CN106146874B

CN106146874B - A kind of supercritical fluid expanded polyolefin material and preparation method thereof

Info

Publication number: CN106146874B
Application number: CN201610383164.6A
Authority: CN
Inventors: 石洪军; 刘鹏波; 王勇; 范宇
Original assignee: Huzhou Changyuan Technology Co Ltd
Current assignee: Huzhou Changyuan Technology Co Ltd
Priority date: 2016-06-01
Filing date: 2016-06-01
Publication date: 2018-11-20
Anticipated expiration: 2036-06-01
Also published as: CN106146874A

Abstract

The present invention provides a kind of supercritical fluid expanded polyolefin material and preparation method thereof, the supercritical fluid expanded polyolefin material is prepared using following steps：Polyolefin sheets are prepared, the fusing point of the polyolefine material is T_m；Crosslinking with radiation is carried out to polyolefin sheets；Obtained cross-linked polyolefin sheet material is put into pressure vessel, high pressure nitrogen dipping, the dipping temperature T are carried out₁For T_m+（30~120）℃；Then fast pressure relief is nucleated in 0.5 ~ 15s, nucleation temperature T₂=T_m-（50~80）℃：Then low-pressure heating foaming, blowing temperature T are carried out again₃For T_m+（20~50）DEG C, and the T₃Less than T₁.It adopts this technical solution, the crystallinity of material is not also required, substantially reduce the time that gas reaches dissolution saturation state, improve efficiency, the regular foamed material of the fine and smooth shape uniform, that density is lower, mechanical strength is excellent of abscess can be obtained.

Description

A kind of supercritical fluid expanded polyolefin material and preparation method thereof

Technical field

The invention belongs to foamed material technical field more particularly to a kind of supercritical fluid expanded polyolefin material and its systems Preparation Method.

Background technique

Foamed material because having the function of heat preservation, heat-insulated, damping, sound insulation etc., be widely used in articles for daily use, the vehicles, The industries such as building, electric appliance, packaging material, sports facility, high performance foamed plastics can also be used in the tips such as military affairs, aerospace Field.

It is plastic foamed to be divided into physical blowing method and chemical blowing process two major classes according to the difference of foaming agent used.Chemistry Foaming is usually to add chemical foaming agent such as azodicarbonamide (AC), azodiisobutyronitrile (AIBN), sodium bicarbonate and carbon Sour hydrogen ammonium etc., heating make foaming agent decompose generation gas, so that plastic melt is generated abscess and obtain foamed material.Physical blowing method is First by nitrogen (N₂), carbon dioxide (CO₂), butane, gases or the low-boiling point liquid freon (CFCs, HCFCs, HFCs) such as pentane It dissolves in plastics, releases gas by depressurizing or heating, to form stomata in the plastic and foam.In the process of foaming In, physical blowing agent is only that physical state changes, and the change of chemical composition does not occur.

Currently used chemical foaming agent such as azodicarbonamide (AC) can generate a large amount of in foaming agent production process To environmentally hazardous substance, environment is polluted.In addition, European Union the study found that AC foaming agent is when being thermally decomposed, can generate may be led Substance-semicarbazides of carcinogenic disease, this substance can enter food, and the content highest in baby food.Therefore European Union 2005 Forbid AC foaming agent as food packaging or the sale and import of the plastic material and product that contact with food from August 2,. 2010 end of the year European Union start to carry out limit value to by the content of formamide in the foaming product of foaming agent of AC.Common physical blowing Agent freon can destroy atmospheric ozone layer, it has also become banned substance.In addition, conventional foamed products, some foaming agent high temperature point The gas that solution generates can pollute atmospheric environment, and the residue after some foaming agents decompose can pollute product, make The performance of product declines, and product has peculiar smell, which also limits its certain special dimensions application.

