CN203551409U - Ultrahigh-strain-rate precise-stretching in-situ testing platform - Google Patents

Abstract

The utility model relates to an ultrahigh-strain-rate precise-stretching in-situ testing platform belonging to the field of the mechanical testing of materials. The ultrahigh-strain-rate precise-stretching in-situ testing platform comprises a high-speed loading unit, a signal detection and control unit and a connecting and clamping unit, wherein the high-speed loading unit comprises four high-speed cylinders; a loading rate which is high enough can be provided by a high-pressure gas common-rail supply system; the loading rate range can be controlled to be 102-104/s through gas supplying pressure; the signal detection and control unit adopts a Doppler photoelectric displacement measuring instrument to measure and record a high strain rate, acquires load signals in combination with a precise pull pressure sensor and controls the loading rate by adjusting the gas supplying pressure through a control system, so that semi-closed-loop control is realized; the connecting and clamping unit provides a protecting cavity for the testing platform and can be used for conveniently clamping a test piece through a linear guide rail. The ultrahigh-strain-rate precise-stretching in-situ testing platform has the advantages of compact structure, small size and controllable strain rate, and is compatible with partial electron microscope equipment, so that in-situ monitoring on dynamic deformation damage to a test sample in the loading process can be realized.

Description

The accurate stretching in-situ test of Under High Strain speed platform

Technical field

The utility model relates to Material mechanics test field, particularly the accurate stretching in-situ test of a kind of Under High Strain speed platform.Itself and part commercialization scanning electron microscope have certain structure compatible, vacuum compatibility and Electro Magnetic Compatibility.Can be to material the damage under high strain rate load and fracture process test and evaluate, for vehicle design provides the dynamic physical mechanical performance data of material therefor.

Background technology

Material lightweight, high strength are one of important directions of present material technical development.Under the promotion of this trend, apply with lightweight, high-strength material test and the assessment technique being closely related, as high strain rate tension test technology, material, jointing dynamic performance testing technology, the technological property test technology such as the hydroforming of material, thermoforming, have all obtained developing rapidly.Material test is one of most basic test in industrial technology.The various physical properties of material, mechanical property and shop characteristic data that test measures, not only can be used for evaluation of material and parts selection, and be widely used in each stages such as product design, manufacture, quality control, maintenance.For meeting the demand of industrial development to material dynamic performance data, the test of MATERIALS ' DYNAMIC physical and mechanical property and assessment technique, as high strain rate tension test technology, high strain rate impulse test technology, energy-absorbing experimental technique etc., become the focus and emphasis of current new material experimental technique development.

High-speed stretch, for the pseudo-static tensile test of routine, is a kind of tension test of high strain rate, and its strain rate scope is conventionally 10 ^-3~ 10 ³/ s.The MATERIALS ' DYNAMIC stress-strain response data recording due to high speed tensile test, can reflect the energy absorption characteristics of material under impact loading, this is very useful during simulation analysis under shock load at material and goods thereof, so the importance of this test manifests day by day.

At present, according to Different Loading Method and action principle, the testing machine of widespread use can be divided into 2 types, i.e. Electro-hydraulic Servo Testing System and rod-type pilot system.Electro-hydraulic servo formula sheet metal high speed tensile test system architecture and load mode and common Electro-hydraulic Servo Testing System are basic identical, for obtaining sufficiently high loading speed, oil pump in hydraulic system and servo-valve are all chosen very greatly conventionally, so that the translational speed of piston rod can reach 30 m/s.Rod-type pilot system has 2 kinds: Hopkinson double rod type pilot system (Split Hopkinson Bar System) and single lever-type pilot system (One Bar System).Except above two kinds, also have gunpowder explosion impact type, fly wheel energy storage type etc.But several from the viewpoint of speed, load, constant speed precision, complex structure degree and economy etc., in above-mentioned several loading modes, ubiquity complicated structure is huge, the problem such as servo-control system is complicated, and cost is higher.

Therefore, design that a kind of volume is little, compact conformation, measuring accuracy is high, there is larger test speed variation range, can utilize the Under High Strain rate speed extension test platform of the microdeformation of the imaging system Real-Time Monitoring such as electron microscope macroscopic view test specimen under load and damage process very necessary.

