CN1854161A - Polypropylene graft copolymer, its production and use - Google Patents
Polypropylene graft copolymer, its production and use Download PDFInfo
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- CN1854161A CN1854161A CN 200510064470 CN200510064470A CN1854161A CN 1854161 A CN1854161 A CN 1854161A CN 200510064470 CN200510064470 CN 200510064470 CN 200510064470 A CN200510064470 A CN 200510064470A CN 1854161 A CN1854161 A CN 1854161A
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Abstract
A polypropylene graft copolymer, its production and use are disclosed. In the molecular formula, n is integer between 50-100000, k is integer between 10-5000, L is integer between 4-10, R is alkyl, R1 is H or methyl, R2 is phenyl, p-methyl, -OCOCH3, -CONH2, -CN or -COOR3, and R3 is alkyl. It can adjust graft density and length, and maintain polypropylene excellent performances and blending compatibility. It can be used for blending compatilizer.
Description
Technical field
The present invention relates to a kind of polypropylene graft copolymer and preparation method thereof and application.
Background technology
Macromolecular material cumulative volume output has surpassed metal at present, and wherein plastics account for 2/3 of macromolecular material.Polypropylene becomes one of kind of consumption maximum in the plastics with its good mechanical performance, electrical insulating property, chemical stability, processing characteristics and cheap price, is widely used in food product pack, vessel goods, insulating material, automobile component, household electrical appliance etc. and daily life, the closely-related field of industrial and agricultural production.But because polypropylene chains do not contain any polar group, cause its low-temperature impact performance poor, easy coloring not, water absorbability is low, and bounding force and relatively poor with the comixing compatibility of other polymkeric substance has greatly limited the further application of polypropylene material.If polypropylene is carried out chemical modification, have important use undoubtedly and be worth at above weak point.One of main path that polypropylene is carried out chemical modification is that it is prepared into polyacrylic graft copolymer at present, by comprehensive each monomeric different properties, prepares the polypropylene type material of excellent performance.
What the synthesis of polyolefins graft copolymer adopted usually is Raolical polymerizable, promptly in the polyolefin backbone that has formed, introduce free radical, cause another monomer and carry out the free radical grafting reaction, principal monomer is maleic anhydride, vinylformic acid and (Wirsen A et al. such as ester class, acrylamide thereof, Polymer, 1996,37,761-769; Chmela S et al., Macromoleculars, 1996,29,3055-3059; Shimada et al., Polymer, 2003,44 (25): 7661-7669, Myriam S et al., polymer, 2004,45,5749-5754).But this method is difficult to the distribution of the polyolefinic 26S Proteasome Structure and Function group of accurate controlled functionization, and side reaction is many.In addition, the investigator who also has utilizes ionic polymerization (cationoid polymerisation and anionoid polymerization) to prepare polyolefin graft copolymer (H.L.Lu et al., Journal ofPolymer Science:Part A:Polymer Chemistry, 1999,37,4176-4183; Yingying Lu et al., Polymer International, 2004,53 (12), 1963-1967), but low, the severe reaction conditions of this method Ionization Efficiency.
Summary of the invention
The purpose of this invention is to provide a kind of polypropylene graft copolymer and preparation method thereof with comixing compatibility.
Polypropylene graft copolymer provided by the present invention has structure shown in the formula I,
(formula I)
Wherein, n is the integer between the 50-100000; K is the integer between the 10-5000; L is the integer between the 4-10; R is an alkyl; R
1Be H or methyl; R
2Be phenyl, p-methylphenyl ,-OCOCH
3,-CONH
2,-CN or-COOR, R is an alkyl.
R
2Above-mentioned various substituting groups to correspond respectively to reaction monomers be vinylbenzene, p-methylstyrene, vinyl-acetic ester, third rare acid amides, Methacrylamide, vinylformic acid, methacrylic acid, vinyl cyanide, the multipolymer that is produced during methacrylic ester etc.
Wherein, n is preferably 100-100000; L is preferably 6-9; R is preferably methyl or ethyl.
The preparation method of this polypropylene graft copolymer comprises the steps:
1) preparation polypropylene provided with hydroxyl group: in containing the organic solution of monoene monomer, Ziegler-Natta catalyst and aluminum alkyls of boracic that structural formula is formula II, feed third rare polyreaction of carrying out; The aqueous solution that in reaction product, adds the oxyhydroxide of hydrogen peroxide and basic metal or alkaline-earth metal then, the reaction that is hydrolyzed under-30-70 ℃ condition obtains the polypropylene provided with hydroxyl group that structural formula is a formula III; M is the integer between the 2-8 among the formula II; N is the integer between the 50-100000 in the formula III, and L is the integer between the 4-10;
(formula II) (formula III)
2) preparation polypropylene-base atom transfer radical polymerization initiator: step 1) gained polypropylene provided with hydroxyl group is suspended in the organic solvent, makes 1-100g/100ml suspension; Add the toluene solution of 4-methylamino pyridine and the alkyl carboxylic acid halides of chloro or bromo in suspension, 0-100 ℃ of reaction 0.5-30 hour, obtaining structural formula was the polypropylene-base atom transfer radical polymerization initiator of formula IV; N is 50-100 among the formula IV, and the integer between 000, L are the integer between the 4-10, and R is an alkyl, and X is chlorine, bromine or iodine;
(formula IV)
3) preparation polypropylene graft copolymer: with step 2) gained polypropylene-base atom transfer radical polymerization initiator is suspended in toluene or the methyl-phenoxide, makes the 1-20g/100ml aaerosol solution; In aaerosol solution, add cuprous halide, multiple tooth nitrogenous ligand is as catalyzer, add vinylbenzene, p-methylstyrene, vinyl-acetic ester, methyl methacrylate, acrylamide, Methacrylamide, methyl acrylate, ethyl propenoate or vinyl cyanide then, reacted 0.2~24 hour down at 70-150 ℃, obtain described polypropylene graft copolymer.
Wherein, the described Ziegler-Natta catalyst of step 1) is titanous chloride, titanium tetrachloride, titanium tetrabromide or titanium tetra iodide; Described catalyst cupport is at magnesium chloride, and on magnesium bromide, magnesium iodide or the magnesiumcarbonate, the weight content of Ti is 1-6%.Described aluminum alkyls is triethyl aluminum, trimethyl aluminium, triisobutyl aluminium or diethylaluminum chloride.Also be added with dimethoxydiphenylsilane in the organic solvent.Every 50ml is added with the monoene monomer of the described boracic of 0.1-10g in the organic solvent, the described Ziegler-Natta catalyst of 0.01-10g, the described aluminum alkyls of 0.001-100mmol, the described dimethoxydiphenylsilane of 0.1-10g.Organic solvent commonly used is toluene, pentane, hexane or heptane etc.; The condition of described polyreaction is 0-100 ℃, 1-10 normal atmosphere, and the reaction times is 0.1-100 hour; The time of described hydrolysis reaction is 0.5-48 hour.