Supercritical fluid (Supercritical Fluids, SCF) refer to certain substance be in critical point (critical-temperature, Critical pressure) more than, with the double grading of gas and liquid.This fluid has unique object different from gas or liquid Property, the properties such as density, viscosity, solvability and diffusion coefficient change very sensitive with temperature and pressure.Work as carbon dioxide (CO₂) it is in 31.1 DEG C, 7.38MPa or more, nitrogen (N₂) be in -147 DEG C, 3.4MPa or more when, entered supercritical state State.With supercritical CO₂Or N₂Traditional foaming agent is substituted, foaming process is relatively mild, and foaming agent is derived from environment, after the completion of foaming Environment is returned again, it, will not compared with traditional foam process (including chemical blowing and using the physical blowing of alkane foaming agent) Environment and foaming product itself are polluted, the organic solvents bring such as AC foaming agent, fluorochlorohydrocarbon, petroleum ether is completely eliminated Environmental hazard and safety problem are current most environmentally friendly and safest polymer foaming technologies.But supercritical fluid is solid at present State batch-foamed technique has the following problems：

(1) current supercritical fluid solid-state batch-foamed technique, usual saturation temperature is lower, and gas saturation process needs several Even tens hours a hour, the dosage of required supercritical fluid is larger, and equipment land occupation is big, and production efficiency is lower, at This is higher；

(2) the nucleation sample of the prior art foams under conditions of being higher than dipping temperature and pressure, sample after foaming It is easily deformed, and is not readily available the regular foamed material of shape.

(3) the abscess aperture of the foamed material obtained and the bad adjusting of cell density, foam cell uniformity is inadequate, and higher Mechanical strength under expansion ratio is lower；Some also require the crystallinity of material.

Summary of the invention

Against the above technical problems, the invention discloses a kind of supercritical fluid expanded polyolefin material and its preparation sides Method does not require the crystallinity of material, substantially reduces the time that gas reaches dissolution saturation state, improves efficiency, can Obtain the regular foamed material of the fine and smooth shape uniform, that density is lower, mechanical strength is excellent of abscess.

In this regard, the technical solution adopted by the present invention is：

A kind of supercritical fluid expanded polyolefin material, is prepared using following steps：

Step S1：Polyolefin sheets are prepared, the fusing point of the polyolefine material is T_m；

Step S2：Crosslinking with radiation, the polyolefin sheets being crosslinked are carried out to polyolefin sheets；

Step S3：The polyolefin sheets of crosslinking obtained in step S2 are put into pressure vessel, the pressure vessel Temperature is T₁, the T₁For T_m+ (30~120) DEG C；Then nitrogen or carbon dioxide are injected into pressure vessel, make pressure vessel Interior pressure P₁For 30~70MPa, 0.5~3h of constant temperature and pressure, the polyolefin sheets of crosslinking is made to absorb nitrogen or carbon dioxide；Its In, temperature T₁For dipping temperature；Pressure P₁For impregnation pressure；

Step S4：In pressure vessel after 0.5~3h of constant temperature and pressure, the release within the release time of 0.5~15s makes to press Pressure in force container is reduced to 12~18MPa, makes the cell nucleation in the polyolefin sheets of crosslinking, then that pressure vessel is cooling To T₂After unload and be depressed into atmospheric pressure, take out nucleation sample；Wherein, the T₂=T_m(30~80) DEG C；

Step S5：The nucleation sample that step S4 is obtained is put into pressure vessel, 1.5~5MPa is forced into, is i.e. foaming pressure Power is 1.5~5MPa；Then the temperature of pressure vessel is risen into T₃, after 5~20min of heat-insulation pressure keeping, unload to normal pressure, sample expansion Foaming, wherein the T₃For T_m+ (20~80) DEG C, and the T₃Less than T₁.Wherein, the temperature T₃For blowing temperature.

Technical solution of the present invention is nucleated using first fast pressure relief, then the technical process of low-pressure heating foaming, this step Rapid key benefit is：

1) nucleation separates progress with foaming, convenient for regulation impregnation pressure, dipping temperature, decompression rate, blowing temperature, foaming Pressure, thus regulate and control nucleation density, the degrees of expansion of sample of nucleation sample, cell density, the bubble of final regulation and control foamed sample The density and its mechanical performance of hole aperture and foam, can be obtained that abscess is fine and smooth uniformly, density is lower, mechanical strength is excellent Foamed material.

2) nucleation separates progress with foaming, and sample uses supercritical fluid to be impregnated, accelerates gas at relatively high temperatures Body diffusion velocity improves gas in the solubility being intended in foamable polymer, substantially reduces gas and reach dissolution saturation state Time；Nucleation sample foams under conditions of being lower than dipping temperature and impregnation pressure, avoids the change of sample after foaming The regular foamed material of shape can be obtained in shape.

