CN109738306A - A kind of more sample tension and compression creep test devices - Google Patents
A kind of more sample tension and compression creep test devices Download PDFInfo
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Abstract
The present invention provides a kind of more sample tension and compression creep test devices, including supporting beam one disposed in parallel and supporting beam two, supporting beam one is equipped with multiple seal chambers, the corresponding sample of each seal chamber, piston is provided in seal chamber, one seal chamber is separated into two points of cavitys by piston, piston is connected with strut and tie one, strut and tie one stretches out outside seal chamber the one end for being used to connect sample close to one end of supporting beam two, the position of each seal chamber is connected with a strut and tie two in the corresponding supporting beam one of supporting beam two, strut and tie two is used to connect the other end of sample, one seal chamber via two that piston is separated be divided to cavity pass through respectively piping connection to hydraulic system two actuator ports;It is poor by adjusting the oil pressure in two points of cavitys, stretching or compression creep test can be carried out to sample so that the suffered stress intensity of each part sample can keep relatively independent with the stress time significantly improves the efficiency and precision of creep test.
Description
Technical field
The present invention relates to metal material creep ageing behavioral value technology, especially a kind of more sample tension and compression creep test dresses
It sets, can be used for stretching and compression stress relaxation ag(e)ing test.
Background technique
With the fast development of aerospace cause, have high structural integrity, intensity height and good seal performance etc. all
The large-scale integral panel component of more advantages is more and more in the weight of civilian big aircraft, military aircraft and new generation's carrier rocket
It wants to use in structure.Creep age forming be it is a kind of for manufacture high-precision, high-performance large-scale integrated member and grow up new
Based plate manufacturing process.The manufacture of large-scale component creep ageing high-quality is primary on condition that accurate by simple tension or compression test
Detect the creep ageing deformation and performance development rule of material.It stretches at present or compression test is generally in high-temerature creep testing machine
Upper progress.Creep testing machine includes the parts such as rack, load control system, strain measurement system and temperature control system.
Existing stretching or compression creep test operating process generally comprise following process: 1, sample is connected with fixture,
Device of extending is fixed on sample marking distance both ends convex ridge and connects grating displacement sensor, measures the strain of test process sample;2,
Technological parameter is set, specific temperature loading path is set on control computer;3, creep ageing is tested, and creep machine is kept for a long time
Constant temperature constant load makes sample creep age forming become second nature.
But above-mentioned existing stretching or compression creep test have the following disadvantages: 1, due to creep ageing characteristic basic test
It needs systematically to study the technological parameters such as different temperatures, stress and time to advise material creep deformation and the influence of mechanical property
Rule, it is necessary to carry out a large number of experiments, and existing creep testing machine is tested every time can only test a sample, therefore every time can only be right
The A single sample provides the test of a certain process conditions (process conditions may include the parameters such as temperature, stress, time), but to be
The creep age forming that system grasps material becomes second nature rule, then needs to carry out under the process conditions such as a large amount of different temperatures, stress, time
Experiment, therefore existing A single sample creep test efficiency is very low.And at present the rated load of creep machine usually 50~
It is between 100KN (thousand Ns) or bigger, and load maximum required for individual sample creep test does not generally exceed 8KN at present,
Only it is utilized a bit of before creep testing machine load stroke range, the load stroke of creep testing machine does not obtain abundant benefit
With, there are also it is biggish utilize space.2, existing creep machine mostly uses greatly displacement sensor sample high temperature deformation, sample
The factors such as clamping gap and external environment are also easy to that sensor reading is caused to change, and misdeem so as to cause system
Accidentally, test measurement precision is reduced, be embodied in: existing creep machine generally uses two sets of bars of extending to be separately fixed on sample
Lower both ends ridge, displacement sensor measures sample deformation by the relative deformation of two sets of bars of extending of measurement, wherein bar part of extending
In high-temperature cabinet, displacement sensor is then outside high-temperature cabinet, even if displacement sensor precision itself is higher, extend bar and sample
Due to material thermal expansion coefficient difference, obtained sample deformation result precision is not also high, and simultaneous displacement sensor has highly sensitive
It spends and exposes in the environment, it is easy to be interfered by site environment factor, influence to test accuracy or even the failure of an experiment.3, existing
Creep machine heating generally use the form of Resistant heating, it is longer that sample is warming up to the time required for target temperature, influences
Test progress and efficiency.