The monoene monomer of the used boracic of step 1) can be according to document (T.C.Chung, M.Raate, Macromolecules, Vol.21, No.7,1903-1907,1988.) method that provides by 9-BBN (being 9-boron two ring [3.3.1] alkane) respectively with 1,3-butadiene, 1, the 5-hexadiene, 1, the reaction of 7-octadiene makes.
Step 2) every 100ml is added with the toluene solution that 30ml contains 0.3-2.6g 4-methylamino pyridine, the alkyl carboxylic acid halides of 0.6-3ml chloro or bromo in the described organic solvent.Organic solvent commonly used is toluene, dimethylbenzene, hexane, heptane or hexanaphthene.
Every 100ml is added with the described cuprous halide of 0.01-0.1g in the described aaerosol solution of step 3), the described multiple tooth nitrogenous ligand of 0.02-0.1ml.Cuprous halide commonly used is cuprous chloride, cuprous bromide or cuprous iodide etc.; Common multiple tooth nitrogenous ligand is 2,2 '-two pyridines, 6,2 '-two pyridines, pyridine imine or pentamethyl-two vinylidene triamines etc.
The polymerization degree n of the main body chain polypropylene chains of polypropylene graft copolymer of the present invention is decided by the ratio of aluminum alkyls and Ziegler-Natta catalyst, and the polymerization degree k of grafted chain is by another amount of monomer decision that adds.The amount of hydroxyl in the polypropylene chains can be controlled by the amount that adds boron-containing compound, thereby the grafting density of polypropylene graft copolymer of the present invention can be controlled; Grafting length then can be by adding various function monomers in the atom transfer radical polymerization concentration and reaction conditions such as reaction times regulate and control.
Another object of the present invention provides the purposes of polypropylene graft copolymer of the present invention.
The inventor confirms that by experiment polypropylene graft copolymer of the present invention can improve the comixing compatibility of polypropylene and other polymkeric substance, can be used as blending compatilizer and uses.
The present invention utilizes the polycoordination prepared in reaction to go out to contain the polypropylene of function hydroxy, then with the compound reaction that contains halogen, synthesize the macromonomer initiator that can carry out atom transition free radical polymerization reaction (ATRP), under certain condition, this initiator can cause another kind of monomer and carry out polyreaction, thereby makes polypropylene graft copolymer.The approach that the present invention utilizes polycoordination to combine with atom transfer radical polymerization, but under relatively mild condition, prepare the novel polypropylene graft copolymer of grafting density, grafting length accuracy controlling.In addition, the present invention also provides a new reaction path for Functionalization of Polyolefins.But the grafting density of the inventive method accuracy controlling multipolymer and grafting quantity, gained multipolymer can not only keep the original premium properties of polypropylene, and can also obviously improve the comixing compatibility of polypropylene and other polymkeric substance, can be used as blending compatilizer.
Description of drawings
Fig. 1 is the polypropylene grafted polystyrene copolymer of embodiment 1 preparation
1The H-NMR spectrogram;
Fig. 2 is the polypropylene grafted polymethyl methacrylate copolymer of embodiment 2 preparation
1The H-NMR spectrogram;
Fig. 3 be polypropylene and polystyrene blend (3: 1) after brittle failure, the shape appearance figure of the scanning electronic microscope of section;
Fig. 4 be add 1% embodiment, 1 preparation in polypropylene and the polystyrene blend (3: 1) polypropylene grafted polystyrene copolymer after brittle failure, the shape appearance figure of the scanning electronic microscope of section;
Fig. 5 be polypropylene and polymethylmethacrylate blend (3: 1) after brittle failure, the shape appearance figure of the scanning electronic microscope of section;
Fig. 6 be add 1% embodiment, 2 preparations in polypropylene and the polymethylmethacrylate blend (3: 1) polypropylene grafted polymethyl methacrylate copolymer after brittle failure, the shape appearance figure of the scanning electronic microscope of section.
Embodiment
Embodiment 1, prepare polypropylene grafted polystyrene copolymer
One, preparation polypropylene provided with hydroxyl group multipolymer
In three mouthfuls of glass flask of 250ml, carry out polyreaction.At first vacuumize, logical propylene gas, behind the triplicate aforesaid operations, the maintenance propylene gas is 1MPa; 50mL toluene is joined in the reactor, under 50 ℃ of conditions, add the n-heptane solution (1.8mol/L) of 2ml triisobutyl aluminium, the monoene monomer of 2g boracic (m is 4 among the formula II) again, the dimethoxydiphenylsilane of 3g (DDS) and 0.1g Ziegler-Natta catalyst (titanium tetrachloride loads on the magnesium chloride, wherein Ti content be total catalyst weight 3%); 50 ℃ of following stirring reactions 1 hour, after polyreaction finishes, under 0 ℃, add 30mL 1.2g/mL hydrogen peroxide tetrahydrofuran solution and 10mL 0.3g/mL aqueous sodium hydroxide solution after, under 40 ℃, be hydrolyzed 10 hours; Filter then white solid, water and ethanol thorough washing final vacuum drying obtain 8.5g polypropylene provided with hydroxyl group multipolymer.Adopt
1It is 0.50% that H-NMR characterizes the content of determining hydroxyl in the multipolymer.
Two, preparation polypropylene-base atom transfer radical polymerization initiator
In the 250ml there-necked flask, the adding gained contains the polypropylene copolymer 3.0g of hydroxyl, add 100ml toluene, in this aaerosol solution, add toluene solution and the 0.9ml 2-bromo propionyl chloride that 0.5g contains 4-methylamino pyridine respectively in 100 ℃, reacted 20 hours, after the filtration white solid, respectively behind water, the above-mentioned prepared product of ethanol thorough washing, vacuum-drying obtains carrying out the big monomer molecule initiator 2.7g of atom transition free radical polymerization reaction
1H-NMR characterizes and determines transformation efficiency 100%.
Three, prepare the graft polypropylene multipolymer with the polypropylene-base initiator
Get the 250ml there-necked flask, add gained polypropylene-base atom transfer radical polymerization initiator 20.0g, add the 100ml methyl-phenoxide, add cuprous chloride 0.03g, pentamethyl-two vinylidene triamine 0.05ml add vinylbenzene 20g, and keeping temperature of reaction is 125 ℃, react after 5 hours, with excessive 10% acidic alcohol precipitation, filter white solid, water and ethanol thorough washing final vacuum drying, obtain polypropylene grafted polystyrene copolymer 23.0g, its
1H-NMR shows that the products therefrom structure is correct as shown in Figure 1.