3) nucleation separates progress with foaming, in the case where obtaining identical size foamed sample, can reduce the body of autoclave Product reduces the dosage of supercritical fluid, shortens the time heated up and pressurizeed in dipping process, improves the production effect of foamed material Rate reduces cost.

As a further improvement of the present invention, the dose of radiation of step S2 is 40~80kGy.

As a further improvement of the present invention, crosslinking with radiation is carried out using electron accelerator.

As a further improvement of the present invention, in step S3, the temperature T₁For T_m+ (40~50) DEG C.

As a further improvement of the present invention, in step S3, the pressure P₁For 40~60MPa.

As a further improvement of the present invention, in step S4, the release in 1~5s；The temperature T₂For T_m(60~70) ℃。

As a further improvement of the present invention, in step S5, the temperature T₃For T_m+ (20~30) DEG C.

As a further improvement of the present invention, the polyolefin is at least one of LDPE, MDPE, HDPE or LLDPE.

As a further improvement of the present invention, in step S1, polyolefin sheets are prepared using extrusion.

The present invention also provides a kind of preparation methods of supercritical fluid expanded polyolefin material as described above, including with Lower step：

Compared with prior art, beneficial effects of the present invention are：

First, using technical solution of the present invention, be higher than melting point polymer at a temperature of, using supercritical fluid to desire Foamable polymer is impregnated, and gas diffusion velocity is accelerated, and improves gas in the solubility being intended in foamable polymer, thus The time that gas reaches dissolution saturation state is substantially reduced, the crystallinity of material is not also required, it is more environmentally-friendly, and improve Efficiency.

Second, the present invention improves the melt strength of polymer by way of crosslinking with radiation, so that polymer is molten at it It can remaining dimensionally-stable property on point；And nucleation sample foams under conditions of being lower than dipping temperature and pressure, avoids The deformation of sample, can be obtained the regular foamed material of shape after foaming.

Nucleation and foaming are separated progress using technical solution of the present invention by third, convenient for regulation impregnation pressure, dipping Temperature, decompression rate, blowing temperature, blow pressure, to regulate and control nucleation density, the degrees of expansion of sample of nucleation sample, most It is fine and smooth that abscess can be obtained in the density and its mechanical performance of the cell density of regulation foamed sample, abscess aperture and foam eventually Foamed material even, density is lower, mechanical strength is excellent.

4th, using technical solution of the present invention, nucleation separates progress with foaming, is obtaining the foamed sample of identical size In the case where, the volume of autoclave can be reduced, reduce the dosage of supercritical fluid, shorten heat up in dipping process and pressurization when Between, improve the production efficiency of foamed material.

Detailed description of the invention

Fig. 1 is the process flow chart of an embodiment of the present invention.

Fig. 2 is the SEM figure of the radiant crosslinked polyethylene foamed material of the embodiment of the present invention 3.

Specific embodiment

Preferably embodiment of the invention is described in further detail below.

Embodiment 1

The technical process of radiant crosslinked polyethylene foamed material is carried out according to the process flow chart of Fig. 1, including following step Suddenly：

1) LDPE sheet material extrusion molding：Using extruder extrusion molding LPDE sheet material, wherein the fusing point T of LPDE_mIt is 111 ℃。

2) crosslinking with radiation LDPE：Crosslinking with radiation LDPE is obtained using high-energy electron beam irradiation LDPE sheet material, wherein irradiating agent Amount is 40kGy.

3) high pressure nitrogen dipping process：Autoclave is raised to set temperature, then puts above-mentioned crosslinking with radiation LDPE print Enter in autoclave, after with high-pressure pump inject nitrogen, make crosslinking with radiation LDPE print in the leaching of 180 DEG C of dipping temperature, 40.1MPa Heat-insulation pressure keeping 1h in autoclave under stain pressure makes crosslinking with radiation LDPE print absorb enough nitrogen.