Summary of the invention

The purpose of this utility model is to provide the accurate stretching in-situ test of a kind of Under High Strain speed platform, has solved the problems referred to above that prior art exists, and fills up to a certain extent the blank of prior art.The device that can be used for precise materials Micro Mechanical Properties Under High Strain speed extension test of the imaging systems such as precision is high, strain rate is controlled, volume is little in order to realize, delicate structure, part compatible electronic microscope provides a kind of effective scheme.For Aero-Space, in military field, auto industry, collide the high rate of strain (10 in distortion ²/ s ~ 10 ³/ s), its form of distortion has stretching, compression, shearing etc., and wherein dynamic tensile can obtain the more material damage information of horn of plenty.By high strain rate tensile, test and can the microdeformation under high strain rate, damage and fracture process monitor material, obtain MATERIALS ' DYNAMIC stress-strain response data, the energy absorption characteristics of reflection material under impact loading, this provides important material property parameter when parts design and collision simulation analysis.

Above-mentioned purpose of the present utility model is achieved through the following technical solutions:

The accurate stretching in-situ test of Under High Strain speed platform, comprise High speed load unit, input and control module, connect grip unit, described High speed load unit comprises low friction high-speed cylinder I ~ IV 8, 9, 23, 26, load maintainer substrate I, II 5, 11, guiding feed rod I, II 3, 29, gases at high pressure are rail feed system altogether, wherein the gases at high pressure gases at high pressure that rail feed system produces high-pressure pump altogether flow to the low friction high-speed cylinder I ~ IV 8 of four same model with identical pressure, 9, 23, 26, make the take-off lever of four cylinders produce identical thrust, promote load maintainer substrate II 11 in guiding feed rod I, II 3, on 29, do motion at a high speed, thereby make test specimen 21 produce high strain rate,

Described input and control module comprise high precision pull pressure sensor 31, Doppler's photoelectric displacement measuring instrument, gases at high pressure control system, can be test platform provides the analog or digital amount signal of displacement loading speed, the feedback signal of controlling as gases at high pressure control system, the load mode that becomes loading speed can be realized in High speed load unit; Because test specimen 21 is small-sized, by high precision pull pressure sensor 31, can meet the accuracy requirement of test.

Described connection grip unit comprises test specimen 21, clamp body I, II 12,32, cylinder adjusting seat I ~ IV 7,10,24,25, deep floor I ~ IV 4,14,19,28 and screw, by adjusting cylinder adjusting seat I ~ IV 7,10,24,25 with the gap of compensated high-speed cylinder rod and load maintainer substrate II 11; Upper lower platen by clamp body of test specimen 21 and screw are to compress mode positioning clamping.

Described low friction high-speed cylinder I, II, III, IV 8,9,23,26 are connected on load maintainer substrate I 5 and platform base 1 by cylinder adjusting seat I, II, III, IV 7,10,24,25 and cylinder fixed mount I, II, III 6,22,27 respectively; Guiding feed rod I, II 3,29 are installed in parallel on platform base 1, and as important director element, both sides are respectively by guiding feed rod fixed hub I, II, III, IV 2,15,17,30 location and installation; The gases at high pressure that produced by external high-pressure pump, are total to after rail feed system by gases at high pressure, are flowed to low friction high-speed cylinder I, II, III, the IV 8,9,23,26 of four same model by the pressure with identical; Under the gas effect of uniform pressure and flow, the synchronization actions such as the cylinder rod IV of four cylinders, I 34,37, produce identical thrust and speed, impact, in the impact pad I of load maintainer substrate II 11, III, IV 38,35,34 etc., promotes load maintainer substrate II 11 and do motion at a high speed in guiding feed rod I, II 3,29; Be arranged on the rapid movement that guiding feed rod sliding shaft sleeve I, II 13,20 in load maintainer substrate II 11 guaranteed load maintainer substrate II 11, make test specimen 21 produce high strain rate under the relative high-speed motion of substrate.

Described high precision pull pressure sensor 31 is arranged between load maintainer substrate I 5 and clamp body II 32, the high speed of test specimen is out of shape common displacement measuring equipment and is difficult to measure, Doppler's photoelectric displacement measuring instrument can be realized high speed non-contact high-acruracy survey, meet the measurement requirement of test platform, simplified the structure of test platform simultaneously; High precision pull pressure sensor 31 and Doppler's photoelectric displacement measuring instrument can be the analog or digital amount signal that test platform provides displacement loading speed, the feedback signal of controlling as gases at high pressure control system, by controlling the pressure of gas and thrust and the speed of flow regulation cylinder, can realize test specimen is loaded to different loading speeds.

