CN208043654U - A kind of small angle laser light scattering instrument with the controllable sample cell of temperature, pressure - Google Patents
A kind of small angle laser light scattering instrument with the controllable sample cell of temperature, pressure Download PDFInfo
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- CN208043654U CN208043654U CN201820432599.XU CN201820432599U CN208043654U CN 208043654 U CN208043654 U CN 208043654U CN 201820432599 U CN201820432599 U CN 201820432599U CN 208043654 U CN208043654 U CN 208043654U
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Abstract
The utility model discloses a kind of small angle laser light scattering instrument with the controllable sample cell of temperature, pressure, the system by laser light source, adjustable attenuator, expander lens, be polarized the controllable sample cell of eyeglass, temperature, pressure, analyzing eyeglass, transmissive projection screen, image collecting device and be arranged in order and constitute.The controllable sample cell of temperature, pressure by visualization autoclave, temperature-controlling module, be quickly cooled down component, pressure control assembly is constituted, Microstructure Development process of the high molecular material in particular atmosphere, quick changeable temperature transformation environment can be characterized in 0.5 μm~10 μm of scale.Content disclosed by the utility model provides a kind of novel characterization method for research high molecular material condensed state development law in hyperbaric environment, process program can be provided for the crystallization of regulation and control high molecular material, phase separation, also provide new approaches further deeply to disclose high molecular material crystallization mechanism.
Description
Technical field
The utility model is related to a kind of small angle laser light scattering instruments, become in particular atmosphere, quickly for characterizing high molecular material
Condensed state structure evolution process in warm transformation environment.
Background technology
Condensed state structure feature, formation condition and its relationship between material property for studying high molecular material, for
Polymer moulding control, physical modification and design of material all have a very important significance.It is newest the study found that environment
In a kind of atmosphere pressures an important factor for being also influence high molecular material condensed state structure.
Low angle laser light scattering (SALS) is a kind of experimental method to grow up the 1960s, utilizes visible light
Rayleigh scattering principle, the microstructure that ranging from 0.5 micron to tens microns of the structure size that it can be measured are research high scores
Sub- solution, polyblend are separated and the important research means of macromolecule microstructure.
University Of Tianjin disclosed a kind of entitled " small angle laser scattering instrument system " (publication number in 1994 in China:CN
93202023.2) patented technology.Device described in the patent is by laser, neutral filter combiner, polarizer component,
Sample stage component, is measured high molecular material specimen slides, analyzer, optical imaging lens combiner, CCD camera and connects
The compositions such as rating field control combiner and prism refraction component.Form, structure and orientation for studying high molecular material, really
Determine crystal habit, size, the phase structure of multiphase polymer material system and phase separation.However, the device is only applicable to research greatly
The microscopic behavior of high molecular material in air pressure force environment is not implemented and controls the atmosphere pressures of sample.
Institute of Chemistry, Academia Sinica disclosed a kind of entitled " time that big angle little Jiao has both point in 2005 in China
Distinguish two-dimensional laser light scattering apparatus " (publication number:CN 200510012282.8) patented technology.Device described in the patent is by two
The camera lens of a large aperture and the detector of a very sensitive face battle array form big angle detecting system, can detect wide angle model
Enclose interior continuous scattered signal;In incident light direction, installation detection screen and another detector can be detected in low-angle model
Enclose interior strong scattered signal.But, which is not related to placing sample the atmosphere pressures control function of environment, is not used to
It studies condensed state of the high molecular material in high-pressure atmosphere environment and develops behavior.
University Of Science and Technology Of Hunan disclosed a kind of entitled " laser light scattering-Raman spectrum combination dress in 2011 in China
Set " (publication number:CN 201120526103.3) patented technology.The test of device described in the patent in laser excitation sample
90 degree of setting, 180 degree and low-angle light scattering light path in light path, the imaged lens of scattering light and Reyleith scanttering light optical filter enter spectrum
Instrument, spectrometer scanning record spectrum obtain Raman spectrum;90,180 and the scattering light of low-angle excitation sample pass through diaphragm, then pass through
Imaging len enters spectrometer, and control spectrometer scanning adjusts slit width and wavelength is only allowed to swash for laser at laser excitation wavelength
The scattering light of hair wavelength passes through, and carries out photon counting and measures and photon correlation scatterometry, progress laser light scattering-Raman spectrum
Combination.However, the device is not related to the temperature to sample, atmosphere pressures control, restricted application.
Chinese patent disclosed in the mandate that Qingdao University of Science and Technology applied in 2015 is " a kind of to integrate scattering, micro-
Provided in rheology original position Online Transaction Processing " (CN201510086324.6) a kind of can be carried out at the same time in rheology testing
The integrated flat capillary rheology original position Online Transaction Processing of laser light scattering and micro- sem observation, can either pass through rheology
System provide stable shear flow field and with the relevant rheological parameters of material macro property, and optical technology can be passed through
Realize the detection and observation that internal microstructure in situ is carried out to polymer material.However, the device can not accurately control observation
The atmosphere pressures of object are not suitable for the static observations of high molecular material Microstructure Development in high-pressure atmosphere environment.