The number-average molecular weight of this multipolymer is that (n=1352, k=1260), molecular weight distribution is 2.79 to 187900g/mol.
Embodiment 2, prepare polypropylene grafted polymethyl methacrylate copolymer
Get the 250ml there-necked flask, add embodiment 1 step 2 gained polypropylene-base atom transfer radical polymerization initiator 20.0g, add the 100ml methyl-phenoxide, add cuprous chloride 0.1g, pentamethyl-two vinylidene triamine 0.05ml add methyl methacrylate 30g, and keeping temperature of reaction is 95 ℃, react after 2 hours, with excessive 10% acidic alcohol precipitation, filter white solid, water and ethanol thorough washing final vacuum drying, obtain polypropylene grafted polymethyl methacrylate copolymer 31.0g, its
1H-NMR characterizes as Fig. 2, shows that the products therefrom structure is correct.
The number-average molecular weight of this multipolymer is that (n=1352, k=558), molecular weight distribution is 4.56 to 112600g/mol.
Embodiment 3, the polypropylene grafted poly-p-methylstyrene multipolymer of preparation
One, preparation polypropylene provided with hydroxyl group multipolymer
In three mouthfuls of glass flask of 250mL, carry out polyreaction.At first vacuumize, logical propylene gas, behind the triplicate aforesaid operations, the maintenance propylene gas is 1MPa; The 50ml pentane is joined in the reactor, under 50 ℃ of conditions, add again the dimethoxydiphenylsilane (DDS) of the n-heptane solution (1.8mol/L) of 1mL triethyl aluminum, the monoene monomer of 0.1g boracic (m is 4 among the formula II), 2g and 0.1g Ziegler-Natta catalyst (titanium tetrachloride loads on the magnesium chloride, wherein Ti content be total catalyst weight 3%); 50 ℃ were stirred 1 hour down; After polyreaction finishes, under 0 ℃, add 30mL 1.2g/mL hydrogen peroxide tetrahydrofuran solution and 10mL 0.3g/mL potassium hydroxide aqueous solution after, be hydrolyzed 10 hours under 40 ℃; Filter then white solid, water and ethanol thorough washing final vacuum drying obtain 12g polypropylene provided with hydroxyl group multipolymer.
1It is 0.05% that H-NMR characterizes the content of determining hydroxyl in the multipolymer.
Two, preparation polypropylene-base atom transfer radical polymerization initiator
In the 250ml there-necked flask, the adding gained contains the polypropylene copolymer 1.0g of hydroxyl, add 100ml dimethylbenzene (mixed type, commercially available), in this aaerosol solution, add toluene solution and the 0.6ml 2-chloro propionyl chloride that 0.3g contains 4-methylamino pyridine respectively in 100 ℃, reacted 30 hours, get white solid after the filtration, behind difference water, the above-mentioned prepared product of ethanol thorough washing, vacuum-drying, obtain carrying out the big monomer molecule initiator 0.9g of atom transition free radical polymerization reaction
1H-NMR characterizes and determines transformation efficiency 100%.
Three, the polypropylene grafted poly-p-methylstyrene multipolymer of preparation
Get the 250ml there-necked flask, add gained polypropylene-base atom transfer radical polymerization initiator 1.0g, add 100ml toluene, add cuprous iodide 0.01g, 2,2 '-two pyridine 0.02ml add p-methylstyrene 20g, and keeping temperature of reaction is 125 ℃, react after 0.5 hour with excessive 10% acidic alcohol precipitation, filter white solid, water and ethanol thorough washing final vacuum drying obtain polypropylene grafted poly-p-methylstyrene multipolymer 25.0g.
The number-average molecular weight of this multipolymer is that (n=5872, k=1106), molecular weight distribution is 3.94 to 378300g/mol.
Embodiment 4, the polypropylene grafted polyvinyl acetate ester copolymer of preparation
In three mouthfuls of glass flask of 250mL, carry out polyreaction.At first vacuumize, logical propylene gas, behind the triplicate aforesaid operations, the maintenance propylene gas is 1MPa; The 50ml hexane is joined in the reactor, under 50 ℃ of conditions, add again the DDS of the n-heptane solution (1.8mol/L) of 1ml trimethyl aluminium, the monoene monomer of 0.5g boracic (m is 4 among the formula II), 3g and 0.1g Ziegler-Natta catalyst (titanium tetrachloride is adsorbed on the magnesiumcarbonate, wherein Ti content be total catalyst weight 3%); 50 ℃ were stirred 1 hour down; After polyreaction finishes, under 0 ℃, add 30ml1.2g/ml hydrogen peroxide tetrahydrofuran solution and 10ml 0.3g/ml aqueous sodium hydroxide solution after, be hydrolyzed 10 hours under 40 ℃; Filter then white solid, water and ethanol thorough washing final vacuum drying obtain 11g polypropylene provided with hydroxyl group multipolymer.
1It is 0.14% that H-NMR characterizes the content of determining hydroxyl in the multipolymer.
In the 250ml there-necked flask, the adding gained contains the polypropylene copolymer 100.0g of hydroxyl, add the 100ml hexanaphthene, in this aaerosol solution, add toluene solution and the 3ml2-bromo propionyl chloride that 2.5g contains 4-methylamino pyridine respectively in 100 ℃, reacted 20 hours, after the filtration white solid, respectively behind water, the above-mentioned prepared product of ethanol thorough washing, vacuum-drying obtains carrying out the big monomer molecule initiator 94g of atom transition free radical polymerization reaction
1H-NMR characterizes and determines transformation efficiency 100%.
Get the 250ml there-necked flask, add gained polypropylene-base atom transfer radical polymerization initiator 10.0g, add the 100ml methyl-phenoxide, add cuprous bromide 0.05g, 6,2 '-two pyridine 0.1ml add vinyl-acetic ester 30g, keeping temperature of reaction is 80 ℃, react after 5 hours, with excessive 10% acidic alcohol precipitation, filter white solid, water and ethanol thorough washing final vacuum drying obtain polypropylene grafted polyvinyl acetate ester copolymer 20.2g.
The number-average molecular weight of this multipolymer is that (n=8063, k=1468), molecular weight distribution is 4.13 to 464920g/mol.
Embodiment 5, the polypropylene grafted polyacrylonitrile multipolymer of preparation
In three mouthfuls of glass flask of 250mL, carry out polyreaction.At first vacuumize, logical propylene gas, behind the triplicate aforesaid operations, the maintenance propylene gas is 1MPa; 50ml toluene is joined in the reactor, under 50 ℃ of conditions, add again the DDS of the n-heptane solution (1.8mol/L) of 1ml triisobutyl aluminium, the monoene monomer of 1g boracic (m is 4 among the formula II), 5g and 0.1g Ziegler-Natta catalyst (titanium tetra iodide is adsorbed on the magnesium iodide, wherein Ti content be total catalyst weight 3%); 50 ℃ were stirred 1 hour down; After polyreaction finishes, under 0 ℃, add 30ml 1.2g/ml hydrogen peroxide tetrahydrofuran solution and 10ml 0.3g/ml magnesium hydroxide aqueous solution after, be hydrolyzed 10 hours under 40 ℃; Filter then white solid, water and ethanol thorough washing final vacuum drying obtain 9g polypropylene provided with hydroxyl group multipolymer.
