This equipment consists of high power drills fitted with long drill rods to allow the boring of the hole in the model. An electric hand-drilling machine drives the drilling rod and that is supported on a slide which is arranged at a guide way. Self Propulsion Test Ship models have to be supplied with models manufactured with holes to pass the propeller shaft and stern tube assembly. The guide way for the drilling machine is attached to a vertical slide so that the position in height of the drilling rod can be adjusted. Cussons can supply equipment to drill the holes in the stern tube at the time of manufacture. At the end of the guide way the drilling rod is supported by a bushing. Furthermore the inclination of the guide way with the drilling rod can be adjusted at the vertical slide.
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This Trainer Is Composed As Follows:
Work bench complete with:
4 wheels (the 2 front wheels are lockable)
3 drawers with locking systems with key for storing components.
50mm (horizontally and vertically) for quick clamping of hydraulic components without using additional tools.
1 clipboard located on the side of the work bench.
Metal working panel fully plastic coated; panel dimensions:950 x 1050 mm. With 5 mm holes every.
The structure of the course is based on the long-established training concept. This a fully equipped training system with all necessary components and aids to conduct a comprehensive training course in the fundamentals of pneumatic and electro-pneumatic controls.
Features:
2 large-format metal assembly panels for fast, secure component mounting
Sturdy base construction, mobile, with drawer system for storage
Complete training system providing an experimental introduction to the fundamentals of pneumatics and electro-pneumatics with PLC.
The workstation is constructed of heavy-duty, welded steel. Industrial quality components are mounted and plumbed in a closed loop circuit to control the water flow between two tanks or the liquid level in one tank. The Level And Flow Process Control Learning System teaches two of the most common types of process control systems, flow and liquid level, and the basic concepts on which other systems are based. All components are connected to banana jacks on the control panel to allow students to measure signals and connect the devices in a wide variety of control configurations. Students will learn to calibrate, adjust, install, operate, and connect process control systems in industrial applications. The process control simulator includes a bench-top workstation, process control network, control panel, student learning materials for both theory and lab, and teachers guide.
This allows students to study a wide range of process control methods. The relay control includes manual input switches, control relays, solenoid valves, and float switches to perform automatic on/off liquid level control. Level And Flow Process Control Learning System offers 3 types of controllers: relay control, the standard, and two options: PID controller and PLC control. Manual valves are used to switch between the PID and on/off control methods. The PID controller option enables variable electronic control of either liquid level or flow and the PLC controller option enables both on/off and PID control of the system.
Features:
Interchangeable Components
Built-In Instrumentation
Industrial Standard Components
Student Reference Guide
Heavy Duty Welded Steel Workstation
Industrial Safety Devices
3 Types of Controller Options
PLC Interface
Multimedia Curriculum Available.
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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The Plastics Technology 2 Learning System includes a clamping system, extrusion die for use with blow molding, pneumatic blow system, starter mold for blow molding, extrusion die, interactive curriculum for both theory and lab, and a teachers assessment guide.
Plastics Technology 2 Learning System adds to the Plastics Technology 1 Learning System to teach plastics blow molding and extrusion. Extrusion is used for two dimensional shapes like pipe, tubing, etc. and can be used in combination with blow molding. Blow molding is a popular method for processing plastics, consuming about 10% of all plastics worldwide, due to its economic cost and low finishing requirements. x
Students will learn skills such as creating a plastics part using a blow molding operation, troubleshooting blow molds, designing a blow mold using CAD/CAM, creating a blow mold using a CNC machine, creating a plastics part using an extrusion operation, and testing an extrusion for uniform diameter.
Features:
Extrusion Operation and Troubleshooting
Written and Multimedia Style Cirriculum
Blow Mold Development
Blow Mold Operation and Troubleshooting.
Inlet and outlet air pressures, temperatures and air flow rate, turbine torque and speed are recorded by a combination of instrumentation on the Compressible Flow Range base unit and the optional module.
Experimental Reaction Turbine Module:- Inlet and outlet air temperatures are recorded allowing the temperature drop due to work output to be measured. A single stage, radial flow , two jet reaction turbine with a throttle valve and belt brake dynamometer.