The two ends of described test specimen 21 clamp by clamp body I, II 12,32, and tight to compress mode locating clip by upper lower platen and the screw of clamp body; Clamp body I, II 12,32 are connected by screw respectively in load maintainer substrate I, II 5,11, and the high-speed motion of cylinder is passed to test specimen 21 through less link.

The size of main body of the described accurate stretching in-situ test of Under High Strain speed platform is about 336mm * 196mm * 196mm and is unkitted protective cover; compare with electro-hydraulic servo formula, Hopkinson double rod type pilot system and the single lever-type pilot system of current widespread use; there is volume small and exquisite; compact conformation; the feature that measuring accuracy is high; there are certain structure compatible, vacuum compatibility and Electro Magnetic Compatibility with part commercialization scanning electron microscope, realize the Real-Time Monitoring of testing of materials.

The described accurate stretching in-situ test platform of Under High Strain speed outside can arrange protective cover 39 as required, to guarantee the safety in ultra-high-speed test process.Rail plate I, II 16,18 are installed in parallel in platform substrate 1 below, and are arranged on protective cover 39 simultaneously, make proving installation can extract easily to carry out test specimen clamping and maintenance etc. out.

The described accurate stretching in-situ test of Under High Strain speed platform adopts air as energy transmission medium, can, to environment, not effectively reduce the operation and maintenance cost of equipment simultaneously.

The beneficial effects of the utility model are: compared with prior art, the utility model volume is small and exquisite, compact conformation, and measuring accuracy is high, and strain rate is controlled, can realize the test analysis to material dynamic mechanical under Under High Strain speed.Test platform, when test specimen sample is carried out to mechanical load, can carry out precision detection to load signal and displacement signal.Can carry out the tension test of Under High Strain speed to the above macroscopical test specimen of the characteristic dimension grade of various materials, material and goods thereof are dynamically observed at the microdeformation under shock load, to disclose the mechanical behavior of material under micro-nano-scale and damage mechanism.And by the Simultaneous Monitoring of load/displacement signal, in conjunction with related algorithm, also can generate the stress-strain curve under load by automatic Fitting.In sum, the utility model has important theory significance and good application and development prospect to automotive material mechanics performance testing technology and equipment.By the utility model can be to material the damage under high strain rate load and fracture process test and evaluate, for manufacturing and designing of material and goods thereof provides the basic data of mechanical property.

Accompanying drawing explanation

Accompanying drawing described herein is used to provide further understanding of the present utility model, forms the application's a part, and illustrative example of the present utility model and explanation thereof are used for explaining the utility model, do not form improper restriction of the present utility model.

Fig. 1 is overall appearance structural representation of the present utility model;

Fig. 2 is that master of the present utility model looks schematic diagram;

Fig. 3 is schematic top plan view of the present utility model;

Fig. 4 is that schematic diagram is looked on a left side of the present utility model;

Fig. 5 is the overall appearance structural drawing of assembling protective cover of the present utility model;

Fig. 6 is the design sketch of assembling protective cover of the present utility model.

In figure: 1. platform base, 2. feed rod fixed hub I leads, 3. feed rod I leads, 4. deep floor I, 5. load maintainer substrate I, 6. cylinder fixed mount I, 7. cylinder adjusting seat I, 8. low friction high-speed cylinder I, 9. low friction high-speed cylinder II, 10. cylinder adjusting seat II, 11. load maintainer substrate II, 12. clamp body I, 13. guiding polished rod sliding shaft sleeve I, 14. deep floor II, 15. guiding feed rod fixed hub II, 16. rail plate I, 17. guiding feed rod fixed hub III, 18. rail plate II, 19. deep floor III, 20. guiding feed rod sliding shaft sleeve II, 21. test specimens, 22. cylinder fixed mount II, 23. low friction high-speed cylinder III, 24. cylinder adjusting seat III, 25. cylinder adjusting seat IV, 26. low friction high-speed cylinder IV, 27. cylinder fixed mount III, 28. deep floor IV, 29. guiding feed rod II, 30. guiding feed rod fixed hub IV, 31. high precision pull pressure sensor, 32. clamp body II, 33. cylinder rod IV, 34. impact pad IV, 35. impact pad III, 36. cylinder rod III, 37. cylinder rod I, 38. impact pad I, 39. protective covers.

Embodiment

Below in conjunction with accompanying drawing, further illustrate detailed content of the present utility model and embodiment thereof.