1It is 0.35% that H-NMR characterizes the content of determining hydroxyl in the multipolymer.
In the 250ml there-necked flask, the adding gained contains the polypropylene copolymer 3.0g of hydroxyl, add the 100ml hexane, in this aaerosol solution, add toluene solution and the 0.8ml 2-bromo propionyl chloride that 0.5g contains 4-methylamino pyridine respectively in 0 ℃, reacted 30 hours, after the filtration white solid, respectively behind water, the above-mentioned prepared product of ethanol thorough washing, vacuum-drying obtains carrying out the big monomer molecule initiator 2.6g of atom transition free radical polymerization reaction
1H-NMR characterizes and determines transformation efficiency 98%.
Get the 250ml there-necked flask, add gained polypropylene-base atom transfer radical polymerization initiator 20.0g, add 100ml toluene, add cuprous chloride 0.03g, pyridine imine 0.05ml, add vinyl cyanide 40g, keeping temperature of reaction is 80 ℃, reacts after 8 hours, with excessive 10% acidic alcohol precipitation, filter white solid, water and ethanol thorough washing final vacuum drying obtain polypropylene grafted polyacrylonitrile multipolymer 30.5g.
The number-average molecular weight of this multipolymer is that (n=10014, k=1037), molecular weight distribution is 4.85 to 475560g/mol.
Embodiment 6, prepare polypropylene grafted acrylamide copolymer
In three mouthfuls of glass flask of 250mL, carry out polyreaction.At first vacuumize, logical propylene gas, behind the triplicate aforesaid operations, the maintenance propylene gas is 1MPa; 50ml toluene is joined in the reactor, under 50 ℃ of conditions, add again the DDS of the n-heptane solution (1.8mol/L) of 2ml triisobutyl aluminium, the monoene monomer of 3g boracic (m is 4 among the formula II), 3g and 0.2g Ziegler-Natta catalyst (titanium tetrabromide is adsorbed on the magnesium bromide, wherein Ti content be total catalyst weight 3%); 50 ℃ were stirred 1 hour down; After polyreaction finishes, under 0 ℃, add 30ml 1.2g/ml hydrogen peroxide tetrahydrofuran solution and 10ml 0.3g/ml aqueous sodium hydroxide solution after, be hydrolyzed 10 hours under 40 ℃; Filter then white solid, water and ethanol thorough washing final vacuum drying obtain 9g polypropylene provided with hydroxyl group multipolymer.
1It is 0.71% that H-NMR characterizes the content of determining hydroxyl in the multipolymer.
In the 250ml there-necked flask, the adding gained contains the polypropylene copolymer 3.0g of hydroxyl, add 100ml toluene, in this aaerosol solution, add toluene solution and the 0.8ml 2-bromo propionyl chloride that 0.5g contains 4-methylamino pyridine respectively in 100 ℃, reacted 0.5 hour, after the filtration white solid, respectively behind water, the above-mentioned prepared product of ethanol thorough washing, vacuum-drying obtains carrying out the big monomer molecule initiator 2.8g of atom transition free radical polymerization reaction
1H-NMR characterizes and determines transformation efficiency 99%.
Get the 250ml there-necked flask, add gained polypropylene-base atom transfer radical polymerization initiator 20.0g, add 100ml toluene, add cuprous chloride 0.03g, pentamethyl-two vinylidene triamine 0.05ml, add acrylamide 40g, keeping temperature of reaction is 125 ℃, reacts after 10 hours, with excessive 10% acidic alcohol precipitation, filter white solid, water and ethanol thorough washing final vacuum drying obtain polypropylene grafted acrylamide copolymer 26.4g.
The number-average molecular weight of this multipolymer is that (n=1456, k=2301), molecular weight distribution is 4.05 to 224583g/mol.
Embodiment 7, prepare polypropylene grafted methacrylamide copolymer
In three mouthfuls of glass flask of 250mL, carry out polyreaction.At first vacuumize, logical propylene gas, behind the triplicate aforesaid operations, the maintenance propylene gas is 1MPa; 50ml toluene is joined in the reactor, under 50 ℃ of conditions, add again the DDS of the n-heptane solution (1.8mol/L) of 2ml triisobutyl aluminium, the monoene monomer of 5g boracic (m is 4 among the formula II), 5g and 0.1g Ziegler-Natta catalyst (titanium tetrachloride is adsorbed on the magnesium chloride, wherein Ti content be total catalyst weight 1%); 50 ℃ were stirred 1 hour down; After polyreaction finishes, under 0 ℃, add 30ml 1.2g/ml hydrogen peroxide tetrahydrofuran solution and 10ml 0.3g/ml aqueous sodium hydroxide solution after, be hydrolyzed 10 hours under 40 ℃; Filter then white solid, water and ethanol thorough washing final vacuum drying obtain 6g polypropylene provided with hydroxyl group multipolymer.
1It is 1.0% that H-NMR characterizes the content of determining hydroxyl in the multipolymer.
In the 250ml there-necked flask, the adding gained contains the polypropylene copolymer 4.0g of hydroxyl, add 120ml toluene, in this aaerosol solution, add toluene solution and the 2ml 2-bromo propionyl chloride that 1.7g contains 4-methylamino pyridine respectively in 100 ℃, reacted 20 hours, after the filtration white solid, respectively behind water, the above-mentioned prepared product of ethanol thorough washing, vacuum-drying obtains carrying out the big monomer molecule initiator 3.7g of atom transition free radical polymerization reaction
1H-NMR characterizes and determines transformation efficiency 100%.
Get the 250ml there-necked flask, add gained polypropylene-base atom transfer radical polymerization initiator 15.0g, add 100ml toluene, add cuprous chloride 0.02g, pentamethyl-two vinylidene triamine 0.05ml, add Methacrylamide 20g, keeping temperature of reaction is 125 ℃, reacts after 10 hours, with excessive 10% acidic alcohol precipitation, filter white solid, water and ethanol thorough washing final vacuum drying obtain polypropylene grafted methacrylamide copolymer 19.8g.
The number-average molecular weight of this multipolymer is that (n=2872, k=2031), molecular weight distribution is 3.83 to 295327g/mol.
