[go: up one dir, main page]

JPS6337105A - Continuous polymerization of propylene - Google Patents

Continuous polymerization of propylene

Info

Publication number
JPS6337105A
JPS6337105A JP61180182A JP18018286A JPS6337105A JP S6337105 A JPS6337105 A JP S6337105A JP 61180182 A JP61180182 A JP 61180182A JP 18018286 A JP18018286 A JP 18018286A JP S6337105 A JPS6337105 A JP S6337105A
Authority
JP
Japan
Prior art keywords
propylene
catalyst
hydrocarbon solvent
polymerization
components
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
JP61180182A
Other languages
Japanese (ja)
Other versions
JPH0772210B2 (en
Inventor
Tadashi Asanuma
æ­£ 浅沌
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Mitsui Toatsu Chemicals Inc
Original Assignee
Mitsui Toatsu Chemicals Inc
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Mitsui Toatsu Chemicals Inc filed Critical Mitsui Toatsu Chemicals Inc
Priority to JP18018286A priority Critical patent/JPH0772210B2/en
Publication of JPS6337105A publication Critical patent/JPS6337105A/en
Publication of JPH0772210B2 publication Critical patent/JPH0772210B2/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Landscapes

  • Addition Polymer Or Copolymer, Post-Treatments, Or Chemical Modifications (AREA)
  • Transition And Organic Metals Composition Catalysts For Addition Polymerization (AREA)

Abstract

PURPOSE:To continuously obtain highly crystalline polypropylene, by subjecting part of catalyst components to contact treatment with an unsaturated compound, washing the treatment product, adding other catalyst components and polymerizing the propylene batchwise in continuously polymerizing the propylene using a specific catalyst. CONSTITUTION:Propylene is continuously polymerized by using a catalyst consisting of (A) a solid catalyst containing a Ti halide supported on a carrier containing an Mg halide, (B) an organoaluminum compound, (C) a stereoregularity improving agent selected from (ortho)esters, ethers and alkoxysilane compounds and (D) a halogen-containing organoaluminum compound in a continuous polymerization zone. In the process, the components (A) and (D) are previously subjected to contact treatment with an unsaturated compound, e.g. vinylcycloalkane, etc., in an inert hydrocarbon solvent and washed. Part - all of the components (C) and (D) and 0% - part of the component (B) are added and the propylene is polymerized batchwise in an amount of 0.1 - 100g based on 1g component (A) in an inert hydrocarbon solvent. The remainders of the components (C), (D) and (B) are then introduced into the continuous polymerization zone.

Description

【発明の詳现な説明】 産業䞊の利甚分野 本発明はプロピレンの重合方法に関する。詳しくは特定
の觊媒を甚いお連続的に高結晶性のポリプロピレンを補
造する方法に関する。DETAILED DESCRIPTION OF THE INVENTION (Industrial Field of Application) The present invention relates to a method for polymerizing propylene. Specifically, the present invention relates to a method for continuously producing highly crystalline polypropylene using a specific catalyst.

埓来の技術 ポリプロピレンは比范的剛性に優れ、しかも透明性に優
れた汎甚ポリマヌであり、皮々の甚途に広く甚いられお
いる。たた、ポリプロピレンの耐衝撃性特に䜎枩での
を改良する目的で゚チレンなどの他のα−オレフィン
ず共重合する方法が知られおいる䟋えば、特公昭
−号公報、特公昭−号公報、
特公昭−号公報など。(Prior Art) Polypropylene is a general-purpose polymer with relatively excellent rigidity and transparency, and is widely used for various purposes. Additionally, for the purpose of improving the impact resistance (especially at low temperatures) of polypropylene, a method of copolymerizing it with other α-olefins such as ethylene is known (for example, Japanese Patent Publication No. 44
-20621 Publication, Special Publication No. 49-24593,
(Special Publication No. 49-12589, etc.).

ポリプロピレンの剛性を改良するこずは、プロピレン単
独重合䜓、及び他のα−オレフィンずの共重合䜓、共通
の課題であり、そのために皮々の栞剀を添加する等の方
法があり、その䟋も幟぀か知られおいる。Improving the rigidity of polypropylene is a common problem for propylene homopolymers and copolymers with other α-olefins, and there are methods for this purpose, such as adding various nucleating agents. Some are known.

又、䜿甚した栞剀が成圢品からのブリヌドを防止する方
法ずしお高分子措剀を甚いる䟋が知られおいる䟋えば
、特開昭−号公報、特開昭−
号公報など。In addition, examples of using a polymer agent as a method for preventing the used nucleating agent from bleeding from the molded product are known (for example, Japanese Patent Application Laid-Open No. 60-139710, Japanese Patent Application Laid-Open No. 60-13
9731, etc.).