Referring to shown in Fig. 1 to Fig. 6, the accurate stretching in-situ test of Under High Strain speed of the present utility model platform, comprises High speed load unit, input and control module, connect grip unit, described High speed load unit comprises low friction high-speed cylinder I ~ IV 8, 9, 23, 26, load maintainer substrate I, II 5, 11, guiding feed rod I, II 3, 29, gases at high pressure are rail feed system altogether, and wherein the gases at high pressure gases at high pressure that rail feed system produces high-pressure pump altogether flow to the low friction high-speed cylinder I ~ IV 8 of four same model with identical pressure, 9, 23, 26, make the take-off lever synchronization action of four cylinders, there is identical thrust and speed, between cylinder rod and load maintainer substrate II 11, impact pad is housed, guaranteeing has certain spacing between cylinder rod and substrate, cylinder rod is just bumped against with substrate after obtaining enough speed, guarantee that load maintainer substrate II 11 is in guiding feed rod I, II 3, on 29, do motion at a high speed, thereby make test specimen 21 produce high strain rate.

Described input and control module comprise high precision pull pressure sensor 31, Doppler's photoelectric displacement measuring instrument, gases at high pressure control system, can be test platform provides the analog or digital amount signal of displacement loading speed, the feedback signal of controlling as gases at high pressure control system, the load mode that becomes loading speed can be realized in High speed load unit; Because test specimen 21 is small-sized, by high precision pull pressure sensor 31, can meet the accuracy requirement of test.

Described connection grip unit comprises test specimen 21, clamp body I, II 12,32, cylinder adjusting seat I ~ IV 7,10,24,25, deep floor I ~ IV 4,14,19,28 and screw, by adjusting cylinder adjusting seat I ~ IV 7,10,24,25 with the gap of compensated high-speed cylinder rod and load maintainer substrate II 11; Upper lower platen by clamp body of test specimen 21 and screw are to compress mode positioning clamping.

Described low friction high-speed cylinder I, II, III, IV 8,9,23,26 are connected on load maintainer substrate I 5 and platform base 1 by cylinder adjusting seat I, II, III, IV 7,10,24,25 and cylinder fixed mount I, II, III 6,22,27 respectively; Guiding feed rod I, II 3,29 are installed in parallel on platform base 1, and as important director element, both sides are respectively by guiding feed rod fixed hub I, II, III, IV 2,15,17,30 location and installation; The gases at high pressure that produced by external high-pressure pump, are total to after rail feed system by gases at high pressure, are flowed to low friction high-speed cylinder I, II, III, the IV 8,9,23,26 of four same model by the pressure with identical; Under the gas effect of uniform pressure and flow, the synchronization actions such as the cylinder rod IV of four cylinders, I 34,37, produce identical thrust and speed, impact, in the impact pad I of load maintainer substrate II 11, III, IV 38,35,34 etc., promotes load maintainer substrate II 11 and do motion at a high speed in guiding feed rod I, II 3,29; Be arranged on the rapid movement that guiding feed rod sliding shaft sleeve I, II 13,20 in load maintainer substrate II 11 guaranteed load maintainer substrate II 11, make test specimen 21 produce high strain rate under the relative high-speed motion of substrate.

Described high precision pull pressure sensor 31 is arranged between load maintainer substrate I 5 and clamp body II 32, the high speed of test specimen is out of shape common displacement measuring equipment and is difficult to measure, Doppler's photoelectric displacement measuring instrument can be realized high speed non-contact high-acruracy survey, meet the measurement requirement of test platform, simplified the structure of test platform simultaneously; High precision pull pressure sensor 31 and Doppler's photoelectric displacement measuring instrument can be the analog or digital amount signal that test platform provides displacement loading speed, the feedback signal of controlling as gases at high pressure control system, by controlling the pressure of gas and thrust and the speed of flow regulation cylinder, can realize test specimen is loaded to different loading speeds.

The two ends of described test specimen 21 clamp by clamp body I, II 12,32, and tight to compress mode locating clip by upper lower platen and the screw of clamp body; Clamp body I, II 12,32 are connected by screw respectively in load maintainer substrate I, II 5,11, and the high-speed motion of cylinder is passed to test specimen 21 through less link.

Described input and control module are because test specimen 21 is small-sized, and in test process, peak stress is not high, can meet range and the accuracy requirement of test by high precision pull pressure sensor 31.For the high speed distortion of test specimen, common displacement measuring equipment is difficult to measure, and Doppler's photoelectric displacement measuring instrument can be realized high speed non-contact high-acruracy survey, meets the measurement requirement of test platform, has simplified the structure of test platform simultaneously.

