Product Introduction: The electronic universal testing machine is used for the determination of mechanical properties such as tensile elastic modulus, flexural elastic modulus, compressive modulus, yield strength, tensile strength, ultimate tensile strength, elongation at break, compressive stress, compressive strain, shear, peel, burst, tear, and penetration for various thermosetting and thermoplastic plastics, as well as plastic pipes.Material analysis and inspection for industries such as engineering plastics, reinforced nylon, modified plastics, plastics, extrusions, plastic pipes, plastic sheet materials, and films. The electronic universal testing machine's drive section uses a full set of all-digital AC servo system and a high-stiffness frame structure. It employs a segmented linear correction method to ensure high precision and stability in the force measurement section, and optional dual-axis large deformation extensometers and small deformation extensometers are available; it measures the deformation within the specimen's line spacing. The mainframe of the machine has its own shock-absorbing function, eliminating the need for a foundation installation. The universal testing machine is aesthetically pleasing, highly precise, low-noise, and easy to operate, with accuracy up to grade 1, and offers a variety of clamps for user selection.
Two: Ultra-high rigidity structure:龙门-type ultra-high stiffness frame structure, wider speed control rangeSealed vertical shaft bracket, gapless ball bearing, high precision, excellent stability.
III. Speed Closure Control:
The test can be programmed in segments using the aforementioned control methods, with seamless transitions between them; it employs an advanced, maintenance-free closed-loop AC servo control system, offering high precision and reliability; imported reducers and ball screws enhance control accuracy and stability.
Section 4: Intelligent Digital Measurement and Control Technology:
Utilizing high-quality load sensors, the partial collection employs a segmented linear calibration method to ensure high precision and stability in load detection. The sensors feature an innovative intelligent and digital design, shedding traditional collection and transmission methods, significantly enhancing sampling precision and stability. New sensor recognition technology is employed, enabling automatic identification of the sensor's installation status, nature, and coefficient. No software settings are required for sensor changes.
Five: High-speed processor: IntegratedThe high-speed processor of the DSP not only significantly enhances the system's sampling rate but also improves the system's control accuracy and response time.
Six, Strain Measurement System: Equipped with a large deformation extensometer, with good bidirectional tracking and strong following ability, capable of measuring the deformation amount of the sample within the sample line spacing, thereby obtaining more accurate yield strain, fracture strain, andStress and other data at X%
Module Design: Based on the testing standards as the fundamental design module, it offers a rich array of software testing modules, encompassing virtually all current testing methods. Additionally, it allows for the addition of new standard modules according to user requirements, facilitating functional expansion and catering to the special needs of more non-standard clients.
Section 8: Robust Software Features Practical zero return function, by adjusting the beam position, effectively eliminates the initial stress of the sample, thus ensuring accurate test results. Multilingual support in Chinese, English, French, German, and more, achieving software internationalization; stressMultiple curves such as stress-displacement, stress-time, and displacement-time, along with coordinate system configurations, and an embedded data analysis comparison software, allowing test data and reports to be exported to Excel. Provides auxiliary analysis tools for user product development.
Utilize network technology for diagnostics and upgrades, allowing for free online updates at any time via the network.
Nine: Meets Standards
Standard Number | Standard Name |
GB/T 16491-2008 | Electrical All-Purpose Universal Testing Machine |
GB/T 1040-2006 | Plastic Tensile Property Test Method |
GB/T 1041-2008 | Plastic Compression Performance Test Method |
GB/T 9341-2008 | Plastic Bend Test Method |
IS0 527-1993 | Plastic Tensile property testing |
GB/T18997.1-2003 | Aluminum-plastic composite pressure pipe Peel Test |
GB/T 2791-1995 | Tensile Strength Test 剥脱试验方法 |
GB/T 328.8-2007 | Asphalt waterproof membrane Tensile properties |
GB/T 15788-2005 | Wide Strip Tensile Test |
GB/T 13022-91 | Test Method for Tensile Properties of Plastic Film |
GB/T 19806-2005 | Extrusion peel test for polyethylene electric fusion components of plastic pipes and fittings |
ISO 604-2002 | Plastics - Determination of compressive properties |
ISO 178-2004 | Plastics -- Determination of flexural properties |
ISO 1209-1-2007 | Rigid cellular plastics - Determination of flexural properties - Part 1: Basic bending test |
ISO 1209-2-2007 | Rigid cellular plastics - Determination of flexural properties - Part 2: Determination of flexural strength and apparent flexural modulus of elasticity |
ASTM D 638-2008 | Standard Test Method for Tensile Properties of Plastics |
Ten: Instrument Parameters:
Model | XWWSeries | |
High test force | 20kN | |
Precision Grade | 0.5Grade | |
Relative Error of Test Force Indication | ±1% | |
Deformed measurement range | 0.4~100%FS | |
Deformed Indicating Value Relative Error | ±0.5%Inwards | |
Large Deformation Measurement Range | 5~800mm | |
Large deformation indication relative error | ±0.5% | |
Lever displacement indication relative error | ±0.50% | |
Positional resolution | 0.001mm | |
I-beam speed adjustment range | 0.001~500mm/min | |
Eleven: Instrumentation Configuration:
Configuration | Effective Test Width | 420mm |
Extended travel stroke | 800mm | |
Large compression space | 1000mm | |
Electrical Source | 220VAC-15%~220VAC+10% 50Hz 1kVA | |
Main Unit Dimensions | 750mm×480mm×2000mm | |
Host Weight | Approx.300kg | |
Standard Configuration | 20kNSensor unit | |
Lenovo computers and HP printers1 set | ||
One data cable | ||
Hand-held box one | ||
Server | Dongling | |
Sensor | Guangce | |
Gearbox | Newage Gearbox | |
Ball screw | Taiwan Ball Screw32mm | |
Extensometer | Import Encoder | Omron Japan |
Note:
This unit meetsGB/T 16491-2008 Standard for "Electronic Universal Testing Machine" requirements
Selecting an additional force value sensor can expand the measurement range.
The force control rate and deformation rate are both related to the material of the sample, and their range cannot exceed the displacement rate adjustment range.
To prevent deformation of the force sensor, during long-term holding tests, the test force should not exceed the sensor's full-scale range.50%;
The effective space is the test space after the stretch clamps are installed; the data for the stretch space will vary if different clamps are used.