4) fast pressure relief nucleation process：Crosslinking with radiation LDPE print is in autoclave after heat-insulation pressure keeping 1h, the 15s release time Interior unload rapidly is depressed into 15.1MPa, makes cell nucleation in sample, and sample is slightly expanded, unloaded after autoclave is then cooled to 65 DEG C It is depressed into atmospheric pressure, taking-up has been nucleated sample.

5) low-pressure heating foaming process：Obtained nucleation sample is put into low pressure kettle, under the blow pressure of 5.0MPa Again 160 DEG C are warming up to, i.e. blowing temperature is 160 DEG C, after heat-insulation pressure keeping 10min, is unloaded to normal pressure, sample is expanded foamed to be steeped The closed-cell foam material of hole exquisiteness.

Embodiment 2

On the basis of embodiment 1, the irradiation dose of this example LDPE sheet material is 60kGy, impregnation pressure 50MPa, dipping Temperature is 200 DEG C, and the release time is 10s, and blowing temperature is 150 DEG C, blow pressure 3MPa.

Embodiment 3

On the basis of embodiment 1, the irradiation dose of this example LDPE sheet material is 80kGy, impregnation pressure 30MPa, dipping Temperature is 220 DEG C, and the release time is 5s, and blowing temperature is 180 DEG C, blow pressure 1.5Mpa.

Comparative example 1

On the basis of embodiment 1, for the LDPE sheet material of this example without crosslinking with radiation, blowing temperature is 190 DEG C, foaming pressure Power is 5Mpa.But LDPE sheet material is very poor without crosslinking progress foaming effect, obtained foamed material shape is irregular, no It can use.

The material of obtained 1~embodiment of embodiment 3 is tested for the property, the results are shown in Table 1,

The results of property table of 1 1~embodiment of embodiment 3 of table, comparative example 1

By the data of table 1 as it can be seen that the coefficient of foaming of the sample of 1~embodiment of embodiment 3 is all at 20 times or more, embodiment 1 Expansion ratio reach 26.4, and the sample of 1~embodiment of embodiment 3 still maintains higher hardness and compressive strength.

The SEM of the sample of embodiment 3 schemes as shown in Fig. 2, from Figure 2 it can be seen that about 120 microns of abscess average pore size, and abscess is equal It is even.

Embodiment 4

On the basis of embodiment 1, the impregnation pressure of this example is 50MPa, and dipping temperature is 230 DEG C, and the release time is 10s, blowing temperature is 190 DEG C, blow pressure 3MPa.

Embodiment 5

On the basis of embodiment 1, the impregnation pressure of this example is 30MPa, and dipping temperature is 220 DEG C, and the release time is 5s, Blowing temperature is 180 DEG C, blow pressure 1.5MPa.

Embodiment 6

On the basis of embodiment 1, in this example, the irradiation dose of LDPE sheet material is 80kGy.The LDPE print of crosslinking with radiation The heat-insulation pressure keeping 1h in autoclave under 160 DEG C of dipping temperature, the impregnation pressure of 40.1MPa inhales crosslinking with radiation LDPE print Receive enough nitrogen；Then fast pressure relief then cools down autoclave, when temperature is reduced to 63 DEG C, unloads and be pressed onto greatly to 15.1MPa It is taken out after air pressure and has been nucleated sample；Then sample is put into low pressure kettle, is warming up to 150 DEG C, heat preservation again under 5.0MPa pressure After pressure maintaining 10min, foam is unloaded.

4~embodiment of embodiment 6 obtains the regular foamed material of shape, to the material progressive of 4~embodiment of embodiment 6 It can test, the results are shown in Table 2,

The results of property table of 2 4~embodiment of embodiment 6 of table

By the data of table 2 as it can be seen that the coefficient of foaming of the sample of 4~embodiment of embodiment 6 is all at 20 times or more, embodiment 4 Expansion ratio reach 31.3, and the sample of 4~embodiment of embodiment 6 still maintains higher hardness and compressive strength.

The above content is a further detailed description of the present invention in conjunction with specific preferred embodiments, and it cannot be said that Specific implementation of the invention is only limited to these instructions.For those of ordinary skill in the art to which the present invention belongs, exist Under the premise of not departing from present inventive concept, a number of simple deductions or replacements can also be made, all shall be regarded as belonging to of the invention Protection scope.