Experiments on the law of gravity on an inclined plane and on the angular acceleration of discs
2 rotating discs with self-centering conical pins
l x w x h 1200 x 300 x 280mm
Plane 1000mm, adjustable
Three spirit levels, three alignment bolts
The Heat Release apparatus measures time to ignition, mass loss and heat-release rate (option) of specimens exposed in the horizontal orientation to controlled levels of irradiance with an external igniter.
On the front panel, the following are mounted:
Load cell controller
Tare button
Temperature Controller
Control switches comprising four red on/off push-button switches, which operate by firm pressure and light up when activated:
Ignition switches on the spark-generator circuit housed in the test chamber base
Load cell switches on the Newport controller
Power switches on mains electricity to the unit
Cone switches on the Eurotherm controller. This, in turn, energises a solid state relay, which switches the power to the cone heater (5kW)
Features:
Special split shutter mechanism is designed to prevent heating of the sample before the test is started
Fire model manufactured from stainless steel for long life
Three control thermocouples for the cone heater to maintain accurate heat flux
Sample weight measurement is by a strain gauge load cell with quick electronic tare facility
Control unit contains switches for power, ignition, load cell and cone heater
Spark assembly is used in conjunction with the shutter mechanism. Microswitches are fitted to the spark arm and the shutter mechanism for safe operation
Load cell controller with a weight-ranging facility to improve performance to suit weight of sample 0-500g
Temperature controller for ramp and control of cone heater.
This module consists of a duct with transparent front andrear, between which is mounted a symmetrical aerofoil with a profile. The aerofoil may be accurately rotated to various angles of incidence (attack)to the air using the control and printed scale on the front of the duct. The aerofoil has 12 tapping points at various chord wise positions on its surface allowing the pressure to be measured at that point. The experiment mounts on the Air FlowBench contraction using toggle clamps. Each one of the tappings connects to themanometer (ancillary) via flexible tubes fitted with quick-release couplings. The tapping points are permanently connected to a manifold mounted on the duct showing the tappingposition and number for easy reference.
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The Column Buckling equipment is used for studying strut buckling under load. Column Buckling is to be used with Universal Structural Frame or Universal Base Frame. A small lateral load is applied by means of a pulley and a weight hanger. A dial indicator measures the lateral deflection. The top frame has a loading screw which pushes a cylindrical strut support sliding in a bushing. Each strut has end conditions for knife edge or built in. The load reading is by an indicator. The bottom frame has a load cell and a cylindrical strut support in a socket.
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This product includes a rod and a circular plate to show the principles and use of simple harmonic motion theory in bifilar and trifilar pendulums. Filar Pendulums fits to the sturdy Test Frame for study or demonstration. Two suspension plates fix to the top of the Test Frame to hold the bifilar and trifilar pendulums
This product is part of a range that explores free vibrations in simple one degree of freedom systems.
It introduces students to key scientific terms such as:
Radius of gyration
Parallel axis theorem
Axis of rotation
Simple harmonic motion (SHM) and period of oscillation
Mass moment of inertia.
Features:
Supplied with lecturer guide and student guide
Union directives
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.
This product adopts a four-column structure as its main frame, featuring a stable, high-stiffness structure, as well as long-term stability, convenient operations, reliability and safety.
This product is integrated with a multi-channel coordinative digital load control system, enabling controlling methods including constant deformation speed, constant loading speed and etc., meanwhile switches smoothly in between. The system retrieves testing data automatically, and then processes the data under regulations and standards. The measuring and controlling unit is developed by our own engineers, integrated with the leading high-performance Controller, which is usually equipped on high-end material testing machines, and the pioneered modular Test Live computer testing software ensuring the reliability and precision of the system. It takes no human resources to read deformation data, requiring only one operator to perform the whole test. The test data of load, displacement and deformation are automatically retrieved, processed and stored meanwhile displaying real-time testing curves. Test reports can be printed under related standards. Assistance is required to install specimen or perform rotation tests. After years of application and refinement, our system features matured technologies, reliable operations and powerful functionalities.
Complies with standard requirements of torsion and compression, as well as a variety of destructive, non-destructive and multi-cycle tests.