Embodiment 8, prepare polypropylene grafted methyl acrylate copolymer
In three mouthfuls of glass flask of 250mL, carry out polyreaction.At first vacuumize, logical propylene gas, behind the triplicate aforesaid operations, the maintenance propylene gas is 1MPa; 50ml toluene is joined in the reactor, under 50 ℃ of conditions, add again the DDS of the solution (1.8mol/L) of 2ml triisobutyl aluminium, the monoene monomer of 10g boracic (m is 4 among the formula II), 5g and 0.2g Ziegler-Natta catalyst (titanium tetrachloride is adsorbed on the magnesium chloride, wherein Ti content be total catalyst weight 3%); 50 ℃ were stirred 1 hour down; After polyreaction finishes, under 0 ℃, add 30ml 1.2g/ml hydrogen peroxide tetrahydrofuran solution and 10ml 0.3g/ml aqueous sodium hydroxide solution after, be hydrolyzed 10 hours under 40 ℃; Filter then white solid, water and ethanol thorough washing final vacuum drying obtain 4g polypropylene provided with hydroxyl group multipolymer.
1It is 3.5% that H-NMR characterizes the content of determining hydroxyl in the multipolymer.
In the 250ml there-necked flask, the adding gained contains the polypropylene copolymer 6.0g of hydroxyl, add 180ml toluene, in this aaerosol solution, add toluene solution and the 3ml 2-bromo propionyl chloride that 2.6g contains 4-methylamino pyridine respectively in 100 ℃, reacted 30 hours, after the filtration white solid, respectively behind water, the above-mentioned prepared product of ethanol thorough washing, vacuum-drying obtains carrying out the big monomer molecule initiator 5.6g of atom transition free radical polymerization reaction
1H-NMR characterizes and determines transformation efficiency 100%.
Get the 250ml there-necked flask, add gained polypropylene-base atom transfer radical polymerization initiator 20.0g, add the 100ml methyl-phenoxide, add cuprous chloride 0.08g, pentamethyl-two vinylidene triamine 0.05ml, add the 40g methyl acrylate, keeping temperature of reaction is 125 ℃, reacts after 5 hours, with excessive 10% acidic alcohol precipitation, filter white solid, water and ethanol thorough washing final vacuum drying obtain polypropylene grafted methyl acrylate copolymer 23.4g.
The number-average molecular weight of this multipolymer is that (n=4627, k=1901), molecular weight distribution is 4.72 to 357838g/mol.
Embodiment 9, prepare polypropylene grafted ethyl acrylate copolymer
In three mouthfuls of glass flask of 250mL, carry out polyreaction.At first vacuumize, logical propylene gas, behind the triplicate aforesaid operations, the maintenance propylene gas is 1MPa; 50ml toluene is joined in the reactor, under 50 ℃ of conditions, add again the DDS of the n-heptane solution (1.8mol/L) of 25ml triisobutyl aluminium, the monoene monomer of 2g boracic (m is 8 among the formula II), 3g and 1g Ziegler-Natta catalyst (titanium tetrachloride is adsorbed on the magnesium chloride, wherein Ti content be total catalyst weight 1%); 50 ℃ were stirred 1 hour down; After polyreaction finishes, under 0 ℃, add 30ml 1.2g/ml hydrogen peroxide tetrahydrofuran solution and 10ml 0.3g/ml aqueous sodium hydroxide solution after, be hydrolyzed 10 hours under 40 ℃; Filter then white solid, water and ethanol thorough washing final vacuum drying obtain 7g polypropylene provided with hydroxyl group multipolymer.
In the 250ml there-necked flask, the adding gained contains the polypropylene copolymer 6.0g of hydroxyl, add 180ml toluene, in this aaerosol solution, add toluene solution and the 3ml 2-bromo propionyl chloride that 2.6g contains 4-methylamino pyridine respectively in 100 ℃, reacted 30 hours, after the filtration white solid, respectively behind water, the above-mentioned prepared product of ethanol thorough washing, vacuum-drying obtains carrying out the big monomer molecule initiator 5.6g of atom transition free radical polymerization reaction
1H-NMR characterizes and determines transformation efficiency 100%.
Get the 250ml there-necked flask, add gained polypropylene-base atom transfer radical polymerization initiator 20.0g, add the 100ml methyl-phenoxide, add cuprous chloride 0.08g, pentamethyl-two vinylidene triamine 0.05ml, add the 30g ethyl propenoate, keeping temperature of reaction is 125 ℃, reacts after 5 hours, with excessive 10% acidic alcohol precipitation, filter white solid, water and ethanol thorough washing final vacuum drying obtain polypropylene grafted ethyl acrylate copolymer 22.7g.
The number-average molecular weight of this multipolymer is that (n=823, k=642), molecular weight distribution is 3.02 to 98790g/mol.
Embodiment 10, prepare polypropylene grafted polystyrene copolymer
In three mouthfuls of glass flask of 250mL, carry out polyreaction.At first vacuumize, logical propylene gas, behind the triplicate aforesaid operations, the maintenance propylene gas is 1MPa; 50ml toluene is joined in the reactor, under 50 ℃ of conditions, add again the DDS of the n-heptane solution (1.8mol/L) of 0.05ml triisobutyl aluminium, the monoene monomer of 2g boracic (m is 8 among the formula II), 3g and 0.1g Ziegler-Natta catalyst (titanium tetrachloride is adsorbed on the magnesium chloride, wherein Ti content be total catalyst weight 2%); 50 ℃ were stirred 1 hour down; After polyreaction finishes, under 0 ℃, add 30ml 1.2g/ml hydrogen peroxide tetrahydrofuran solution and 10ml 0.3g/ml aqueous sodium hydroxide solution after, be hydrolyzed 10 hours under 40 ℃; Filter then white solid, water and ethanol thorough washing final vacuum drying obtain 10g polypropylene provided with hydroxyl group multipolymer.
Then, the step 2, three according to embodiment 1 prepares polypropylene grafted polystyrene copolymer.
The number-average molecular weight of this multipolymer is that (n=11031, k=1197), molecular weight distribution is 4.54 to 587790g/mol.
Embodiment 11, prepare polypropylene grafted polystyrene copolymer
In three mouthfuls of glass flask of 250mL, carry out polyreaction.At first vacuumize, logical propylene gas,, behind the triplicate aforesaid operations, the maintenance propylene gas is 5MPa; 50ml toluene is joined in the reactor, under 50 ℃ of conditions, add again the DDS of the n-heptane solution (1.8mol/L) of 2ml triisobutyl aluminium, the monoene monomer of 3g boracic (m is 6 among the formula II), 3g and 0.01g Ziegler-Natta catalyst (titanium tetrachloride is adsorbed on the magnesium chloride, wherein Ti content be total catalyst weight 1%); 50 ℃ were stirred 1 hour down; After polyreaction finishes, under 0 ℃, add 30ml 1.2g/ml hydrogen peroxide tetrahydrofuran solution and 10ml 0.3g/ml aqueous sodium hydroxide solution after, be hydrolyzed 10 hours under 40 ℃; Filter then white solid, water and ethanol thorough washing final vacuum drying obtain 6g polypropylene provided with hydroxyl group multipolymer.
