J, 25J
Features:
The model ZBC1000 Pendulum Impact Testing Machine is mainly designed to perform special tests for plastic material to determine impact resistance performance under dynamic loading.
It allows continuous impact test for large quantities specimens. Special control panel and display can real-time display impact energy, impact ductility, pendulum raising angels.
Two display methods are available, dial type and digital type (LCD monitor).
It complies with ISO179, ISO180, ASTM D256, ASTM D4812, ASTM D4508, ASTM D950 and other similar standards.
Two models are available
ZBC1400, max Charpy impact energy 4J, max Izod impact energy 2.75J
ZBC1251, max Charpy impact energy 25J, max Izod impact energy 22J |
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- By consistent vertical and horizontal force measuring with the test stand, more accurate measuring becomes possible.
- Select a suitable stand from a wide range of the products according to your requirement.
- Contribute to simplification of testing work and reduction of the labor.
- Recommend to use the stand with the digital force gauges. |
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Model: TVE
- Capacity: Up to 500 Newtons
- Large and removable base plate with various holes for fixture mountings
- Max Tarvel: 297mm from base plate
- Height of upper hook above base plate: 460mm
- Travel distance per knob rotation (stroke): 3.1mm |
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The ElectroForce® 3200 test instruments features a 225 N (450 N optional) maximum force. With the versatility of static to 200 Hz frequency response, the table-top configuration is adaptable to a variety of biomedical research and engineered materials test applications, including torsion testing, creep under dynamic loading and special environments (hot/cold chambers).
Typical test applications include:
- Biomaterials
- Medical devices
- Elastomers
- Compliant bio-tissues
- Microelectronics
- Films
- Fibers
- Small components
- Foods and fluids (rheology) |
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Measuring less than 50.8 cm (20 inches) tall, the ElectroForce® 3100 test instrument is the smallest in the ElectroForce product family. The 3100 will fit on a desk or table-top, and it is extremely lab friendly thanks to its practically maintenance-free operation. The 3100 instrument is well-suited for micro-characterization of materials and devices because of its exceptional control resolution up to 22 N static maximum force.
Typical applications include:
- Tissue mechanics research
- Micro-indentation of cartilage and other soft tissues
- Mechanical stimulation of tissue engineered constructs
- BioMEMS evaluation and testing
- Durability testing of medical devices
- DMA (Dynamic Mechanical Analysis) of tissues, elastomers and other soft materials. |
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PRESENTATION
ANGULAR PULSE CONVERTER
The APC (Angular Pulse
Converter) generates the
synchronization signals that are
typically found on the different
components of a motor.
It also provides the necessary
signals for the measurement
devices of an injection test bench
(EFS8244, EFS8246…).
APC
ADVANTAGES
• Wide range of generated signals
• Fully programmable output signals
• Digital phase loop allowing an extended range of the conversion ratio
PRINCIPAL FUNCTIONS
OPERATING PRINCIPLE
From external angular encoder signals (or from its internal clock), the APC generates
synchronization signals according to user parameters.
• Digital phase loop on the input converter
• Programmable divisions of the input signal frequency
• Generation of motor synchronization signals: crank, cam ...
• Emulation of incremental converter signals
• Independent mode for the internal clock
SOFTWARE
winAPC is the configuration software for the APC module. This
software runs under Windows98, Windows2000, WindowsXP
and uses an RS232 connection. |
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KRAL Volumeter® for research and production test stands. Laboratory measurement precision is achieved despite fast flow changes and fluid oscillations.
The ideal conditions at the Bureaus of Standards however show the potential of KRAL precision. The screw spindle-metering from the KRAL Volumeter is on one hand very robust and handles the oscillation from pressure waves. On the other hand, the spindles are very quick and can follow fast changes of the flow velocity. Optional pressure pulse compensation is available that detects transient fluid waves.
Please consider that we are a manufacturer of high quality displacement pumps and flowmeters for liquids. The products (pumps with magnetic couplings, high pressure flowmeters and flowmeters – chemically resistant) mentioned on this portal are only part of our product range. Please find more detailed information on our website or directly from us. |
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When train speeds are high, there are two crucial requirements: safety and minimal wear. Only perfectly maintained bogies ensure that these demands are met. This is where the most recent Schenck development comes into play: the first test bed using spindle technology.
With MULTIRAIL® BogieLoad, Schenck is banking on safety through all around inspection. Electromechanically designed, the bogie test bed inspects the bogie using the so called spindle technology developed by Schenck. This novel feature increases repeatability and accuracy whilst reducing the maintenance expenditure.
The novel test bed technology of SCHENCK is used for the inspection of high speed train bogies. BogieLoad measures and acquires the wheel load distribution with the use of weighbeams. Geometrical data e.g. axis parallelism, are among the additional measuring parameters.
Typical application: bogies of high speed trains ICE 1, ICE 2, ICE 3, ET 420, ET 426.
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