There is only temperature control or the problems of pressure control function deficiency for the system and method for above-mentioned patent disclosure, and
And it is not suitable for detecting the material evolution process under rapid pressure and temperature change yet.This is because the design of above system is not
Consider how the critical oplescence phenomenon for preventing sample placement space from occurring.The phenomenon is when substance occurs acutely in Near The Critical Point
Density fluctuation, light irradiates the substance and the strong scattering phenomenon that occurs.It is this when quickly variation occurs for pressure and temperature
Phenomenon easilys lead to occur blank screen in imaging system, and then the parts of images of material evolution process is caused to be lost.It is even more serious
, when the material system of tissues observed structural evolution speed, it is complete that this blank screen phenomenon also results in whole system
Failure.
To overcome the problems, such as temperature control or pressure control function deficiency existing for test system and method disclosed at present
With the material evolution process detection realized under rapid pressure and temperature environment variation, this patent discloses a kind of band temperature, pressures can
The small angle laser light scattering instrument and its characterizing method for controlling sample cell, to realize high molecular material in particular atmosphere, quick changeable temperature transformation
The online characterization of Microstructure evolution process provides a kind of new method in environment.
Utility model content
The utility model proposes a kind of small angle laser light scattering instruments with the controllable sample cell of temperature, pressure.The system can be used for
The online characterization of high molecular material heterogeneous microstructure evolution process in particular atmosphere, quick changeable temperature transformation environment determines high
Crystal habit, size of molecular material etc., to study phase structure of the multiphase polymer material system in high-pressure atmosphere and mutually dividing
From providing important means.
To achieve the goals above, the utility model adopts the following technical solution.
Small angle laser light scattering instrument provided by the utility model with the controllable sample cell of temperature, pressure, including a temperature, pressure
Controllable sample cell, the sample cell are equipped with light hole, and laser light source, adjustable damping are equipped with successively in the side of sample cell
Device, is polarized eyeglass at expander lens;It is equipped with analyzing eyeglass, transmissive projection screen, image collector successively in the other side of sample cell
It sets;After the light source that the laser light source is sent out carries out intensity adjustment by adjustable attenuator, expander lens are entered, it is described
Beam diameter is adjusted in expander lens, and the light beam after then adjusting enters the sample cell again through eyeglass is polarized,
The light come out from sample cell is projected through analyzing eyeglass on transmissive projection screen, and the image collecting device pair
Transmissive projection screen epigraph is acquired;The wherein controllable sample cell of temperature, pressure, by visualization autoclave, temperature control group
Part is quickly cooled down component, pressure control assembly composition;The visualization autoclave is described for placing sample to be observed
Temperature-controlling module be used to control the temperature of visualization autoclave, the described component that is quickly cooled down is used to be quickly cooled down visualization
Autoclave, the pressure control assembly are used to control the pressure of visualization autoclave.
Further, the visualization autoclave includes autoclave body and kettle cover, and the autoclave body is one open-topped
Upper glass window, ventilative gasket, lower glass window are pressed in autoclave body by tubular structure, the kettle cover successively from top to bottom;
Sample placement space is formd between the upper glass window, ventilative gasket, lower glass window;The autoclave body bottom and
Kettle cover center opens up light hole of the own centre line on same straight line;Autoclave body bottom light hole, lower glass window, ventilative pad
Piece, upper glass window and kettle cover center light hole composition visualization autoclave light path system;Light can be from autoclave body bottom center
Light hole enter, successively pass through lower glass window, ventilative gasket center, upper glass window, finally from kettle cover center thang-kng
It projects in hole.
Further, it is equipped with the first sealing ring on the section of the kettle cover and the cooperation of upper glass window, described first is close
Seal is for preventing high-pressure fluid in autoclave body from being flowed out from kettle cover light hole.
Or/and the second sealing ring is equipped on the section that the kettle cover and autoclave body coordinate, second sealing ring is for preventing
Only interface outflow of the high-pressure fluid between kettle cover and autoclave body in autoclave body.
Or/and it is equipped with third sealing ring on the section of autoclave body and the cooperation of lower glass window, the third sealing ring is used for
Prevent the light hole that high-pressure fluid is gone to the bottom from autoclave body in autoclave body from flowing out.
First sealing ring, the second sealing ring, third sealing ring heatproof temperature be higher than 200 DEG C.