Chinese patent 201810011860.3 discloses a kind of high-throughput creep test device load loading system and compression
Creep equipment including driving assembly, is connected on driving assembly and for connecting the support platform and connection of multiple test samples
Hydraulic package above support platform and for abutting with test sample, driving assembly driving support platform move up and down, liquid
Pressing component includes closed hydraulic cylinder and multiple hydraulic pistons being connected in its hydraulic cylinder, and the diameter of each hydraulic piston is equal
Identical, and its hydraulic piston one end is connected in the hydraulic cylinder, the other end is for being connected to the top of the test sample.Though
Compression creep test can be carried out to multiple test samples simultaneously in the right program, but since its multiple sample is in same hydraulic cylinder
It is loaded under the multiple hydraulic pistons driven, and its multiple sample can only be tested under identical stress condition, only
The synchronism detection that can only realize multistation is only to change single test relative to the creep testing machine of A single sample
Quantity, this, which is actually unable in, is really achieved mutually indepedent between each sample, therefore, can make there is still a need for one kind in the prior art
It can reach independent between multiple samples mutually in stress, time, temperature, the scheme for not influencing each other or involving, Lai Tigao
The efficiency and effect of creep test.
Summary of the invention
It is an object of that present invention to provide a kind of more sample tension and compression creep test devices, are asked with solve to propose in background technique
Topic.
A kind of more sample tension and compression creep test devices, including rack, high-temperature cabinet, more sample fixing devices, strain measurement dress
It sets, heating device, the high-temperature cabinet is arranged on the rack, and more sample fixing devices are arranged in high-temperature cabinet, and more samples are solid
Device is determined for clamping sample and the stress for making sample that tension and compression creep (tensile creep or compression creep) occur, the heating are provided
Device is used to heat sample or keep the temperature, and the dependent variable that the strain gauge means are used to that sample to occur tension and compression creep carries out real
When measure.
More sample fixing devices include supporting beam one disposed in parallel and supporting beam two, and supporting beam one is equipped with multiple
(multiple refer to is greater than or equal to 2) seal chamber, each seal chamber correspond to a sample, piston are provided in seal chamber, and piston will
One seal chamber is separated into two points of cavitys, and the piston is connected with strut and tie one, and strut and tie one is close to one end of supporting beam two
The one end for being used to connect sample outside seal chamber is stretched out, the position of each seal chamber connects in the corresponding supporting beam one of the supporting beam two
It connects and is provided with a strut and tie two, strut and tie two is used to connect the other end of sample, and a seal chamber is separated via piston
Two be divided to cavity pass through respectively piping connection to hydraulic system two actuator ports, by adjusting the oil in two points of cavitys
Pressure difference, change strut and tie one mobile trend or direction and to sample carry out stretch or compression creep test.
The number for the seal chamber (31) that the supporting beam one is equipped with is 4~12, preferably 5~8.
Preferably, each component cavity included by each seal chamber is connected in the working oil path of same hydraulic system.
Preferably, the corresponding one end far from sample of the seal chamber is provided with opening, and opening is sealed by sealing plug
It closes, while guaranteeing the sealing of seal chamber, convenient for the installation of piston and strut and tie one.
Further, one end that the strut and tie one is used to connect sample is connected with insulation connection ring one, and strut and tie two is used
Insulation connection ring two is connected in one end of connection sample.
One end of insulation connection ring one is connect with strut and tie one, and the other end of insulation connection ring one is connected with for directly connecting
Connect the sample fixed link one of sample one end, one end of insulation connection ring two is connect with strut and tie two, the connection ring two that insulate it is another
End is connected with the sample fixed link two for being directly connected to the sample other end.
The sample fixed link one and sample fixed link two are electric conductor, between sample fixed link one and strut and tie one with
And clearance for insulation is maintained between sample fixed link two and strut and tie two, sample fixed link one and sample fixed link two are electric respectively
Property is connected to the power supply positive and negative polarities of heating device.
Further, one end that the strut and tie two connects supporting beam two is arranged to T-shaped structure, is provided in supporting beam two
With the matched T-shaped hole of strut and tie T-shaped structure, the T-shaped hole both ends are open, and strut and tie two is used to connect one end of sample from T
The place open at one end in shape hole is stretched out, and the other end opening of T-shaped hole is provided with nut, and cap end protrudes into T-shaped hole and tension and compression
Bar two offsets.