Then, the step 2, three according to embodiment 1 prepares polypropylene grafted polystyrene copolymer.
The number-average molecular weight of this multipolymer is that (n=1010, k=792), molecular weight distribution is 3.79 to 124768g/mol.
Embodiment 12, prepare polypropylene grafted polymethyl methacrylate copolymer
In three mouthfuls of glass flask of 250mL, carry out polyreaction.At first vacuumize, logical propylene gas, behind the triplicate aforesaid operations, the maintenance propylene gas is 1MPa; 50ml toluene is joined in the reactor, under 50 ℃ of conditions, add again the DDS of the n-heptane solution (1.8mol/L) of 2ml triisobutyl aluminium, the monoene monomer of 3g boracic (m is 6 among the formula II), 3g and 10g Ziegler-Natta catalyst (titanium tetrachloride is adsorbed on the magnesium chloride, wherein Ti content be total catalyst weight 1%); 50 ℃ were stirred 1 hour down; After polyreaction finishes, under 0 ℃, add 30ml 1.2g/ml hydrogen peroxide tetrahydrofuran solution and 10ml 0.3g/ml aqueous sodium hydroxide solution after, be hydrolyzed 10 hours under 40 ℃; Filter then white solid, water and ethanol thorough washing final vacuum drying obtain 10g polypropylene provided with hydroxyl group multipolymer.
Then, prepare polypropylene grafted polymethyl methacrylate copolymer according to embodiment 2.
The number-average molecular weight of this multipolymer is that (n=9756, k=568), molecular weight distribution is 4.01 to 466590g/mol.
Embodiment 13, prepare polypropylene grafted polymethyl methacrylate copolymer
In three mouthfuls of glass flask of 250mL, carry out polyreaction.At first vacuumize, logical propylene gas, behind the triplicate aforesaid operations, the maintenance propylene gas is 2MPa; 50ml toluene is joined in the reactor, under 10 ℃ of conditions, add again the DDS of the n-heptane solution (1.8mol/L) of 2ml triisobutyl aluminium, the monoene monomer of 2g boracic (m is 6 among the formula II), 3g and 0.1g Ziegler-Natta catalyst (titanium tetrachloride is adsorbed on the magnesium chloride, wherein Ti content be total catalyst weight 3%); 50 ℃ were stirred 1 hour down; After polyreaction finishes, under 0 ℃, add 30ml 1.2g/ml hydrogen peroxide tetrahydrofuran solution and 10ml 0.3g/ml aqueous sodium hydroxide solution after, be hydrolyzed 10 hours under 40 ℃; Filter then white solid, water and ethanol thorough washing final vacuum drying obtain 5g polypropylene provided with hydroxyl group multipolymer.
Then, prepare polypropylene grafted polymethyl methacrylate copolymer according to embodiment 2.
The number-average molecular weight of this multipolymer is that (n=1209, k=740), molecular weight distribution is 4.51 to 124870g/mol.
Embodiment 14, prepare polypropylene grafted polymethyl methacrylate copolymer
In three mouthfuls of glass flask of 250mL, carry out polyreaction.At first vacuumize, logical propylene gas, behind the triplicate aforesaid operations, the maintenance propylene gas is 1MPa; 50ml toluene is joined in the reactor, under 70 ℃ of conditions, add again the DDS of the n-heptane solution (1.8mol/L) of 2ml triisobutyl aluminium, the monoene monomer of 2g boracic (m is 6 among the formula II), 3g and 0.1g Ziegler-Natta catalyst (titanium tetrachloride is adsorbed on the magnesium chloride, wherein Ti content be total catalyst weight 3%); 50 ℃ were stirred 1 hour down; After polyreaction finishes, under 0 ℃, add 30ml 1.2g/ml hydrogen peroxide tetrahydrofuran solution and 10ml 0.3g/ml aqueous sodium hydroxide solution after, be hydrolyzed 10 hours under 40 ℃; Filter then white solid, water and ethanol thorough washing final vacuum drying obtain 11g polypropylene provided with hydroxyl group multipolymer.
Then, prepare polypropylene grafted polymethyl methacrylate copolymer according to embodiment 2.
The number-average molecular weight of this multipolymer is that (n=314, k=115), molecular weight distribution is 3.95 to 24680g/mol.
Embodiment 15, the polypropylene grafted poly-p-methylstyrene multipolymer of preparation
In three mouthfuls of glass flask of 250mL, carry out polyreaction.At first vacuumize, logical propylene gas, behind the triplicate aforesaid operations, the maintenance propylene gas is 10MPa; 50ml toluene is joined in the reactor, under 10 ℃ of conditions, add again the DDS of the n-heptane solution (1.8mol/L) of 2ml triisobutyl aluminium, the monoene monomer of 2g boracic (m is 6 among the formula II), 3g and 0.1g Ziegler-Natta catalyst (titanous chloride is adsorbed on the magnesium chloride, wherein Ti content be total catalyst weight 3%); 50 ℃ were stirred 1 hour down; After polyreaction finishes, under 0 ℃, add 30ml 1.2g/ml hydrogen peroxide tetrahydrofuran solution and 10ml 0.3g/ml aqueous sodium hydroxide solution after, be hydrolyzed 10 hours under 40 ℃; Filter then white solid, water and ethanol thorough washing final vacuum drying promptly obtain 13g polypropylene provided with hydroxyl group multipolymer.
Then, prepare polypropylene grafted poly-p-methylstyrene multipolymer according to embodiment 3.
The number-average molecular weight of this multipolymer is that (n=975, k=550), molecular weight distribution is 3.22 to 105862g/mol.
Embodiment 16, the polypropylene grafted poly-p-methylstyrene multipolymer of preparation
In three mouthfuls of glass flask of 250mL, carry out polyreaction.At first vacuumize, logical propylene gas, behind the triplicate aforesaid operations, the maintenance propylene gas is 1MPa; 50ml toluene is joined in the reactor, under 50 ℃ of conditions, add again the DDS of the n-heptane solution (1.8mol/L) of 2ml triisobutyl aluminium, the monoene monomer of 2g boracic (m is 6 among the formula II), 3g and 0.1g Ziegler-Natta catalyst (titanium tetrachloride is adsorbed on the magnesium chloride, wherein Ti content be total catalyst weight 3%); 50 ℃ were stirred 0.1 hour down; After polyreaction finishes, under 0 ℃, add 30ml 1.2g/ml hydrogen peroxide tetrahydrofuran solution and 10ml 0.3g/ml aqueous sodium hydroxide solution after, be hydrolyzed 10 hours under 40 ℃; Filter then white solid, water and ethanol thorough washing final vacuum drying promptly obtain 4g polypropylene provided with hydroxyl group multipolymer.