Further, ventilative gasket provides supporting and space for observed sample, and the hardness of ventilative gasket is more than first
The hardness of sealing ring, the second sealing ring and third sealing ring is less than the hardness of the first glass window and the second glass window, to protect
Sealing jam-packed power can effectively be transmitted by demonstrate,proving ventilative gasket.Ventilative gasket includes middle section and peripheral part, intermediate portion
For hollow structure, as sample placement space, peripheral part is equipped with air channel or notch, realize sample placement space with
Remaining space unicom in kettle;The thickness of ventilative gasket is less than 2cm, i.e., above between glass window and lower glass window opposite face
Distance is less than 2cm.The heatproof temperature of ventilative gasket is higher than the heatproof temperature of all sealing rings.
The temperature-controlling module includes temperature controller, heating element, thermocouple, signal cable.Wherein temperature control
Temperature inside device input terminal connection thermocouple acquisition autoclave body processed, output end are connect by signal cable with heating element.Temperature
Controller can be exported observed temperature value to computer by data collecting card, and computer completes the monitoring to temperature data and note
Record.
The component that is quickly cooled down includes autoclave refrigerating seat, the first shut-off valve, liquid pump, liquid thermostat and cooling
Liquid pipeline;The autoclave refrigerating seat is a tubular structure, and it is cold that the visualization autoclave is mounted on the autoclave
But in seat, the light hole passed through for light source is equipped on the pedestal of the autoclave refrigerating seat;The light hole is gone to the bottom with autoclave body
Light hole is coaxial, and the coolant liquid pipeline is placed in the autoclave refrigerating seat;The coolant liquid pipeline and liquid
Body pump, liquid thermostat form a circulation loop, and the first shut-off valve is equipped on the circulation loop;Liquid thermostat
Ranging from -100 DEG C~100 DEG C of temperature control.
The pressure control assembly includes fluid source, plunger pump, the second shut-off valve, third shut-off valve, drain valve, pressure
Sensor and pipeline.Wherein fluid source port connects plunger pump intake, and outlet of plunger pump is sequentially connected the second shut-off valve, pressure passes
Sensor, visualization autoclave inlet and outlet, the line branching between pressure sensor and the second shut-off valve are sequentially connected third cut-off
Valve and drain valve.The fluid of fluid source output can be water, carbon dioxide, nitrogen, organic solvent etc..It is beaten in the second shut-off valve
It opens, in the state of the closing of third shut-off valve, plunger pump can be visualized to control in autoclave with constant pressure or constant current both of which
Pressure.Plunger pump pressure control ranging from 0.1Mpa~65Mpa.Drain valve adjustable fluid rate of discharge.Pressure sensor acquires
To pressure signal be transferred in computer by data collecting card, computer completes monitoring to pressure data and record.
Further, sample light transmittance is not less than 60%, is in chip shape, sheet thickness ranging from 0.005 μm~500 μ
m。
The application method of the utility model is as follows:
(1) method that low angle laser light scattering online observation sample is used in normal pressure, normal temperature environment:
Step (1), by sample to be tested produced as sheets;
Step (2), the second glass window is placed on inside autoclave body, and sample is placed on the second glass window close to autoclave body
On the surface at center;
Step (3), pressure control assembly, temperature-controlling module and the power supply being quickly cooled down in component in closing system, and
It remains off;
Step (6), adjustment laser light source intensity, beam diameter, light path angle and transmissive projection screen position etc.;Rotation
Analyzing eyeglass, when be polarized eyeglass it is vertical with analyzer on piece grating orientation when, obtain sample Hv figure;When be polarized eyeglass with
When analyzer on piece grating orientation is parallel, the Vv figures of sample are obtained.The camera exposure time is set, shooting is prepared;
Step (5) starts image collecting device, starts to take pictures or record a video, and store image;
Step (6), shooting terminates, and closes system various components power supply.
Step (7), the distance L of determination sample to transmissive projection screen and scattering spot most bright spot are to scattering pattern center
Distance d carries out subsequent result analysis.
(2) method that low angle laser light scattering online observation sample is used in normal pressure, varying temperature environment:
Step (1), by sample to be tested produced as sheets;
Second glass window, ventilative gasket are placed sequentially in inside autoclave body, sample are put into ventilative by step (2)
In the space at gasket center, then the first glass window is put into inside autoclave body again, finally places kettle cover;
Step (3) is closed whole valves and power supply in pressure control assembly, and is remained off;
Liquid thermostat temperature is arranged in step (4), keeps liquid pump standby mode;
Step (5), as needed, set temperature control program, including the target temperature of heating process, target heating speed
Rate, the target temperature of cooling procedure, target rate of temperature fall etc.;
Step (6), adjustment laser light source intensity, beam diameter, light path angle and transmissive projection screen position etc.;Rotation
Analyzing eyeglass, when be polarized eyeglass it is vertical with analyzer on piece grating orientation when, obtain sample Hv figure;When be polarized eyeglass with
When analyzer on piece grating orientation is parallel, the Vv figures of sample are obtained.The image collecting device time for exposure is set, prepares to clap
It takes the photograph;
Step (7), running temperature control program, by the interoperation of temperature controller and liquid pump, control sample cell
Temperature;
Step (8) starts image collecting device, is taken pictures or recorded a video when selecting, and store image;
Step (9), shooting terminates, and closes system various components power supply.
