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Microcomputer-controlled electro-hydraulic servo rubber bearing compression shear testing machine
Electro-hydraulic servo rubber bearing compression shear testing machine This series of products is mainly used for testing the mechanical properties of spherical bearings, road bridge rubber plate bearings and highway bridge basin rubber bearings, in line with "GB/T17955-2000", "JT/T4-2004", "JT391-1999" standard requirements. It can carry out vertical bearing capacity test, friction coefficient test, rotational moment test of spherical bearing, compressive elastic modulus test of highway bridge plate rubber bearing, shear elastic modulus test, allowable shear angle test, limit resistance Compressive strength test, friction coefficient test, allowable rotation angle test, detection of axial compression deformation and radial deformation under rated load test of pot rubber bearings of highway bridges, compression elastic modulus test, shear elastic modulus test, anti-corrosion Shear bonding performance, shear aging resistance, friction coefficient, rotation angle test, ultimate compressive strength test, allowable rotation angle test. The testing machine adopts microcomputer control to coordinate multi-level hydraulic loading, continuous loading is stable, multi-level test force is maintained, automatic collection and storage of data, drawing of curves, automatic printing of test reports, computer timely control of test progress, display of test force and test curves, and operation Simple and reliable, easy to operate. And adopt high-precision load sensor force measurement, imported servo valve components, so that the performance of the whole machine is stable and reliable.
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Microcomputer-controlled electro-hydraulic servo rubber bearing compression shear testing machine
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Brief description of function and structure
Electro-hydraulic servo rubber bearing compression shear testing machine This series of products is mainly used for testing the mechanical properties of spherical bearings, road bridge rubber plate bearings and highway bridge basin rubber bearings, in line with "GB/T17955-2000", "JT/T4-2004", "JT391-1999" standard requirements. It can carry out vertical bearing capacity test, friction coefficient test, rotational moment test of spherical bearing, compressive elastic modulus test of highway bridge plate rubber bearing, shear elastic modulus test, allowable shear angle test, limit resistance Compressive strength test, friction coefficient test, allowable rotation angle test, detection of axial compression deformation and radial deformation under rated load test of pot rubber bearings of highway bridges, compression elastic modulus test, shear elastic modulus test, anti-corrosion Shear bonding performance, shear aging resistance, friction coefficient, rotation angle test, ultimate compressive strength test, allowable rotation angle test.
The testing machine adopts microcomputer control to coordinate multi-level hydraulic loading, continuous loading is stable, multi-level test force is maintained, automatic collection and storage of data, drawing of curves, automatic printing of test reports, computer timely control of test progress, display of test force and test curves, and operation Simple and reliable, easy to operate. And adopt high-precision load sensor force measurement, imported servo valve components, so that the performance of the whole machine is stable and reliable.
Main models and parameters:
| project name | Technical Parameters | ||
| model |
YAW-5000J |
YAW-10000J |
|
| vertical load host |
vertical maximum test force kN |
5000 |
10000 |
|
Test force measuring range kN |
0~500,0~1000,0~2500,0~5000 |
0~1000,0~2000,0~5000,0~10000 |
|
|
Force measurement method |
Load Cell Measuring Force | ||
| Test force indication accuracy |
≤±1%(from 20% of full scale for each gear) |
||
|
Effective space of testing machine mm |
0~1500 |
0~3500 |
|
|
Piston stroke mm |
0~200 |
0~200 |
|
|
Piston no-load moving speed mm/min |
0~50 |
||
|
Piston load moving speed mm/min |
0~30 |
||
|
Displacement measurement range mm |
0~200 |
0~300 |
|
| Displacement measurement accuracy |
±0.5%Fs |
||
|
Four-point deformation measurement range mm |
0~50 |
||
| Four-point deformation measurement average accuracy |
±0.5%Fs |
||
|
Upper table size mm |
600×800 |
1150×1200 |
|
|
Trolley table size mm |
600×800 |
1150×1200 |
|
|
Cross beam lifting speed mm/min |
150 |
80 |
|
|
The overall size of the host is about (length × width × height)mm |
1400×1200×4050 |
1850×1200×4050 |
|
| Horizontal loading device | Lateral maximum test force kN |
1000 |
2000 |
| Effective measurement range of test force kN |
0~100,0~200,0~500,0~1000 |
0~200,0~400,0~1000,0~2000 |
|
| Force measurement method | Load Cell Measuring Force | ||
| Test force accuracy |
≤±1%(20% of full scale from each file) |
||
|
Piston stroke mm |
200 |
300 |
|
|
Piston no-load moving speed mm/min |
0~50 |
||
|
Piston load moving speed mm/min |
0~30 |
||
|
Displacement measurement range mm |
0~200 |
0~300 |
|
| Shear deformation measurement | High precision displacement sensor | ||
| Deformation Measurement Average Accuracy |
±0.5%Fs |
||
|
The maximum adjustment range of the shear force applying device mm |
150 |
150 |
|
| Corner loading device |
Maximum test force kN |
300 |
300 |
|
Effective measurement range of test force kN |
0~60,0~150,0~300 |
||
| Force measurement method | Load Cell Measuring Force | ||
| Test force accuracy |
≤±1%(20% of full scale from each file) |
||
|
Piston stroke mm |
150 |
||
|
Displacement measurement range mm |
0~150 |
||
| Deformation Measurement Average Accuracy |
±0.5%Fs(0.001mmResolution) |
||
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