Material: Martensitic steel (quenched, magnetic steel).
Martensitic steel composition: 0.16 - 0.20 % carbon; 13 % chromium.
Blade shape: Oval, fenestrated.
Blade edge type: Blunt.
Uterine curette.
Shank type: Rigid.
Length: shaft 26 cm.
Width: spoon 8 mm.
Reusable
Computer interface unit and software are included. The Parabolic Arch Fixed Ends Computer Interface set has the same accessories as except Moment Support and Horizontal Force Support are replaced by Moment Load Cell and Horizontal Force Load Cell.
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Capacity 5000kN
Load measurement range 0.4%100%
Load measurement accuracy 1%
Load resolution 1/500000 of Max capacity, no stepping, no change in full scale
Piston displacement measurement accuracy 0.5%
Piston speed adjustment range 0.140mm/min
Piston travel of vertical cylinder 200mm
Horizontal shear capacity 1000kN
Horizontal piston travel 250mm
Rotation lifting capacity 300kN
Upper/lower compression platen distance 1000mm(or customized)
Compression platen dimensions 820mm820mm
Axial deformation measurement range 010mm
Lateral deformation measurement range 010mm
Horizontal shear deformation measurement range 0150mm
Frame dimensions 490012003000mm3
Hydraulic system dimensions 1040720975mm3
Power supply 11kW/AC380V/50Hz
Capability of mechanics testing on various metal materials. e.g. Metal tension, compression, bend, shear, etc.
Capability of mechanics testing on various nonmetal materials. e.g. Wire tension, plastic bending, cable peeling, etc.
Closed loop control of channels such as load, displacement, deformation, etc. Smooth switching in between.
Domestically pioneered process-oriented design of testing control. Provides users with intuitive testing assignment.
Support for multi-language user-interface extendibility, pre-installed.
Domestically pioneered open-testing-method settings. Engineers may set up testing projects then operators may employ the projects for testing, greatly reduced the difficulty of the operations and the requirement in the skills and trainings of the operator.
Dynamic display of load, displacement, deformation and real-time testing curve on the screen.
Support for displaying a single curve of a specimen or the overlay of multiple curves.
Dynamic display of load, displacement, time and real-time testing curve on the screen.
Domestically pioneered open-testing-method settings. Engineers may set up testing projects then operators may employ the projects for testing, greatly reduced the difficulty of the operations and the requirement in the skills and trainings of the operator.
Domestically pioneered process-oriented design of testing control. Provides users with intuitive testing control procedures and a wide range of instruction types. Also supports dynamic instruction parameter assignment.
Capable of holding on maximum load or displacement.
Support for compression tests on various metal or non-metal materials to inspect their mechanics performances.
Closed loop control of channels such as load, displacement, etc. Smooth switching in between.
Constant loading speed test supported.
Automatically sustains when it reaches the specified value.
Capable of sustaining at the maximum torque, rotation and grip load.
Options for displaying curves including torque-rotation, torque-grip load, grip load-rotation.
Dynamic display of torque, rotation and real-time testing curve on the screen.
Control over loading speed of torque and rotation, no stepping for loading speed.
Integrated with travel limit protection and full-scale overload protection.
Support saving, instant retrieving and inspection of testing results.
Capable of re-analyzing test data and curves, and partial zooming of testing curves at will.
Support for setting a target value on torque, rotation and grip load at will.
Support for data searching. Returns the corresponding data at y-axis when entered the coordinate at x-axis.
Support Excel report templates and customized editing of test reports.
This product adopts the Panasonic A4 Servo System as its driver system, ensuring a reliable long term operating life. Remote communication ports are installed to make it easier for remote controlling operation on a computer. This product features a brand new structural design, optimizes and upgrades on the base of last generation. Impact height may be configured at will, fulfilling all requirements for optical cable impact tests under 1000 mm.
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For removal of retained products of conception from inside the uterus.
Material: Martensitic steel (quenched, magnetic steel).
Martensitic steel composition: 0.15 - 0.40 % carbon; 13 - 14 % chromium.
Uterine curette.
Blade edge type: Sharp.
Shank type: Rigid.
Blade shape: Oval, fenestrated.
Length: shaft approx. 26 cm.
Width: spoon 7 mm.
Reusable.
The Computerized Multipurpose Distillation Plant can be used to perform a wide range of tests on binary, continuous or batch distillation processes. A data acquisition and analysis system for Personal Computer, makes it possible to perform the measurements in automatic mode, to produce charts of the characteristics curves which can be displayed on screen or printed, to save the experimental data on the disk or print them out. Suitable options make it possible to process azeotropic mixtures, to carry out the distillation under vacuum or in steam current (stripping). Of modular design, the training set is very flexible and easy to use, and can be integrated at a later stage with one or more of the many options available. A manual of exercises completes the supply.
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Reciprocating engines consist of a piston reciprocating in a cylinder and connected to a crank shaft by a connecting rod. This cover includes a switch, which allows automatically stops the drive motor if the cover is opened. The Computer Controlled Balance of Reciprocating Masses Unit is mounted on an anodized aluminum structure with panels of painted steel. It includes rubber elements to have a vibration isolation and a transparent protective cover protects students from the moving crankshaft and allows the visibility of the practical exercises and elements of the unit.
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Features:
Automatic requesting for testing result data, also capable of launching an advanced analysis to inspect the data.
As many as 20 layers of sensor linear compensation, elevates the precision of the instruments to the next level.