Further, more sample fixing devices further include tensile stress sensor and compression sensor, and the drawing is answered
The sensing element of force snesor is arranged between strut and tie two and the hole shoulder of T-shaped hole, the sensing element of the compression sensor
It is arranged between strut and tie two and nut.
Further, when sample bar samples externally threaded for end band, the sample fixed link one and sample
Fixed link two be used for connect sample position be provided with the matched threaded hole of sample end external screw thread, when the sample be end
When holding the plate tensile sample with mounting hole, the position that the sample fixed link one is used to connect sample with sample fixed link two is respectively provided with
There is the groove for the insertion of sample end, and the position of sample fixed link one and two respective slot of sample fixed link is provided with for installation
Sell across through-hole, mounting pin pass through the mounting hole of through-hole and sample end and realize sample one end and fixed link one connection and
The connection of the sample other end and fixed link two.
Preferably, the strain gauge means use DIC (Digital Image Correlation) digital image acquisition
System measures the strain of sample, strain gauge means include mounting rack, light source, DIC video camera and with DIC video camera
The computer of connection, the Sample Image which is used to acquire DIC video camera carries out on-line analysis, and generates sample
Strain as a result, the computer can be carried with creep testing machine itself PC control machine be integrated together, mounting rack is fixed on
In rack and be located at outside high-temperature cabinet, the DIC video camera and light source are arranged on mounting rack, the camera lens of DIC video camera and
For the direction of illumination of light source towards the sample in quasi- high-temperature cabinet, the side that the high-temperature cabinet corresponds to DIC video camera is set as transparent
Form.
Preferably, the transparent window material uses transparency silica glass.
Preferably, the DIC number of cameras is two, is maintained between the optical center axis of two DIC video cameras
30 °~120 ° of angle, in order to acquire the strain pattern of sample from different directions, convenient for computer according to sample different location
Strain pattern combine generate sample three dimensional strain process.
Further, the heating device includes power supply, thermocouple and temperature controller, and the sample fixed link one and sample are solid
The connecting terminal for connecting positive pole or cathode is provided in fixed pole two, the thermoelectricity sensing element of the thermocouple is sticked
In specimen surface, power supply is electrically connected control by the temperature controller with thermocouple.
The sensing element of the thermocouple, which is preferably sticked, deviates from the one side of DIC camera lens in sample.
The power supply preferred pulse power supply of the heating device, pulse power frequency be 100~1000Hz, preferably 200~
500Hz。
The present invention provides a kind of more sample tension and compression creep test methods, use above-mentioned more sample tension and compression creep test devices
It is tested, comprising the following steps:
1) sample installation is connected between strut and tie one and strut and tie two, specifically, one end of sample is passed through insulation
Connection ring one and sample fixed link one are connect with strut and tie one, and the other end of sample is fixed by insulation connection ring two and sample
Bar two is connect with strut and tie two.
2) it connects and starts heating device, start to keep the temperature after making sample be warming up to target temperature.
3) start hydraulic system and strain gauge means, control two points of cavitys corresponding to each sample as needed
In oil pressure it is poor, sample stretch or compression creep test, while the dependent variable of strain gauge means real-time testing sample;Institute
State the oil pressure in two points of cavitys and the correspondence setting of oil liquid flow direction and tension and compression creep test are as follows: sample needs tension
When stress, the oil pressure divided in cavity close to sample is greater than the oil pressure divided in cavity far from sample, divides cavity close to sample
Oil inlet divides cavity oil return far from sample;When sample needs compression chord, it is less than close to the oil pressure of sample divided in cavity separate
The oil pressure of sample divided in cavity, divides cavity oil inlet far from sample, divides cavity oil return close to sample.
Preferably, the strain gauge means in the step 3 use DIC (Digital Image Correlation) figure
As acquisition system, before step 1 starts, speckle first is sprayed in specimen surface, in order to which DIC camera carries out Image Acquisition.
Preferably, the supporting beam one and supporting beam two are horizontal positioned direct rod shape, and the seal chamber in supporting beam one is in
Symmetrical expression distribution, when multiple samples that synchronization is carried out are not all the same by creep stress direction, supporting beam one and support
Sample stress between beam two is set as being distributed in tension and compression compartment, i.e. creep stress direction suffered by two sample of arbitrary neighborhood
On the contrary to make supporting beam one and supporting beam two keep balancing as far as possible.