Step (10), the distance L of determination sample to transmissive projection screen and scattering spot most bright spot are to scattering pattern center
Distance d, carry out subsequent result analysis.
(3) method that low angle laser light scattering online observation sample is used in transformation, normal temperature environment:
Step (1), by sample to be tested produced as sheets;
Third sealing ring, the second glass window, ventilative gasket are placed sequentially in inside autoclave body, sample by step (2)
It is put into the space at ventilative gasket center, then the first glass window is put into inside autoclave body again, in kettle cover groove and autoclave body
Upper surface groove installs the first sealing ring and the second sealing ring respectively, is connected kettle cover simultaneously each above-mentioned each with autoclave body with bolt
Component jam-packed;
Step (3) opens the second shut-off valve, opens third shut-off valve, and opening plunger pump is adjusted to constant current mode, with 1~
The flow of 20mL/min injects particular fluid to sample cell, and air in kettle is discharged;
Step (4), closing temperature control assembly and cooling control assembly power supply, and remain off;
Step (5) sets the pressure control program of particular fluid, including the goal pressure of pressure process, mesh as needed
Mark compression rate, the goal pressure of pressure reduction, target rate of pressure reduction etc.;
Step (6), adjustment laser light source intensity, beam diameter, light path angle and transmissive projection screen position etc.;Rotation
Analyzing eyeglass, when be polarized eyeglass it is vertical with analyzer on piece grating orientation when, obtain sample Hv figure;When be polarized eyeglass with
When analyzer on piece grating orientation is parallel, the Vv figures of sample are obtained.The image collecting device time for exposure is set, prepares to clap
It takes the photograph;
Step (7), operating pressure control program, pass through plunger pump, the second shut-off valve and third shut-off valve interoperation, control
The pressure of particular fluid in sample cell processed;
Step (8) starts image collecting device, is taken pictures or recorded a video when selecting, and store image;
Step (9), shooting terminates, and closes system various components power supply;
Step (10), the distance L of determination sample to transmissive projection screen and scattering spot most bright spot are to scattering pattern center
Distance d, carry out subsequent result analysis.
(4) method that low angle laser light scattering online observation sample is used in transformation, varying temperature environment:
Step (1), by sample to be tested produced as sheets;
Third sealing ring, the second glass window, ventilative gasket are placed sequentially in inside autoclave body, sample by step (2)
It is put into the space at ventilative gasket center, then the first glass window is put into inside autoclave body again, in kettle cover groove and autoclave body
Upper surface groove installs the first sealing ring and the second sealing ring respectively, is connected kettle cover simultaneously each above-mentioned each with autoclave body with bolt
Component jam-packed;
Step (3) opens the second shut-off valve, opens third shut-off valve, and opening plunger pump is adjusted to constant current mode, with 1~
The flow of 20mL/min injects particular fluid to sample cell, and air in kettle is discharged;
Liquid thermostat temperature is arranged in step (4), keeps liquid pump standby mode;
Step (5), as needed, set temperature control program, including the target temperature of heating process, target heating speed
Rate, the target temperature of cooling procedure, target rate of temperature fall etc.;
Step (6) sets the pressure control program of particular fluid, including the goal pressure of pressure process, mesh as needed
Mark compression rate, the goal pressure of pressure reduction, target rate of pressure reduction etc.;
Step (7), adjustment laser light source intensity, beam diameter, light path angle and transmissive projection screen position etc.;Rotation
Analyzing eyeglass, when be polarized eyeglass it is vertical with analyzer on piece grating orientation when, obtain sample Hv figure;When be polarized eyeglass with
When analyzer on piece grating orientation is parallel, the Vv figures of sample are obtained.The image collecting device time for exposure is set, prepares to clap
It takes the photograph;
Step (8), while running temperature control program and pressure control program pass through matching for temperature controller and liquid pump
Conjunction acts, and controls sample cell temperature, by plunger pump, the interoperation of the second shut-off valve and third shut-off valve, controls sample cell
The pressure of interior particular fluid;
Step (9) starts image collecting device, is taken pictures or recorded a video when selecting, and store image;
Step (10), shooting terminates, and closes system various components power supply;
Step (11), the distance L of determination sample to transmissive projection screen and scattering spot most bright spot are to scattering pattern center
Distance d, carry out subsequent result analysis.
