WAW-300C/600C/1000C microcomputer controlled electro-hydraulic servo universal testing machine
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WAW-C series microcomputer controlled electro-hydraulic servo universal testing machine is mainly used for tensile, compression, bending, shearing and other tests of metal materials, adding simple accessories and devices, and also for wood, cement, concrete, rubber and their products. experimenting.
The main engine adopts the under-cylinder structure of the cylinder, the stretching space is located above the main machine, and the compression and bending test space is located between the lower beam and the work table below the main machine, and the test space is adjusted by the movement of the lower beam, and the motor, the worm gear and the nut are used for lifting the lower beam. Rotate to drive the beam to lift.
The measurement and control system adopts the microcomputer-controlled electro-hydraulic servo measurement and control system independently researched and developed by the company. The sensor force measurement and the computer screen display the test force, deformation and various test curves, which can achieve constant velocity test force, constant velocity deformation, constant velocity displacement, load retention, Various control methods such as displacement maintenance, can automatically calculate various values according to GB/T228-2002 , and can print various test reports (requires special customization), and users can edit the format of test reports by themselves.
Serial number |
Technical indicators |
parameter |
||
1 |
Maximum test force kN |
300 |
600 |
1000 |
2 |
Test force indication relative error |
≤ indication of ± 1% |
||
3 |
Test force measurement range |
2% to 100% of the maximum test force |
||
4 |
Constant velocity stress control range(N/mm 2 ·S -1 ) |
2~60 |
||
5 |
Stress rate error |
≤ ±5% |
||
6 |
Constant velocity control range |
0.00025/s~0.0025/s |
||
7 |
Strain rate error |
≤ ±5% |
||
8 |
Constant velocity displacement control range (mm/min) |
0.5~50 |
||
9 |
Displacement velocity relative error |
≤ ±5% |
||
10 |
Clamping method |
Hydraulic clamping |
||
11 |
Round specimen clamping diameter range mm |
Φ10 ?Φ32 |
Φ13 ~ Φ40 |
Φ12 ?Φ60 |
12 |
Flat specimen clamping thickness range mm |
0~15 |
0~30 |
0~55 |
13 |
Flat specimen clamping width mm |
78 |
80 |
70 |
14 |
Maximum tensile test space mm |
600 |
||
15 |
Maximum compression test space mm |
500 |
||
16 |
Control cabinet dimensions mm |
600×480×960 |
||
17 |
Mainframe dimensionsmm |
1000×600×2365 |
1180×750×2633 |
1320×800×2965 |
18 |
Motor power kW |
3.8 |
4.1 |
6 |
19 |
Host quality kg |
2300 |
3000 |
6800 |
20 |
Column clearance (mm) |
530 |
650 |
|
twenty one |
Upper and lower platen size mm |
Φ125 |
Φ160 |
|
twenty two |
Curved stick spacingmm |
350 |
600 |
800 |
twenty three |
Bending rod width mm |
140 |
||
twenty four |
Allowable bending mm |
100 |
150 |
|
25 |
Shear sample diametermm |
Φ10 |
|
|
26 |
Maximum piston strokemm |
250 |
||
27 |
Piston maximum moving speed mm/min |
About 70 |
About 80 |
About 50 |
28 |
Test space adjustment speed mm/min |
About 120 |
About 150 |