Domestically pioneered highly efficient three-level operation model of testing data processing. Supports open testing data processing, appending custom testing data items, testing standards and auto-processing of testing data.
Automatically performs the whole test with user-defined testing procedures.
Dynamic display of load, displacement, deformation and real-time testing curve on the screen.
Capable of statistical operations on testing data (average, standard deviation, coefficient of variance).
Automatic requesting for testing result data, also capable of launching an advanced analysis to inspect the data.
Support for displaying a single curve of a specimen or the overlay of multiple curves.
Closed loop control of channels such as load, displacement, deformation, etc. Smooth switching in between.
Characteristic testing data can be marked on testing graphs.
Support saving, instant retrieving and inspection of testing results.
Support Excel report templates and customized editing of test reports.
Capable of re-analyzing test data and curves, and partial zooming of testing curves at will.
Features:
Integrated with a large storage for testing data recording and saving.
Support for automatic/manual printing.
Specially designed control panel, beautiful and easy-to-use.
Impact energy displayed intuitively on the LED screen in a large font size.
Capable of communications with a computer, enabling computer software controlled operations.
160,000-color true-color touch screen for display and operate, featuring a beautiful and user-friendly interface.
Controlled by a fast and accurate unit.
Software logic protection on installing, latching, unlocking and releasing, eliminating operation mistakes.
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.
Motorized draw-head assembly automatically compensates for specimen elongation and keeps loading bar with excellent load accuracy of +/- 0.5% guaranteed.
Both room temperature and elevated temperature systems are available
Furnace and chambers available with temperature ranges from 200C to 1100Cin common air environments
Control system owns the three closed control function as load control, extension control, and velocity control. High precise control and accurate load with load measurement resolution reach 1/300000; the loading testing curve can be plotted automatically.
This Series creep testing machine applies advanced servo motor and ball screw actuator which assure loading conveniently and simply. The drive system comprises a printed circuit motor with toothed belt and gearbox to the recirculating ball screw actuator.
Additionally, manual operation also be offered, users can unload to protect the apparatus by hand, especial the load cell, when suddenly power cut off.
Software owns powerful function offering specimens registration, apparatus control, test data acquisition and store, test result inquiring, data processing and test report export
Numerous high temperature pull rods, specimen holders, furnace systems and extensometers available for creep and stress Relaxation applications. Many of which are also adaptable to hot tensile testing applications on universal testing machines.
Remote communication control function saves your operators invigilation during testing process; alarm message can be transmitted to your mobile phone to inform you test situation by equipping with special dial number device.
Features a large test space that satisfies both GB requirements (longer than 60 times the specimens diameter), as well as American and European requirements (not less than 2.4 meters).
Real-time drawing of curves of remaining load with time, or temperature with time.
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.
The measurement and control system is capable of backing up the transducers calibration data, improving the systems maintenance reliability.
Dynamic display of load, displacement, deformation and real-time testing curve on the screen.
Integrated with travel limit protection and full scale overload protection.
Open testing report, support custom testing template, automatic generation of testing report, which can be printed, previewed or saved as files.
Support Excel report templates and customized editing of test reports.
Algorithm to predict specimens stress relaxation performance after 1000 hours (or any specified value in hours), with the option of single or double logarithm. Capable of predicting with standard specimen data or real-time collected data (Suggested). Integrated with an extensive specimen library to improve the precision and reliability of testing results.
Multi-functional crack growth rate testing machine is used in the corrosive medium environment for measuring the slow strain rate tensile, corrosion fatigue loading and crack growth length. According to the connected corrosive medium environment to configure the suitable experiment caldron in order to satisfy the specific testing requirement. The crack growth measurement uses DCPD method, and can apply in the corrosive medium environment.
The host machine structure is adopted frame type; the loading unit can upside down and fixes in order to meet the different medium environments testing requirement.
Features:
Integrated form measurement and control system, its convenient to extension.
High rigid overloading framework.
Can use double transformation sensor, specimens transformation measurement accuracy is high.
Pressure-balanced system, can equip water cooling system.
Can achieve crack growth measurement in the corrosive medium environment.
High performance digital servo load control system, the speed control accuracy is high.