The beneficial effects of the utility model:
Compared to existing small angle laser light scattering instrument, system and method provided by the utility model can characterize macromolecule material
Expect the Microstructure Development process in particular atmosphere, quick changeable temperature transformation environment, is to study high molecular material in hyperbaric environment
Cohesion in middle condensed state development law, the crystallization of regulation and control high molecular material and phase separation process, research high molecular material crystallization theory
Decoupling and announcement material crystalline mechanism that can be with sub-chain motion ability provide a kind of novel characterization method,
Description of the drawings
The accompanying drawings which form a part of this application are used for providing further understanding of the present application, and the application's shows
Meaning property embodiment and its explanation do not constitute the improper restriction to the application for explaining the application.
Fig. 1 is the microscopic observation system structural schematic diagram provided by the utility model with the controllable sample cell of temperature, pressure.
In figure, 1, laser light source;2, adjustable attenuator;3, expander lens;4, it is polarized eyeglass;5, the controllable sample of temperature, pressure
Pond;6, analyzing eyeglass;7, transmissive projection screen;8, image collecting device;9, autoclave body;10, kettle cover;11, the first glass window;
12, the second glass window;13, bolt;14, the first sealing ring;15, the second sealing ring;16, third sealing ring;17, ventilative pad
Piece;18, temperature controller;19, cartridge type heating rod;20, thermocouple;21, signal cable;22, sample placement space;23, data
Capture card;24, computer;25, autoclave refrigerating seat;26, the first shut-off valve;27, liquid pump;28, liquid thermostat;29, cooling
Liquid pipeline;30, fluid source;31, plunger pump;32, the second shut-off valve;33, third shut-off valve;34, drain valve;35, pressure sensing
Device;36, pipeline.
Fig. 2 is ventilative gasket construction schematic diagram provided by the utility model.In figure, 34, laminar sample.
Fig. 3 be system provided by the utility model to melting process of the PLLA in carbon dioxide small angle laser light scattering
Image.
Specific implementation mode
It is noted that following detailed description is all illustrative, it is intended to provide further instruction to the application.Unless another
It indicates, all technical and scientific terms used herein has usual with the application person of an ordinary skill in the technical field
The identical meanings of understanding.
It should be noted that term used herein above is merely to describe specific implementation mode, and be not intended to restricted root
According to the illustrative embodiments of the application.As used herein, unless the context clearly indicates otherwise, otherwise singulative
It is also intended to include plural form, additionally, it should be understood that, when in the present specification using term "comprising" and/or " packet
Include " when, indicate existing characteristics, step, operation, device, component and/or combination thereof.
Being quickly cooled down for " being quickly cooled down component " described in the utility model refers to the drop of sample cell in cooling procedure
Warm rate maximum is up to 6 DEG C/s.
The high pressure of " autoclave " in the utility model refers to the internal gas pressure value born of autoclave body after sealing
Up to 30MPa.In pressure leak process, the pressure of autoclave can pressure release to atmospheric pressure, pressure release rate is up to 15MPa/s.
The utility model is described in further detail with embodiment below in conjunction with the accompanying drawings.
It is as shown in Figure 1 the small angle laser light scattering instrument provided by the utility model with the controllable sample cell of temperature, pressure, this is
System by laser light source 1, adjustable attenuator 2, expander lens 3, be polarized the controllable sample cell 5 of eyeglass 4, temperature, pressure, analyzing eyeglass 6,
Transmissive projection screen 7, image collecting device 8 are arranged in order composition.The wherein controllable sample cell 5 of temperature, pressure, by visualization high pressure
Kettle, temperature-controlling module are quickly cooled down component, pressure control assembly composition.
Wherein, laser light source 1 uses helium neon gas laser light source, output power to be not less than 0.5mV, optical maser wavelength
632.8nm.The adjustable attenuators 2 use gradual change neutral-density filter for controlling laser intensity, eyeglass, are applicable in wave
Long 400~700nm.Expander lens 3 are for adjusting beam diameter, 400~700nm of applicable wavelengths range.Image collecting device 8
Type can be but be not limited only to CMOS or CCD.
Wherein, visualization autoclave includes autoclave body 9, kettle cover 10, the first glass window 11, the second glass window 12, bolt
13, the first sealing ring 14, the second sealing ring 15, third sealing ring 16, ventilative gasket 17.First sealing ring 14 is mounted on kettle cover
In groove on 10, third sealing ring 16, the second glass window 15, ventilative gasket 17, the sealing of the first glass window 11, second
Circle 15 is sequentially arranged in autoclave body 9, with bolt 13 by kettle cover 10 and the connection of autoclave body 9 and each above-mentioned each component jam-packed, is realized
Visualize the sealing of autoclave.Autoclave body 9 is gone to the bottom and 10 center of kettle cover opens up light hole, and light can be from the bottom of autoclave body 9 center
Light hole enters, and passes through the second glass window 12, ventilative gasket center 17, the first glass window 11 successively, finally from kettle cover
10 center light holes project.The space that second glass window 12, ventilative gasket 17 and the first glass window 11 surround is for putting
Set observed sample.