Claims

1. a kind of supercritical fluid expanded polyolefin material, it is characterised in that：It is prepared using following steps：

Step S3：The polyolefin sheets of crosslinking obtained in step S2 are put into pressure vessel, the temperature of the pressure vessel For T₁, the T₁For T_m+（30~120）℃；Then nitrogen or carbon dioxide are injected into pressure vessel, make the pressure in pressure vessel Power P₁For 30 ~ 70MPa, 0.5 ~ 3h of constant temperature and pressure, the polyolefin sheets of crosslinking is made to absorb nitrogen or carbon dioxide；

Step S4：In pressure vessel after 0.5 ~ 3h of constant temperature and pressure, the release in 0.5 ~ 15s makes the pressure drop in pressure vessel For 12 ~ 18MPa, makes the cell nucleation in the polyolefin sheets of crosslinking, pressure vessel is then cooled to T₂After unload and be depressed into atmosphere Pressure takes out nucleation sample；Wherein, the T₂=T_m-（30~80）℃；

Step S5：The nucleation sample that step S4 is obtained is put into pressure vessel, 1.5 ~ 5MPa is forced into, then by pressure vessel Temperature rise to T₃, after 5 ~ 20min of heat-insulation pressure keeping, unload to normal pressure, sample is expanded foamed, wherein the T₃For T_m+（20~80） DEG C, and the T₃Less than T₁；The polyolefin is polyethylene.

2. supercritical fluid expanded polyolefin material according to claim 1, it is characterised in that：The dose of radiation of step S2 For 40 ~ 80 kGy.

3. supercritical fluid expanded polyolefin material according to claim 2, it is characterised in that：Using electron accelerator into Row crosslinking with radiation.

4. supercritical fluid expanded polyolefin material according to claim 2, it is characterised in that：In step S3, the temperature Spend T₁For T_m+（50~80）℃.

5. supercritical fluid expanded polyolefin material according to claim 2, it is characterised in that：In step S3, the pressure Power P₁For 40 ~ 60MPa.

6. supercritical fluid expanded polyolefin material according to claim 2, it is characterised in that：In step S4, in 1 ~ 5s Interior release；The temperature T₂For T_m-（60~70）℃.

7. supercritical fluid expanded polyolefin material according to claim 2, it is characterised in that：In step S5, the temperature Spend T₃For T_m+（20~30）℃.

8. supercritical fluid expanded polyolefin material described in any one according to claim 1 ~ 7, it is characterised in that：It is described poly- Alkene is at least one of LDPE, MDPE, HDPE or LLDPE.

9. supercritical fluid expanded polyolefin material according to claim 8, it is characterised in that：In step S1, using crowded Polyolefin sheets are prepared out.

10. a kind of preparation method of supercritical fluid expanded polyolefin material as described in claim 1, it is characterised in that：Packet Include following steps：

Step S2：Crosslinking with radiation, the polyolefin sheets being crosslinked are carried out to polyolefin sheets；Wherein, dose of radiation is 40 ~ 80 kGy；

Step S3：The polyolefin sheets of crosslinking obtained in step S2 are put into pressure vessel, the temperature of the pressure vessel For T₁, the T₁For T_m+（30~120）℃；Then nitrogen or carbon dioxide are injected into pressure vessel, make the pressure in pressure vessel Power P₁For 30 ~ 70MPa, 0.5 ~ 3h of constant temperature and pressure, the polyolefin sheets of crosslinking is made to absorb nitrogen；

Step S4：In pressure vessel after 0.5 ~ 3h of constant temperature and pressure, the release in 0.5 ~ 15s makes the pressure drop in pressure vessel For 12 ~ 18MPa, makes the cell nucleation in the polyolefin sheets of crosslinking, pressure vessel is then cooled to T₂After unload and be depressed into atmosphere Pressure takes out nucleation sample；Wherein, the T₂= T_m-（30~80）℃；

Step S5：The nucleation sample that step S4 is obtained is put into pressure vessel, 1.5 ~ 5MPa is forced into, then by pressure vessel Temperature rise to T₃, after 5 ~ 20min of heat-insulation pressure keeping, unload to normal pressure, sample is expanded foamed, wherein the T₃For T_m+（20~80） DEG C, and the T₃Less than T₁。