The size of main body of the described accurate stretching in-situ test of Under High Strain speed platform is about 336mm * 196mm * 196mm and is unkitted protective cover; compare with electro-hydraulic servo formula, Hopkinson double rod type pilot system and the single lever-type pilot system of current widespread use; there is volume small and exquisite; compact conformation; the feature that measuring accuracy is high; there are certain structure compatible, vacuum compatibility and Electro Magnetic Compatibility with part commercialization scanning electron microscope, realize the Real-Time Monitoring of testing of materials.

The described accurate stretching in-situ test platform of Under High Strain speed outside can arrange protective cover 39 as required, to guarantee the safety in ultra-high-speed test process.Rail plate I, II 16,18 are installed in parallel in platform substrate 1 below, and are arranged on protective cover 39 simultaneously, make proving installation can extract easily to carry out test specimen clamping and maintenance etc. out.

The described accurate stretching in-situ test of Under High Strain speed platform adopts air as energy transmission medium, can, to environment, not effectively reduce the operation and maintenance cost of equipment simultaneously.

Referring to shown in Fig. 1 to Fig. 6, the accurate stretching in-situ test of Under High Strain speed of the present utility model platform, its structure is mainly comprised of High speed load unit, input and control module, connection grip unit.Test platform size of main body is about 336mm * 196mm * 196mm(and is unkitted protective cover), test platform can be 10 ²/ s ~ 10 ⁴within the scope of/s rate of strain, material is carried out to high strain rate test, and can easily platform be pushed to protective cover 39 by rail plate I, the II 16,18 being arranged under platform.

Input and control module provide the analog or digital amount signal of displacement loading speed by high precision pull pressure sensor 31 and Doppler's photoelectric displacement measuring instrument for proving installation, the feedback signal source of controlling as gases at high pressure control system, by controlling the pressure of gas and thrust and the speed of flow regulation cylinder, can realize test specimen is loaded to different loading speeds.

The compositions such as gases at high pressure control system.Because test specimen 21 is small-sized, by high precision pull pressure sensor 31, can meet the accuracy requirement of test.The high speed of test specimen is out of shape common displacement measuring equipment and is difficult to measure, and Doppler's photoelectric displacement measuring instrument can be realized high speed non-contact high-acruracy survey, meets the measurement requirement of test platform, has simplified the structure of test platform simultaneously.

The utility model is in concrete test process, test specimen 21 adopts the processing of line cutting mode, and utilize small-sized cylindrical polishing machine to carry out polishing to test specimen, obtain can be used for the better surface smoothness of high resolving power micro-imaging monitoring, or obtain the microstructures such as metallographic by techniques such as chemical corrosions.Then by test specimen 21 clampings between the upper lower lock block of pressing block type chuck, tighten afterwards pressing plate trip bolt, complete test specimen clamping.Then, according to required strain rate, set input gaseous tension, by testing algorithm program setting test condition and parameter.At gases at high pressure, be total under the control of rail feed system, the cylinder rod of cylinder rod I, III, IV 37,36,33 and low friction high-speed cylinder II 9 obtains identical thrust and speed, by impact pad I, III, IV 38,35,34, stress wave is passed to load maintainer substrate II 11.In test process, 31 pairs of test specimens of high precision pull pressure sensor 21 carry out tensile force f and detect, and Doppler's photoelectric displacement measuring instrument detects straight line deflection h.Two paths of signals is by analog to digital conversion and carry out sending into computing machine after necessary signal condition.In test process, the material deformation degree of impairment of test specimen 21 under impact loading can carry out dynamic monitoring by high-velocity electrons micro imaging system.Finally, obtain dynamic stress-strain-responsive data of material under high speed tensile test in conjunction with software, the energy absorption characteristics of reflection material under impact loading, for each stages such as Automobile Design, manufacture, quality control, maintenance provide and provide powerful support for.

The foregoing is only preferred embodiment of the present utility model, be not limited to the utility model, for a person skilled in the art, the utility model can have various modifications and variations.All any modifications that the utility model is done, be equal to replacement, improvement etc., within all should being included in protection domain of the present utility model.