Further, ventilative gasket includes middle section and peripheral part, and intermediate portion is divided into hollow structure, as sample
Product placement space, peripheral part are equipped with air channel or notch, realize sample placement space and remaining space unicom in kettle;
Fig. 2 gives the appearance schematic diagram of ventilative gasket, and the arrangement of ventilating groove can select mode as shown in Figure 2, in week
It encloses part and is radially arranged multiple, number is unrestricted, may be used and is uniformly distributed, and can also select non-uniform Distribution;
The thickness of ventilative gasket 17 is 1cm, i.e. the distance between 12 opposite face of the first glass window 11 and the second glass window is
1cm。
Further, visualization autoclave autoclave body 9 and 10 material of kettle cover can be but not limited to stainless steel.First is close
The material of seal 14, the second sealing ring 15 and third sealing ring 16 can be but not limited to fluorubber.The material of ventilative gasket 17
Matter can be but not limited to polytetrafluoroethylene (PTFE).The material of first glass window 11 and the second glass window 12 can be but not limited to
Sapphire and high purity quartz.The material of autoclave refrigerating seat 26 can be but not limited to aluminium alloy.
Wherein, temperature-controlling module includes temperature controller 18, cartridge type heating rod 19, thermocouple 20, signal cable 21.Its
18 input terminal of middle temperature controller connects the temperature that thermocouple 20 acquires 9 inner space of autoclave body, and output end passes through signal cable 21
It is connect with heating element 19.Temperature controller 18 can be exported observed temperature value to computer 24, electricity by data collecting card 23
Brain 24 completes the monitoring to temperature data and record.
Wherein, it includes autoclave refrigerating seat 25, the first shut-off valve 26, liquid pump 27, liquid thermostat to be quickly cooled down component
28 and coolant liquid pipeline 29.It visualizes autoclave to be mounted in autoclave refrigerating seat 25, cooling is placed in autoclave refrigerating seat
Pipeline, the outlet of liquid thermostat 28 connection 27 entrance of liquid pump, the first shut-off valve 26 of the outlet of liquid pump 27 connection, autoclave cooling
25 entrances, the outlet of autoclave refrigerating seat 25 connection 28 entrance of liquid thermostat.Ranging from -100 DEG C of the temperature control of liquid thermostat 28
~100 DEG C.
Specifically, the autoclave refrigerating seat 25 is a tubular structure, the visualization autoclave is mounted on described
Autoclave refrigerating seat 25 in, the light hole that is passed through for light is equipped on the pedestal of the autoclave refrigerating seat;The thang-kng
Hole and the bottom of autoclave body 9 light hole are coaxial,
Wherein, pressure control assembly includes fluid source 30, plunger pump 31, the second shut-off valve 32, third shut-off valve 33, discharge
Valve 34, pressure sensor 35 and pipeline 36.Wherein the outlet of fluid source 30 connection 31 entrance of plunger pump, the outlet of plunger pump 31 connect successively
Connect the second shut-off valve 32, pressure sensor 35, visualization autoclave inlet and outlet, pressure sensor 35 and the second shut-off valve 32 it
Between line branching be sequentially connected third shut-off valve 33 and drain valve 34.The fluid that fluid source 30 exports can be water, titanium dioxide
Carbon, nitrogen, organic solvent etc..In the state that the second shut-off valve 32 is opened, third shut-off valve 33 is closed, plunger pump 31 can be with
With pressure in constant pressure or constant current both of which control visualization autoclave.31 pressure control of plunger pump ranging from 0.1Mpa~
65Mpa.If necessary to quick pressure releasing, then after closing the second shut-off valve 32, third shut-off valve 33 is opened, fluid is final in autoclave body 9
It is discharged by drain valve.Drain valve 34 can adjust fluid rate of discharge.35 collected pressure signal of pressure sensor passes through
Data collecting card 23 is transferred in computer 24, the monitoring of 24 complete paired data of computer and record.