The present invention at least has the advantages that
The invention proposes the more sample tension and compression creep test devices and method of a kind of high-efficiency high-accuracy.By to each
A seal chamber is arranged in sample, and each seal chamber includes being by changing the oil pressure difference in two points of cavitys there are two cavity is divided
Tensile stress or compression stress can be provided to its corresponding sample, so that the suffered stress of each part sample is big under synchronization
Small to keep relatively independent with the stress time, under synchronization, aliquot can be tension, and aliquot can be to be pressurized, stress
In terms of time, the aliquot stress time can be grown, and another part sample stress time can be short, can be achieved at the same time multiple samples and exists
The experiment that different technology conditions are carried out under same creep machine, while efficiently using the load capacity of creep testing machine, moreover it is possible to
The load and the independent control of time for realizing sample, significantly improve the efficiency and precision of creep test, and strong flexibility, especially
The case where it is for needing to do single factor experiment or comparative test, superiority of the invention are more prominent.
The present invention also introduces the heating device of tape pulse power supply, and the temperature of each sample is adding for pulse current by power supply
Thermal is individually controlled, and the temperature of each sample is mutually independent of each other, but entirety concentrates in high-temperature cabinet again.Utilize pulse current
Joule heating effect and non-thermal effect, cooperation thermocouple the temperature of sample is fed back, can be needed according to test to sample reality
Now quickly heating, heat preservation and cooling, the pulse power is as a kind of moment high energy outfield, the high energy joule heating effect and electricity generated
Migration makes to be heated to target temperature in the sample short time, and efficiency is 5~8 times of conventional heating methods;And electric pulse energy
There is high aggregation characteristic can accurately realize a variety of sample temperature in high-temperature cabinet by reasonable Arrangement electric pulse heating system for field
Degree coexists, and can be realized the independent accurate temperature controlling of each sample of different location in high-temperature cabinet, and between the temperature of each sample again
It does not influence independently of each other.
The present invention measures the high temperature deformation of sample using contactless DIC digital image collection system, can
Sample is strained and carries out high-acruracy survey, traditional indirect method of measurement is avoided and is easy to by material coefficient of expansion difference and extraneous factor
The low problem of measurement accuracy caused by interfering, and since DIC strain measurement system is untouchable, the smoother standard of measurement data
Really, reproducible (i.e. the obtained data consistent degree of repetitive test measurement is high).
In order to preferably measure the strain of sample, two DIC video cameras are set in the present invention, binocular solid is formed to sample
Visual effect realizes the three-dimensional coordinate of specimen surface in deformation process, is displaced and answers by tracking the speckle image of body surface
The dynamic of change measures, and measures relative to the existing single axle using displacement sensor, more precisely intuitive.
It is constant by controlled strain, when high-precision creep test device of the invention can be used for stretching with compression stress relaxation
Effect test.
Other than objects, features and advantages described above, there are also other objects, features and advantages by the present invention.
Below with reference to figure, the present invention is described in further detail.
Detailed description of the invention
The attached drawing constituted part of this application is used to provide further understanding of the present invention, schematic reality of the invention
It applies example and its explanation is used to explain the present invention, do not constitute improper limitations of the present invention.In the accompanying drawings:
Fig. 1 is more sample tension and compression creep test device integral outer topology view (high-temperature cabinets of the preferred embodiment of the present invention
Internal element is not shown);
The removal high-temperature cabinet and more sample tension and compression creep tests after strain gauge means that Fig. 2 is the preferred embodiment of the present invention
Device main view;
Fig. 3 is more sample fixing device stereochemical structure views of the preferred embodiment of the present invention;
Fig. 4 is more sample fixing device stereochemical structure views with internal structure of the preferred embodiment of the present invention.
In figure: 1- rack, 11- column one, 12- column two, 2- high-temperature cabinet, 21- transparent window, 3- supporting beam one, 31- is close
Chamber is sealed, 310- divides cavity a, 311- to divide cavity b, 312- pipeline a, 313- pipeline b, 32- piston, 33- strut and tie one, 34- sealing
Plug screw, 35- insulation connection ring one, 36- sample fixed link one, 4- supporting beam two, 41- strut and tie two, 42- insulation connection ring two,
43- sample fixed link two, 44- nut, 45- stress induction element a, 46- stress induction element b, 5- sample, 6- clearance for insulation,
7- connecting terminal, 8- thermoelectricity sensing element, 91- mounting rack, 92- light source, 93-DIC video camera.