Capable of statistical operations on testing data (average, standard deviation, coefficient of variance).
Integrated with software limit protection, hardware travel limit protection and full scale overload protection.
Support for multi-language user-interface extendibility.
Support saving, instant retrieving and inspection of testing results.
Capable of re-analyzing test data and curves, and partial zooming of testing curves at will.
Support Excel report templates and customized editing of test reports.
Closed loop control of channels such as load, displacement, deformation, etc. Smooth switching in between.
Dynamic display of load, displacement, deformation and real-time testing curve on the screen.
Features:
Automatic stop when reaches target rotation turns or specimen breaks.
Distance between grip jaw continuously adjustable by moving the ball screw.
Stably and reliably controlled through human interface and PLC.
Stainless table makes it easier to clean.
TFT true-color LED screen to display current rotation, target rotation turn and configured speed.
No stepping in speed adjustment. Automatic data recording. Rotation speed and turns configurable.
Equipped with translucent safety shield to prevent specimen from popping out when it breaks.
More reliable hydraulic gripping means for wires in large diameter.
The solar energy is captured by a cylindrical parabolic solar concentrator in which the parabola axis is constituted by a high thermal conductivity tube and black colour containing an adequate liquid able to capture the solar energy increasing its temperature. The Computerized Educational Equipment On The Thermal Solar Refrigeration Cycle is one of the most interesting applications of solar thermal energy because it is able to use the solar energy and, via an absorption cycle, to convert the energy in a source of cold that can be used for food conservation chain, air conditioning, chilling water and in general in all the applications of refrigeration and conditioning purposes without the use of electrical energy. The Computerized Educational Equipment On The Thermal Solar Refrigeration Cycle has been designed and manufactured by Italia to allow the experimental study of an absorption refrigeration plant using solar energy as energy source. Owing the peculiarity of the plant able to use the solar energy to convert it in a source of cold, the plant is particularly interesting in all the countries of the equatorial area, where the sun is the main energy source and the coverage of the electrical network is scarce.
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Material: Martensitic steel (quenched, magnetic steel).
Martensitic steel composition: 0.16-0.40 % carbon; 13-14 % chromium.
Blade shape: Oval, fenestrated.
Blade edge type: Sharp.
Uterine curette.
Shank type: Rigid.
Reusable.
Length: Shaft 26 cm.
Width: Spoon 9 mm.
Computer Controlled Tray Drier
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The training system presented here represents a fully functional CIM cell (CIM = Computer Integrated Manufacturing). An overhead robot on a linear drive supplies two CNC machines with raw parts taken from a magazine. The machined dimensions of the finished workpieces are checked in an inspection jig before the items are placed in a finished parts store. The system allows an automated manufacturing process to be created. The demonstrates the basic processes of handling (robots), manufacturing (CNC machining), and control (PLC). Defined planning and control data is used to control various machines. The manufacturing cell is equipped with all necessary sensors and control devices. The control and programming software for the CNC machines, the robot, the linear drive and the software for the PLC (monitoring and control) are installed on two PCs. The relevant data is stored in a software program, and is processed by the control units of the individual machines. A PLC system monitors and controls the process.
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A compact desktop tray dryer suitable for laboratory use.
Computer control of temperature and air flow rate, with sophisticated data logging and analysis software.
Integrated electronic weight measurement to determine drying rate.
Electronic measurement of air flow.
Stainless Steel Construction.
Electronic measurement of temperature and humidity before and after the drying trays.
Capacity: up to 2.1 Kg of wet material.
Flow rates, 0.4 - 3.0m/s over trays.
Temperatures up to 80°C at 0.4 m/s less at higher flows.
The is designed to connect to the to expand the experimental capability.
The has been designed and manufactured to incorporate all current safety standards.
A Computer Controlled Thermodynamic Cycle of a Piston Compressor training plant for studying the energy transfer in a compressed air system.
It includes industrial sensors and transducers.
The is controlled by a PC and software.
Experiments:
Analysing the pressure / volume diagram of the first and second stages of the compressor by experiment
Calculating the effective average pressure of the first and second stages of the compressor.
Determining the polytropic index.
Checking the operation of the safety devices:
For detailed study of the air characteristics it is necessary to connect the to the Compressed Air Dehumidification Training Plant
Using a T-s diagram for air to determine the characteristics of the thermal cycles by experiment.
Specially designed extended grip jaws are equipped for pre-loading tension on concrete steel strand. This series is also capable of both static tensile, compression tests and quasi-dynamic tests including low-cycle fatigue tests. Apply appropriate grips to perform tension on metal bar, plate and threaded iron. Meanwhile, applicable grips provide capability of tension and compression on metals or concrete.
The mechanical components collaborate with the pioneered modular Test Live computer testing software to ensure the stability, precision and reliability of the whole system. This product features a firm structure as well as steady loads, precise controls and is intuitive to operate. It adopts the leading high-performance Controller, which is usually equipped on high-end material testing machines.
Domestically pioneered open-testing-method settings. Engineers may set up testing projects then operators may employ the projects for testing, greatly reduced the difficulty of the operations and the requirement in the skills and trainings of the operator.
Dynamic display of load, displacement, time and real-time testing curve on the screen.
Constant loading speed test supported.
Capable of holding on maximum load or displacement.
Closed loop control of channels such as load, displacement, etc. Smooth switching in between.
Support for compression tests on various metal or non-metal materials to inspect their mechanics performances.