Further, sample light transmittance is not less than 60%, is in chip shape 37, sheet thickness ranging from 0.005 μm~500
μm。
It is described in detail below with one embodiment:
Embodiment:Using characterized systematically l-lactic acid (PLLA) provided by the utility model in high-pressure carbon dioxide
Crystalline fusion process:
Step (1), by PLLA produced as sheets 37, thickness is 15 μm;
Third sealing ring 16, the second glass window 12, ventilative gasket 17 are placed sequentially in autoclave body 9 by step (2)
Portion is put into sample 37 in the space 22 at 17 center of ventilative gasket, then places the first glass in 17 upper surface of ventilative gasket
Glass window 11 installs the first sealing ring 14 and the second sealing ring 15 in 10 groove of kettle cover and 9 upper surface groove of autoclave body, uses spiral shell respectively
Bolt 13 is by kettle cover 10 and the connection of autoclave body 9 and each above-mentioned each component jam-packed;
Step (3) opens the second shut-off valve 32, opens third shut-off valve 33, and opening plunger pump 31 is adjusted to constant current mode,
Carbon dioxide is injected to sample cell with the flow of 1~20mL/min, air in kettle is discharged;
Step (4), opens temperature controller 18, and heating sample cell makes PLLA be in molten condition to PLLA fusing points;
Step (5) closes third shut-off valve 33, plunger pump 31 is adjusted to constant voltage mode, continues to inject dioxy to sample cell
Change carbon, until setup pressure value;
Step (6) waits for that sample cell temperature and pressure is stablized in setting value, starts timing 30min.
Step (7) in timing course, adjusts 1 intensity of laser light source, beam diameter, light path angle and transmissive projection screen
Position;Rotate analyzing eyeglass 6 so that be polarized eyeglass and analyzer on piece grating orientation is vertical, obtain the Hv figures of sample.
8 time for exposure of image collecting device is set, shooting is prepared;
Step (8), at the end of timing, 18 setting value of adjustment temperature controller temperature is opened simultaneously to PLLA crystallization temperatures
First shut-off valve 26 and liquid pump 27 will visualize autoclave fast cooling to PLLA crystallization temperatures with cryogenic liquid;
Step (9) when reaching crystallization temperature, starts timing, starts to shoot and store.It is as shown in Figure 3 to shoot image;
Step (10), end to be crystallized, closing temperature controller 18 close plunger pump 31, close image collecting device 8;
Step (11) opens the first shut-off valve 26, opens fluid pump 27, cooling sample cell to room temperature;
Step (12), the distance L of determination sample to transmissive projection screen and scattering spot most bright spot are to scattering pattern center
Distance d, according to existing spherocrystal calculation formula obtain spherocrystal mean radius.
It is above-mentioned although specific embodiments of the present invention are described with reference to the accompanying drawings, but not to this practicality newly
The limitation of type protection domain, those skilled in the art should understand that, based on the technical solution of the present invention, ability
Field technique personnel need not make the creative labor the various modifications or changes that can be made still in the protection model of the utility model
Within enclosing.
Claims (9)
1. a kind of small angle laser light scattering instrument with the controllable sample cell of temperature, pressure, which is characterized in that can including a temperature, pressure
Control sample cell, the sample cell be equipped with light hole, the side of sample cell successively be equipped with laser light source, adjustable attenuator,
Expander lens are polarized eyeglass;It is equipped with analyzing eyeglass, transmissive projection screen, image collecting device successively in the other side of sample cell;
After the light source that the laser light source is sent out carries out intensity adjustment by adjustable attenuator, expander lens, the expansion are entered
Beam diameter is adjusted in Shu Jingtou, and the light beam after then adjusting enters the sample cell again through eyeglass is polarized, from
The light that sample cell comes out is projected through analyzing eyeglass on transmissive projection screen, and the image collecting device is to saturating
Formula projection screen epigraph is penetrated to be acquired;The wherein controllable sample cell of temperature, pressure, by visualization autoclave, temperature-controlling module,
It is quickly cooled down component, pressure control assembly is constituted;The visualization autoclave is for placing sample to be observed, the temperature
Degree control assembly is used to control the temperature of visualization autoclave, and described is quickly cooled down component for being quickly cooled down visualization high pressure
Kettle, the pressure control assembly are used to control the pressure of visualization autoclave.
2. a kind of small angle laser light scattering instrument with the controllable sample cell of temperature, pressure as described in claim 1, which is characterized in that institute
The visualization autoclave stated includes autoclave body and kettle cover, and the autoclave body is an open-topped tubular structure, and the kettle cover will
Upper glass window, ventilative gasket, lower glass window are pressed in autoclave body successively from top to bottom;The upper glass window, can
It is ventilative that sample placement space is formd between gasket, lower glass window;The autoclave body bottom and kettle cover center offers center
Light hole of the line on same straight line;Autoclave body bottom light hole, lower glass window, ventilative gasket, upper glass window and kettle
Lid center light hole composition visualization autoclave light path system;Light enters from the light hole at autoclave body bottom center, passes through successively
Lower glass window, ventilative gasket center, upper glass window are finally projected from kettle cover center light hole.