Specific embodiment
The embodiment of the present invention is described in detail below in conjunction with attached drawing, but the present invention can be limited according to claim
Fixed and covering multitude of different ways is implemented.
A kind of more sample tension and compression creep test devices referring to figs. 1 to 4, including rack 1, high-temperature cabinet 2, more samples are fixed
Device, strain gauge means and heating device, the high-temperature cabinet are arranged on the rack, and more sample fixing devices are arranged in height
In incubator, more sample fixing devices are for clamping sample and providing makes sample that tension and compression creep (tensile creep or compression creep) occur
Stress, the heating device be used for sample heat or keep the temperature, the strain gauge means be used for sample occur tension and compression it is compacted
The dependent variable of change carries out real-time measurement.
More sample fixing devices include the supporting beam 1 and supporting beam 24 of vertical bar shape disposed in parallel, supporting beam one
It is fixedly connected respectively with column 2 12 with rack by the column 1 through high temperature box body with supporting beam two, in supporting beam one
If each seal chamber corresponds to a sample 5 there are six equidistant symmetrical seal chamber 31, it is provided with piston 32 in seal chamber,
One seal chamber is separated into two points of cavitys (be respectively defined as point cavity a310 and divide cavity b311) by piston, and the piston connects
It is connected to strut and tie 1, strut and tie one stretches out outside seal chamber the one end for being used to connect sample 5 close to one end of supporting beam two, described
The position of each seal chamber is connected with a strut and tie 2 41 in the corresponding supporting beam one of supporting beam two, and strut and tie two is used for
Connect the other end of sample, a seal chamber dividing of being separated cavity a and divides cavity b to pass through pipeline a312 respectively via piston
Two actuator ports of hydraulic system are connected to pipeline b313.
(a component cavity refers to divides cavity a310 included by a seal chamber to each component cavity included by each seal chamber
With divide cavity b311) may be connected in the working oil path of same hydraulic system, two points of cavitys included by each seal chamber
Between pressure difference can adjust and control by one group of hydraulic control valve.
Referring to fig. 4, the corresponding one end far from sample 5 of the seal chamber 31 is provided with opening, and opening passes through sealing plug 34
It is closed, while guaranteeing the sealing of seal chamber, convenient for the installation of piston 32 and strut and tie 1.
Referring to fig. 4, one end that the strut and tie one is used to connect sample is connected with the insulation connection ring one of cylinder-like structure
35, one end that strut and tie two is used to connect sample is connected with the insulation connection ring 2 42 of cylinder-like structure.
The both ends of insulation connection ring one are equipped with internal screw thread, one end internal screw thread for the connection ring one that insulate and one end of strut and tie
External screw thread screw connection, the other end internal screw thread for the connection ring one that insulate and the external screw thread of one 36 end of sample fixed link screw company
It connects;The both ends of insulation connection ring 2 42 are equipped with internal screw thread, one end internal screw thread for the connection ring two that insulate and 2 41 end of strut and tie
External screw thread screw connection, the other end internal screw thread for the connection ring two that insulate and the external screw thread of 2 43 end of sample fixed link screw company
It connects.Referring to fig. 4, it is maintained between sample fixed link one and strut and tie one and between sample fixed link two and strut and tie two absolutely
Intermarginal gap 6 prevents electric current from flowing into equipment to be formed into a loop after flowing a current through sample fixed link and sample.
Sample fixed link one and sample fixed link two are electric conductor, in the sample fixed link one and sample fixed link two
It is provided with the connecting terminal 7 for connecting positive pole or cathode, sample fixed link one and sample fixed link two pass through wiring
The power supply positive and negative polarities of heating device (not shown) are electrically connected in terminal 7.
The heating device includes power supply, thermocouple and temperature controller, and the thermoelectricity sensing element 8 of the thermocouple, which is sticked, to be tried
Sample surface, sensing element, which is preferably sticked, deviates from the one side of DIC camera lens in sample, and is located at the centre in specimen length direction
Position, power supply and thermocouple are electrically connected control by the temperature controller, and in the present embodiment, the power supply of heating device selects heating speed
Spend the fast pulse power.
Referring to fig. 4, one end that the strut and tie two connects supporting beam two is arranged to T-shaped structure, is provided in supporting beam two
With the matched T-shaped hole of strut and tie T-shaped structure, the T-shaped hole both ends are open, and strut and tie two is used to connect one end of sample from T
The place open at one end in shape hole is stretched out, and the other end opening of T-shaped hole is provided with nut 44, and cap end is protruded into T-shaped hole and drawn
Compression bar 2 41 offsets.