Claims (7)

1. the accurate stretching in-situ test of Under High Strain speed platform, it is characterized in that: comprise High speed load unit, input and control module, connect grip unit, described High speed load unit comprises low friction high-speed cylinder I ~ IV (8, 9, 23, 26), load maintainer substrate I, II (5, 11), guiding feed rod I, II (3, 29), gases at high pressure are rail feed system altogether, wherein the gases at high pressure gases at high pressure that rail feed system produces high-pressure pump are altogether carried low friction high-speed cylinder I ~ IV (8 with identical pressure, 9, 23, 26), make the take-off lever of four cylinders produce identical thrust, promote load maintainer substrate II (11) in guiding feed rod I, II (3, 29) on, do motion at a high speed, thereby make test specimen (21) produce high strain rate,

Described input and control module comprise high precision pull pressure sensor (31), Doppler's photoelectric displacement measuring instrument, gases at high pressure control system, the analog or digital amount signal of displacement loading speed can be provided, the feedback signal of controlling as gases at high pressure control system, the load mode that becomes loading speed can be realized in High speed load unit;

Described connection grip unit comprises test specimen (21), clamp body I, II (12,32), cylinder adjusting seat I ~ IV (7,10,24,25), deep floor I ~ IV (4,14,19,28) and screw, by adjusting cylinder adjusting seat I ~ IV (7,10,24,25) with the gap of compensated high-speed cylinder rod and load maintainer substrate II (11); The upper lower platen of test specimen (21) by clamp body and screw are to compress mode positioning clamping.

2. the accurate stretching in-situ test of Under High Strain speed according to claim 1 platform, is characterized in that: described low friction high-speed cylinder I, II, III, IV (8,9,23,26) are connected on load maintainer substrate I (5) and platform base (1) by cylinder adjusting seat I, II, III, IV (7,10,24,25) and cylinder fixed mount I, II, III (6,22,27) respectively; Guiding feed rod I, II (3,29) are installed in parallel in platform base (1) above, and as important director element, both sides are respectively by guiding feed rod fixed hub I, II, III, IV (2,15,17,30) location and installation; The gases at high pressure that produced by external high-pressure pump, are total to after rail feed system by gases at high pressure, are flowed to low friction high-speed cylinder I, II, III, the IV (8,9,23,26) of four same model by the pressure with identical; Under the gas effect of uniform pressure and flow, the cylinder rod synchronization action of four cylinders, produce identical thrust and speed, impact the impact pad in load maintainer substrate II (11), promote load maintainer substrate II (11) and do motion at a high speed in guiding feed rod I, II (3,29); Be arranged on the guiding feed rod sliding shaft sleeve I in load maintainer substrate II (11), the rapid movement that II (13,20) has guaranteed load maintainer substrate II (11), make test specimen (21) produce high strain rate under the relative high-speed motion of substrate.

3. the accurate stretching in-situ test of Under High Strain speed according to claim 1 platform, it is characterized in that: described high precision pull pressure sensor (31) is arranged between load maintainer substrate I (5) and clamp body II (32), high precision pull pressure sensor (31) and Doppler's photoelectric displacement measuring instrument can provide the analog or digital amount signal of displacement loading speed, the feedback signal of controlling as gases at high pressure control system, by controlling the pressure of gas and thrust and the speed of flow regulation cylinder, can realize test specimen is loaded to different loading speeds.

4. the accurate stretching in-situ test of Under High Strain speed according to claim 1 platform, it is characterized in that: the two ends of described test specimen (21) clamp by clamp body I, II (12,32), and tight to compress mode locating clip by upper lower platen and the screw of clamp body; Clamp body I, II (12,32) are connected by screw respectively in load maintainer substrate I, II (5,11) above, and the high-speed motion of cylinder is passed to test specimen (21).

5. according to the accurate stretching in-situ test of the Under High Strain speed described in claim 1 to 4 Arbitrary Term platform, it is characterized in that: the size of main body of the described accurate stretching in-situ test of Under High Strain speed platform is 336mm * 196mm * 196mm.

6. according to the accurate stretching in-situ test of the Under High Strain speed described in claim 1 to 4 Arbitrary Term platform; it is characterized in that: the accurate stretching in-situ test platform outer setting protective cover (39) of described Under High Strain speed; rail plate I, II (16,18) are installed in parallel in platform substrate (1) below; and to be arranged on protective cover (39) upper simultaneously, makes proving installation can extract easily to carry out test specimen clamping and maintenance out.

7. according to the accurate stretching in-situ test of the Under High Strain speed described in claim 1 to 4 Arbitrary Term platform, it is characterized in that: the described accurate stretching in-situ test of Under High Strain speed platform adopts air as energy transmission medium.

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