WAW-1000B Computerized Electro-Hydraulic Servo Universal Testing Machine
1. Instruction
WAW-1000B universal testing machine UTM is designed of PC control and manual drive hydraulic loading system, main engine controller separately fixed. It has the characteristics of operation amenity, working steady, high accuracy and loading steady. Can implement the experimentations such as the tensile, compression, bending, cutting etc. To the metal, nonmetallic composite materials.
2. Structure
The main engine consists of an adjustable support (base, screw thread pole, moveable crossbeam (lower clamp set)) and a working frame (working oil tank, piston, platform, support crossbeam (upper clamp set)). Element of the machine: High-pressure oil pump supply oil to the working oil tank, the piston moves and press board and upper crossbeam to do stretch and press test. The stretch test is done in the space between upper crossbeam and movable crossbeam. The life motor, gear, chain drive rotate at a same speed to move the crossbeam.
3. PC control UTM introduction
It is electro-hydraulic universal material testing and analysis system, has the functions of test the collected data, automatic analysis, print report and curve. Applicable to stretch, compress metal, compress cement, and concrete nonmetal materials tests.
It is a ideal testing system for industrial and mining business, commerce arbitration institution, scientific research institution, colleges, construction project quality control institution and etc.
4. Charateristics
It adopts the six vertical columns framework structure. It is of the more stable construction and the more guaranteed rigidity. It utilizes the hydraulic chuck sample automatic clamping. It employs the high precision pressure-operated sensor to measure the hydraulic force. It is of the high measuring accuracy and the wider range. It uses the high accuracy motion transducer. It adopts PCI wire control mode. It utilizes Windows XP operation system. It can be allocated with the touch screen which is more beneficial for the operation and control modes such as the constant rate force control, constant rate stress control, constant rate deformation control, constant rate stroke control, low cycle fatigue control, consumer self-programming control etc. It can draw the multiple experimental curves such as the force-deformation, force-shift, stress-strain, force-time and so forth. It can partially the experimental curve and hold the additive comparison to the multi-curves. It can automatically seek the multiple technical parameters such as elastic module E, upper yield strength ReH, lower yield strength REL, stipulated non-proportional elongation intensity Rr, tensile strength RM, stipulated total elongation intensity Rt, yield point percentage elongation etc. It can also print the complete experimental report and curve.
5. Software
A. Two-level authorization passwords management.
B. Live indication of load, position and strain, simultaneously.
C. Peak indication of load, position and strain, during and after test.
D. Live indication of load, position and strain rates during test.
E. Live X-Y graph of user-selected curve: Stress vs. Strain; Load vs. Position; Stress vs. Position; Load vs. Strain; Load vs. Time; Position vs. Time etc.
F. Automatic saving of transducer information to file for later recall, re-graph and recalculation
G. Automatic saving of results to file for statistical computation and export to spreadsheet and database programs: Access and Excel.
H. Print single test reports including X-Y graph on a single page
I. Select from a predefined analyses including: Peak load, peak stress, tensile strength, RP0.2, Rt0.5, ReH, ReL, elongation break and so on.
J. Specimen geometries of flat, round, cylinder, square, tube, pipe.
K. Define, save and recall tests setups to minimize errors and save time.
L. Select the international units, such as "N", "kgf", "lb", "mm", "in" and so on.
M. Calibration: Adjusting hardware of load cell by software, make it meet testing standard.
WAW-1000B |
Max. testing force |
1000KN |
Measuring range |
2%~100%F.S |
Relative error to force value (%) |
±1 |
Measuring isodromic ratio control |
0.1-100%F.S./min 0.2-100%F.S./min (precision type) |
Deformation isodromic ratio control |
0.1-100% F.S./min |
Displacement isodromic ratio control |
0.5-50mm/min |
Speed precision |
±5% set point |
Max. tensile test space |
700mm |
Max. distance between upper and lower presser disks |
700mm |
Flat sample holding thickness |
0-40mm |
Diameter of round specimen |
20-60mm |
Piston stroke |
250mm |
Upper and lower platen size (mm) |
235×235 |
Bending test pressed rolling distance |
30~600mm |
Tensile and compression space between two columns |
650mm |
Max. platen rise speed |
≥70mm/min |
Max. moving beam speed |
≥300mm/min |
Motor power |
≈2.5KW |
Main body dimension (L×W×H) (mm) |
1000×700×2350 |
Control & measurement cabinet dimension(L×W×H) (mm) |
1080×650×1200 |
Weight |
≈3500Kg |
Noise |
≤75dB |