In the present embodiment, more sample fixing devices further include tensile stress sensor and compression sensor, the tensile stress
The stress induction element a45 of sensor is arranged between strut and tie two and the hole shoulder of T-shaped hole, the stress of the compression sensor
Sensing element b46 is arranged between strut and tie two and nut, it is noted that heretofore described tensile stress sensor and pressure
" drawing " and " pressure " in strain gauge is with respect to for sample, and " drawing " respectively refers to sample tension stress with " pressure " and answer with compression
Power.When carrying out compression creep test, i.e., sample compression chord when, heretofore described compression sensor stress induction member
Part b46 is to be pressurized, and the stress induction element a45 of tensile stress sensor does not work;When carrying out tensile test, i.e. sample
When tension stress, the stress induction element a45 of heretofore described tensile stress sensor is to be pressurized, and compression sensor is answered
Power sensing element b46 does not work.
The stress induction element a45 of tensile stress sensor and the stress induction element b46 of compression sensor are respectively used to
Real-time measurement, and the stress value that sample is subject to are carried out to stress suffered by sample in sample tension stress and compression chord
The controlling terminal of hydraulic system is fed back to, in order to which controlling terminal is in time to dividing cavity a to adjust with the pressure difference of cavity b is divided
It is whole, form a closed-loop control system.
In the present embodiment, sample is the externally threaded bar samples of end band, the sample fixed link one and sample fixed link
Two are provided with and the matched threaded hole of sample end external screw thread for connecting the position of sample.
Referring to Fig. 1, the strain gauge means of the present embodiment are using DIC (Digital Image Correlation) number
Image capturing system measures the strain of sample, and strain gauge means include mounting rack 91, light source 92, DIC video camera 93
And the computer (not shown) connecting with DIC video camera, mounting rack are fixed on the rack and are located at outside high-temperature cabinet, institute
It states DIC video camera and light source is arranged on mounting rack, the camera lens of DIC video camera and the direction of illumination of light source are towards high-temperature cabinet
In sample, the side that the high-temperature cabinet corresponds to DIC video camera is set as transparent window 21, and transparent window material uses transparent stone
English glass.
In the present embodiment, DIC number of cameras is two, is maintained between the optical center axis of two DIC video cameras
45 ° of angle, in order to acquire the strain pattern of sample from different directions, convenient for computer according to the strain of sample different location
Image combines the three dimensional strain process for generating sample.
A kind of more sample tension and compression creep test methods, are tested using above-mentioned more sample tension and compression creep test devices, packet
Include following steps:
1) sample installation is connected between strut and tie one and strut and tie two, specifically, one end of sample is passed through insulation
Connection ring one and sample fixed link one are connect with strut and tie one, and the other end of sample is fixed by insulation connection ring two and sample
Bar two is connect with strut and tie two.
2) it connects and starts heating device, start to keep the temperature after making sample be warming up to target temperature.
3) start hydraulic system and strain gauge means, control two points of cavitys corresponding to each sample as needed
In oil pressure it is poor, sample stretch or compression creep test, while the dependent variable of strain gauge means real-time measurement sample.
The correspondence setting of oil pressure and oil liquid flow direction and tension and compression creep test in described two points of cavitys are as follows: sample need by
When tensile stress, (oil pressure divided in cavity a) is greater than divides cavity (to divide in cavity b) to the cavity that divides of close sample far from sample
Oil pressure, divide cavity oil inlet close to sample, divide cavity oil return far from sample;When sample needs compression chord, close to sample
The oil pressure divided in cavity be less than the oil pressure divided in cavity far from sample, divide cavity oil inlet far from sample, close to sample
Divide cavity oil return.
In the present embodiment, the strain gauge means in the step 3 use DIC (Digital Image
Correlation) image capturing system before step 1 starts, first sprays upper speckle in specimen surface with matt white paint, so as to
Image Acquisition is carried out in DIC camera.
In the present embodiment, the supporting beam one is horizontal positioned direct rod shape with supporting beam two, the sealing in supporting beam one
Chamber is in symmetrical distribution, when multiple samples that synchronization is carried out are not all the same by creep stress direction, supporting beam one with
Sample stress between supporting beam two is set as being distributed in tension and compression compartment as far as possible, i.e. creep suffered by two sample of arbitrary neighborhood
Stress direction on the contrary, to make supporting beam one and supporting beam two keep stress balance as far as possible.