Then, prepare polypropylene grafted poly-p-methylstyrene multipolymer according to embodiment 3.
The number-average molecular weight of this multipolymer is that (n=1832, k=966), molecular weight distribution is 4.65 to 190894g/mol.
Embodiment 17, the polypropylene grafted poly-p-methylstyrene multipolymer of preparation
In three mouthfuls of glass flask of 250mL, carry out polyreaction.At first vacuumize, logical propylene gas, behind the triplicate aforesaid operations, the maintenance propylene gas is 3MPa; 50ml toluene is joined in the reactor, under 50 ℃ of conditions, add again the DDS of the n-heptane solution (1.8mol/L) of 2ml triethyl aluminum, the monoene monomer of 2g boracic (m is 6 among the formula II), 3g and 0.1g Ziegler-Natta catalyst (titanium tetrachloride is adsorbed on the magnesium chloride, wherein Ti content be total catalyst weight 3%); 50 ℃ were stirred 100 hours down; After polyreaction finishes, under 0 ℃, add 30ml 1.2g/ml hydrogen peroxide tetrahydrofuran solution and 10ml 0.3g/ml aqueous sodium hydroxide solution after, be hydrolyzed 10 hours under 40 ℃; Filter then white solid, water and ethanol thorough washing final vacuum drying obtain 20g polypropylene provided with hydroxyl group multipolymer.
Then, prepare polypropylene grafted poly-p-methylstyrene multipolymer according to embodiment 3.
The number-average molecular weight of this multipolymer is that (n=2205, k=1174), molecular weight distribution is 3.43 to 231160g/mol.
Embodiment 18, the polypropylene grafted poly-p-methylstyrene multipolymer of preparation
In three mouthfuls of glass flask of 250mL, carry out polyreaction.At first vacuumize, logical propylene gas, behind the triplicate aforesaid operations, the maintenance propylene gas is 1MPa; 50ml toluene is joined in the reactor, under 50 ℃ of conditions, add again the DDS of the n-heptane solution (1.8mol/mL) of 2ml trimethyl aluminium, the monoene monomer of 2g boracic (m is 6 among the formula II), 3g and 0.1g Ziegler-Natta catalyst (titanium tetrachloride is adsorbed on the magnesium chloride, wherein Ti content be total catalyst weight 3%); 50 ℃ were stirred 1 hour down; After polyreaction finishes, under 0 ℃, add 30ml 1.2g/ml hydrogen peroxide tetrahydrofuran solution and 10ml 0.3g/ml aqueous sodium hydroxide solution after, be hydrolyzed 10 hours under 70 ℃; Filter then white solid, water and ethanol thorough washing final vacuum drying obtain 8g polypropylene provided with hydroxyl group multipolymer.
Then, prepare polypropylene grafted poly-p-methylstyrene multipolymer according to embodiment 3.
The number-average molecular weight of this multipolymer is that (n=1308, k=1059), molecular weight distribution is 4.31 to 179930g/mol.
Embodiment 19, the polypropylene grafted poly-p-methylstyrene multipolymer of preparation
In three mouthfuls of glass flask of 250mL, carry out polyreaction.At first vacuumize, logical propylene gas, behind the triplicate aforesaid operations, the maintenance propylene gas is 1MPa; 50ml toluene is joined in the reactor, under 50 ℃ of conditions, add again the DDS of the n-heptane solution (1.8mol/mL) of 2ml triethyl aluminum, the monoene monomer of 2g boracic (m is 6 among the formula II), 3g and 0.1g Ziegler-Natta catalyst (titanium tetrachloride is adsorbed on the magnesium chloride, wherein Ti content be total catalyst weight 3%); 50 ℃ were stirred 1 hour down; After polyreaction finishes, under 0 ℃, add 30ml1.2g/ml hydrogen peroxide tetrahydrofuran solution and 10ml 0.3g/ml aqueous sodium hydroxide solution after, be hydrolyzed 30 hours under-30 ℃; Filter then white solid, water and ethanol thorough washing final vacuum drying obtain 7.9g polypropylene provided with hydroxyl group multipolymer.
Then, prepare polypropylene grafted poly-p-methylstyrene multipolymer according to embodiment 3.
The number-average molecular weight of this multipolymer is that (n=1976, k=996), molecular weight distribution is 4.11 to 200560g/mol.
The blend test of embodiment 20, polypropylene graft copolymer
With polypropylene and polystyrene blend in 3: 1 by weight, with blend brittle failure according to a conventional method, the shape appearance figure of the scanning electronic microscope of section as shown in Figure 3; In addition, add the embodiment 1 preparation-obtained polypropylene grafted polystyrene copolymer of 1% weight in above-mentioned blend, the shape appearance figure of the scanning electronic microscope of its section as shown in Figure 4.As seen from the figure, show the adding of the polypropylene grafted polystyrene copolymer of preparation, can obviously improve the situation that is separated of polypropylene and polystyrene blend.
With polypropylene and polymethylmethacrylate blend in 3: 1 by weight, with blend brittle failure according to a conventional method, the shape appearance figure of the scanning electronic microscope of section as shown in Figure 5; In addition, add the embodiment 1 preparation-obtained polypropylene grafted polymethyl methacrylate copolymer of 1% weight in above-mentioned blend, the shape appearance figure of the scanning electronic microscope of its section as shown in Figure 6.As seen from the figure, show the adding of the polypropylene grafted polymethyl methacrylate copolymer of preparation, can obviously improve the situation that is separated of polypropylene and polymethylmethacrylate blend.
By above-mentioned two experiment confirms, polypropylene graft copolymer of the present invention can obviously improve the comixing compatibility of polypropylene and other polymkeric substance, and the compatilizer that can be used as polypropylene and other polymer materials blend uses.
Claims (13)
1, a kind of polypropylene graft copolymer has structure shown in the formula I,
Wherein, n is the integer between the 50-100000; K is the integer between the 10-5000; L is the integer between the 4-10; R is an alkyl; R
1Be H or methyl; R
2Be phenyl, p-methylphenyl ,-OCOCH
3,-CONH
2,-CN, or-COOR
3, R
3Be alkyl.
2, polypropylene graft copolymer according to claim 1 is characterized in that: described n is 100-100000; L is 6-9; R is methyl or ethyl; R
3Be methyl or ethyl.