3. a kind of small angle laser light scattering instrument with the controllable sample cell of temperature, pressure as claimed in claim 2, which is characterized in that
The section of the kettle cover and the cooperation of upper glass window is equipped with the first sealing ring, and first sealing ring is high in autoclave body for preventing
Fluid is pressed to be flowed out from kettle cover light hole;
Or/and the second sealing ring is equipped on the section that the kettle cover and autoclave body coordinate, second sealing ring is for preventing kettle
Interface outflow of the internal high-pressure fluid between kettle cover and autoclave body;
Or/and it is equipped with third sealing ring on the section of autoclave body and the cooperation of lower glass window, the third sealing ring is for preventing
The light hole outflow that high-pressure fluid is gone to the bottom from autoclave body in autoclave body;
First sealing ring, the second sealing ring, third sealing ring heatproof temperature be higher than 200 DEG C.
4. a kind of small angle laser light scattering instrument with the controllable sample cell of temperature, pressure as claimed in claim 2, which is characterized in that can
Ventilative gasket is that observed sample provides supporting and space, the hardness of ventilative gasket more than the first sealing ring, the second sealing ring and
The hardness of third sealing ring is less than the hardness of the first glass window and the second glass window;Ventilative gasket includes middle section
And peripheral part, intermediate portion are divided into hollow structure, as sample placement space, peripheral part is equipped with air channel or lacks
Mouthful, realize sample placement space and remaining space unicom in kettle.
5. a kind of small angle laser light scattering instrument with the controllable sample cell of temperature, pressure as claimed in claim 2, which is characterized in that can
The thickness of ventilative gasket is less than 2cm, i.e., upper the distance between glass window and lower glass window opposite face are less than 2cm.
6. a kind of small angle laser light scattering instrument with the controllable sample cell of temperature, pressure as claimed in claim 2, which is characterized in that can
The heatproof temperature of ventilative gasket is higher than the heatproof temperature of all sealing rings.
7. a kind of small angle laser light scattering instrument with the controllable sample cell of temperature, pressure as claimed in claim 2, which is characterized in that institute
The temperature-controlling module stated includes temperature controller, heating element, thermocouple, signal cable, wherein temperature controller input terminal
The temperature inside thermocouple acquisition autoclave body is connected, output end connect by signal cable with heating element, and temperature controller can be with
Observed temperature value is exported to computer by data collecting card, computer completes the monitoring to temperature data and record.
8. a kind of small angle laser light scattering instrument with the controllable sample cell of temperature, pressure as claimed in claim 2, which is characterized in that institute
The component that is quickly cooled down stated includes autoclave refrigerating seat, the first shut-off valve, liquid pump, liquid thermostat and coolant liquid pipeline;Institute
It is a tubular structure to state autoclave refrigerating seat, and the visualization autoclave is mounted in the autoclave refrigerating seat, in institute
The pedestal for the autoclave refrigerating seat stated is equipped with the light hole passed through for light source;The light hole and autoclave body bottom light hole are coaxial,
The coolant liquid pipeline is placed in the autoclave refrigerating seat;The coolant liquid pipeline and liquid pump, liquid constant
Incubator forms a circulation loop, and the first shut-off valve is equipped on the circulation loop.
9. a kind of small angle laser light scattering instrument with the controllable sample cell of temperature, pressure as claimed in claim 2, which is characterized in that institute
The pressure control assembly stated includes fluid source, plunger pump, the second shut-off valve, third shut-off valve, drain valve, pressure sensor and pipe
Road;Wherein fluid source port connects plunger pump intake, and outlet of plunger pump is sequentially connected the second shut-off valve, pressure sensor, visual
Change autoclave inlet and outlet, the line branching between pressure sensor and the second shut-off valve is sequentially connected third shut-off valve and discharge
Valve.
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108318454A (en) * | 2018-03-28 | 2018-07-24 | 山东大学 | A kind of small angle laser light scattering instrument and characterizing method with the controllable sample cell of temperature, pressure |
CN114062346A (en) * | 2021-11-08 | 2022-02-18 | 吉林大学 | In-situ high-pressure laser heating system |
-
2018
- 2018-03-28 CN CN201820432599.XU patent/CN208043654U/en not_active Withdrawn - After Issue
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108318454A (en) * | 2018-03-28 | 2018-07-24 | 山东大学 | A kind of small angle laser light scattering instrument and characterizing method with the controllable sample cell of temperature, pressure |
WO2019184754A1 (en) * | 2018-03-28 | 2019-10-03 | 山东大学 | Small-angle laser scattering apparatus with sample cell having controllable temperature and pressure, and characterizing method |
US11067505B2 (en) | 2018-03-28 | 2021-07-20 | Shandong University | Small angle laser scatterometer with temperature-pressure-controllable sample cell and characterization method |
CN108318454B (en) * | 2018-03-28 | 2022-11-04 | 山东大学 | Small-angle laser scattering instrument with temperature and pressure controllable sample cell and characterization method |
CN114062346A (en) * | 2021-11-08 | 2022-02-18 | 吉林大学 | In-situ high-pressure laser heating system |
CN114062346B (en) * | 2021-11-08 | 2024-03-26 | 吉林大学 | In-situ high-pressure laser heating system |
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