The foregoing is only a preferred embodiment of the present invention, is not intended to restrict the invention, for the skill of this field
For art personnel, the invention may be variously modified and varied.All within the spirits and principles of the present invention, made any to repair
Change, equivalent replacement, improvement etc., should all be included in the protection scope of the present invention.
Claims (7)
1. a kind of more sample tension and compression creep test devices, which is characterized in that fixed including rack (1), high-temperature cabinet (2), more samples
Device, strain gauge means and heating device, the high-temperature cabinet are arranged on the rack, and more sample fixing devices are arranged in height
In incubator, more sample fixing devices are for clamping sample and provide the stress for making sample that tension and compression creep occur, the heating device
For heating or keeping the temperature to sample, the dependent variable that the strain gauge means are used to that sample to occur tension and compression creep is surveyed in real time
Amount;
More sample fixing devices include supporting beam one (3) disposed in parallel and supporting beam two (4), and supporting beam one is equipped with more
A seal chamber (31), each seal chamber correspond to a sample (5), are provided with piston (32) in seal chamber, and piston seals one
Chamber is separated into two points of cavitys, and the piston is connected with strut and tie one (33), and strut and tie one is stretched out close to one end of supporting beam two
It is used to connect one end of sample outside seal chamber, the position connection of each seal chamber is set in the corresponding supporting beam one of the supporting beam two
It is equipped with a strut and tie two (41), strut and tie two is used to connect the other end of sample, and a seal chamber is separated via piston
Two be divided to cavity pass through respectively piping connection to hydraulic system two actuator ports, by adjusting the oil in two points of cavitys
Pressure difference, change strut and tie one mobile trend or direction and to sample carry out stretch or compression creep test.
2. a kind of more sample tension and compression creep test devices according to claim 1, which is characterized in that each seal chamber is wrapped
The each component cavity included is connected in the working oil path of same hydraulic system, two points of cavitys included by each seal chamber it
Between pressure difference adjust and control by one group of hydraulic control valve.
3. a kind of more sample tension and compression creep test devices according to claim 1, which is characterized in that the seal chamber (31)
Corresponding one end far from sample is provided with opening, and opening is closed by sealing plug (34);
One end that the strut and tie one is used to connect sample is connected with insulation connection ring one (35), and strut and tie two is for connecting sample
One end be connected with insulation connection ring two (42);
It is described insulation connection ring one one end connect with strut and tie one, insulation connection ring one the other end be used for be directly connected to try
The sample fixed link one (36) of sample one end connects;One end internal screw thread of the insulation connection ring two is connect with strut and tie two, is insulated
The other end of connection ring two is connect with the sample fixed link two (43) for being directly connected to the sample other end;
Clearance for insulation is maintained between sample fixed link one and strut and tie one and between sample fixed link two and strut and tie two
(6);Sample fixed link one and sample fixed link two are electric conductor.
4. a kind of more sample tension and compression creep test devices according to claim 3, which is characterized in that the sample fixed link
One be provided with the connecting terminal (7) for connecting positive pole or cathode in sample fixed link two, sample fixed link one with
The power supply positive and negative polarities of heating device are electrically connected by connecting terminal for sample fixed link two.
5. a kind of more sample tension and compression creep test devices according to claim 1, which is characterized in that the strut and tie two connects
The one end for connecing supporting beam two is arranged to T-shaped structure, be provided in supporting beam two with the matched T-shaped hole of strut and tie T-shaped structure, it is described
T-shaped hole both ends are open, strut and tie two be used to connect one end of sample from T-shaped hole it is open at one end from stretch out, T-shaped hole it is another
It is provided at end opening nut (44), cap end is protruded into T-shaped hole and offseted with strut and tie two (41).
6. a kind of more sample tension and compression creep test devices according to claim 5, which is characterized in that more sample fixing devices
It further include tensile stress sensor and compression sensor, stress induction element a (45) setting of the tensile stress sensor is being drawn
Between compression bar two and the hole shoulder of T-shaped hole, the stress induction element b (46) of the compression sensor is arranged in strut and tie two and spiral shell
Between cap.
7. a kind of more sample tension and compression creep test devices according to claim 1, which is characterized in that in the supporting beam one
The number for the seal chamber (31) being equipped with is 4~12, preferably 5~8.
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