3, the preparation method of the described polypropylene graft copolymer of claim 1 comprises the steps:
1) preparation polypropylene provided with hydroxyl group: in containing the organic solution of monoene monomer, Ziegler-Natta catalyst and aluminum alkyls of boracic that structural formula is formula II, feed third rare polyreaction of carrying out; The aqueous solution that in reaction product, adds the oxyhydroxide of hydrogen peroxide and basic metal or alkaline-earth metal then, the reaction that is hydrolyzed under-30-70 ℃ condition obtains the polypropylene provided with hydroxyl group that structural formula is a formula III; M is the integer between the 4-7 among the formula II; N is the integer between the 50-100000 in the formula III, and L is the integer between the 4-10;
(formula II) (formula III)
2) preparation polypropylene-base atom transfer radical polymerization initiator: step 1) gained polypropylene provided with hydroxyl group is suspended in the organic solvent, makes 1-100g/100ml suspension; Add the toluene solution of 4-methylamino pyridine and the alkyl carboxylic acid halides of chloro or bromo in suspension, 0-100 ℃ of reaction 0.5-30 hour, obtaining structural formula was the polypropylene-base atom transfer radical polymerization initiator of formula IV; N is 50-100 among the formula IV, and the integer between 000, L are the integer between the 4-10, and R is an alkyl, and X is chlorine, bromine or iodine;
3) preparation polypropylene graft copolymer: with step 2) gained polypropylene-base atom transfer radical polymerization initiator is suspended in toluene or the methyl-phenoxide, makes the 1-20g/100ml aaerosol solution; In aaerosol solution, add cuprous halide, multiple tooth nitrogenous ligand is as catalyzer, add vinylbenzene, p-methylstyrene, vinyl-acetic ester, methyl methacrylate, acrylamide, Methacrylamide, methyl acrylate, ethyl propenoate or vinyl cyanide then, reacted 0.2~24 hour down at 70-150 ℃, obtain described polypropylene graft copolymer.
4, preparation method according to claim 3 is characterized in that: the described Ziegler-Natta catalyst of step 1) is titanous chloride, titanium tetrachloride, titanium tetrabromide or titanium tetra iodide; Described catalyst cupport is at magnesium chloride, and on magnesium bromide, magnesium iodide or the magnesiumcarbonate, the weight content of Ti is 1-6%.
5, preparation method according to claim 3 is characterized in that: the described aluminum alkyls of step 1) is triethyl aluminum, trimethyl aluminium, triisobutyl aluminium or diethylaluminum chloride.
6, preparation method according to claim 3 is characterized in that: also be added with dimethoxydiphenylsilane in the described organic solvent of step 1).
7, preparation method according to claim 6, it is characterized in that: every 50ml is added with the monoene monomer of the described boracic of 0.1-10g in the described organic solvent of step 1), 0.01-10g described Ziegler-Natta catalyst, 0.001-100mmol described aluminum alkyls, the described dimethoxydiphenylsilane of 0.1-10g.
8, preparation method according to claim 7 is characterized in that: the described organic solvent of step 1) is toluene, pentane, hexane or heptane; The condition of described polyreaction is 0-100 ℃, 1-10 normal atmosphere, and the reaction times is 0.1-100 hour; The time of described hydrolysis reaction is 0.5-48 hour.
9, according to the arbitrary described preparation method of claim 3-8, it is characterized in that: step 2) every 100ml is added with the toluene solution that 30ml contains 0.3-2.6g 4-methylamino pyridine, the alkyl carboxylic acid halides of 0.6-3ml chloro or bromo in the described organic solvent.
10, preparation method according to claim 9 is characterized in that: step 2) described organic solvent is toluene, dimethylbenzene, hexane, heptane or hexanaphthene.
11, according to the arbitrary described preparation method of claim 3-8, it is characterized in that: every 100ml is added with the described cuprous halide of 0.01-0.1g in the described aaerosol solution of step 3), the described multiple tooth nitrogenous ligand of 0.02-0.1ml.
12, preparation method according to claim 11 is characterized in that: described cuprous halide is cuprous chloride, cuprous bromide or cuprous iodide; Described multiple tooth nitrogenous ligand is 2,2 '-two pyridines, 6,2 '-two pyridines, pyridine imine or pentamethyl-two vinylidene triamines.
13, be the blending compatilizer of main component with the described polypropylene graft copolymer of claim 1.
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Cited By (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN102268124A (en) * | 2010-06-07 | 2011-12-07 | 中国科学院化学研究所 | Long-chain branched polypropylene and preparation method thereof |
| CN109485754A (en) * | 2018-11-21 | 2019-03-19 | 江苏中煦聚烯烃研究院有限公司 | A kind of polypropylene and preparation method thereof containing hydroxyl |
| WO2019205309A1 (en) * | 2018-04-28 | 2019-10-31 | 中国科学院青岛生物能源与过程研究所 | Pyridine imine iron or cobalt metal complex catalyst, preparation method therefor, and application thereof |
| CN113563520A (en) * | 2020-04-29 | 2021-10-29 | 中国石油化工股份有限公司 | Application of polypropylene graft containing anhydride group as insulating material and insulating material |
Family Cites Families (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US3949016A (en) * | 1973-03-16 | 1976-04-06 | Societe Nationale Des Petroles D'aquitaine | Method for copolymerizing monomers of different types and polymer blends contain the copolymer |
| US6265493B1 (en) * | 1999-07-21 | 2001-07-24 | The Penn State Research Foundation | Polyolefin graft copolymers derived from linear copolymers of alpha-olefins and divinylbenzene having narrow molecular weight and composition distributions and process for preparing same |
| KR20090006238A (en) * | 2001-05-06 | 2009-01-14 | 허니웰 인터내셔널 인코포레이티드 | Maleated polypropylenes and processes for the preparation thereof |
| JP2004035623A (en) * | 2002-06-28 | 2004-02-05 | Tonen Chem Corp | Modified polypropylene and method for producing the same |
-
2005
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Cited By (5)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN102268124A (en) * | 2010-06-07 | 2011-12-07 | 中国科学院化学研究所 | Long-chain branched polypropylene and preparation method thereof |
| WO2019205309A1 (en) * | 2018-04-28 | 2019-10-31 | 中国科学院青岛生物能源与过程研究所 | Pyridine imine iron or cobalt metal complex catalyst, preparation method therefor, and application thereof |
| CN109485754A (en) * | 2018-11-21 | 2019-03-19 | 江苏中煦聚烯烃研究院有限公司 | A kind of polypropylene and preparation method thereof containing hydroxyl |
| CN109485754B (en) * | 2018-11-21 | 2021-01-12 | 江苏中煦聚烯烃研究院有限公司 | Polypropylene containing hydroxyl and preparation method thereof |
| CN113563520A (en) * | 2020-04-29 | 2021-10-29 | 中国石油化工股份有限公司 | Application of polypropylene graft containing anhydride group as insulating material and insulating material |
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