〔発明が解決しようずする問題点〕[Problem that the invention seeks to solve]

高分子栞剀を甚いる方法はブリヌドを防止する他に、フ
ィルム、シヌトにした堎合の剛性、透明性を倧幅に改良
する効果を有する。しかし高分子栞剀を甚いる方法は、
䞀般には、固䜓觊媒䞊に、ビニルシクロヘキサンなどを
重合し、次いで掗浄等により高分子栞剀で芆われた觊媒
ずしおプロピレンを重合する方法、又は固䜓觊媒䞊に、
ビニルシクロヘキサンなどで凊理し、そのたたプロピレ
ンを重合する方法等がある。前者は固䜓觊媒圓たりの掻
性が倧幅に䜎䞋し、埗られるポリプロピレンの沞隰−
ぞブタン抜出残率以䞋ず略称の割合が倧幅に䜎
䞋し、たた埗られたポリマヌを成圢品ずした時、成圢品
の倖芳が䞍良ずなるなどの問題があった。䞀方、埌者は
回分重合の際には実質的に䞊蚘掻性及びの䜎䞋ずい
う問題は生じないが、連続重合のように長時間重合させ
る堎合、重合の掻性及びが倧幅に䜎䞋するずいう問
題があった。The method of using a polymer nucleating agent not only prevents bleeding but also has the effect of greatly improving the rigidity and transparency when made into a film or sheet. However, the method using a polymer nucleating agent
Generally, vinyl cyclohexane or the like is polymerized on a solid catalyst, and then propylene is polymerized as a catalyst covered with a polymer nucleating agent by washing etc., or on a solid catalyst,
There are methods such as treating with vinyl cyclohexane or the like and directly polymerizing propylene. In the former case, the activity per solid catalyst is significantly reduced, and the boiling n-
There were problems such as the percentage of hebutane extraction residue (hereinafter abbreviated as Nr) decreased significantly, and when the obtained polymer was made into a molded product, the appearance of the molded product was poor. On the other hand, in the case of the latter, the above-mentioned problem of decreased activity and Nl does not substantially occur during batch polymerization, but when polymerization is carried out for a long time such as continuous polymerization, there is a problem that the activity and Nl of the polymerization decrease significantly. there were.

問題点を解決するための手段 本発明者らは䞊蚘問題点を解決する方法に぀いお鋭意怜
蚎し、本発明を完成した。(Means for Solving the Problems) The present inventors have intensively studied methods for solving the above problems, and have completed the present invention.

即ち、本発明は少なくずもその衚面にハロゲン化マ
グネシりムを含有する担䜓にハロゲン化チタンを担持し
おなる固䜓媒䜓、トリアルキルアルミニりム或いは
酞玠又は窒玠原子によっお互いに結合した぀又はそれ
以䞊のアルミニりム原子を有する有機アルミニりム化合
物、゚ステル、゚ヌテル、オル゜゚ステル、アルコ
キシケむ玠化合物から遞ばれた立䜓芏則性向䞊剀ず
ノ〉ロゲン含有有機アルミニりム化合物からなる觊媒を
甚いおプロピレン又はプロピレンず他のα−オレフィン
を重合する方法においお、予め固䜓媒䜓ずハロ
ゲン含有有機アルミニりム化合物を䞍掻性炭化氎玠溶媒
䞭でビニルシクロアルカン、炭玠数以䞊の䜍又は
䜍で分岐したオレフィン、アルキルビニルシラン及びア
ルキルアリルシランから遞ばれた少なく ずも皮の䞍
飜和化合物ず接觊凊理し、次いで接觊凊理した固䜓觊媒
を䞍掻性炭化氎玠溶媒で掗浄し、さらに立䜓芏則性
同䞊剀の䞀郚〜党郚、ハロゲン含有有機アルミニり
ム化合物の䞀郚〜党郚及び有機アルミニりム化合物
の〜䞀郚を加え、䞍掻性炭化氎玠溶媒䞭でプロピレン
を固䜓媒䜓圓たり〜回分的に
重合させた埌接凊理混合物及び、、成分ノ
残郚をプロピレンレンの連続重合垯域に導入するこずを
特城ずするプロピレンの連続重合方法である。That is, the present invention is directed to a) a solid medium comprising a titanium halide supported on a carrier containing magnesium halide on at least its surface; b) two or more trialkylaluminiums or two or more bodies bonded to each other through oxygen or nitrogen atoms. an organoaluminum compound having an aluminum atom; C) a stereoregularity improver selected from esters, ethers, orthoesters, and alkoxy silicon compounds; and d)
In a method of polymerizing propylene or propylene and other α-olefins using a catalyst consisting of a halogen-containing organoaluminum compound, a) a solid medium and d) a halogen-containing organoaluminum compound are preliminarily prepared in an inert hydrocarbon solvent. Cycloalkane, 3rd or 4th position with 5 or more carbon atoms
contact treatment with at least one unsaturated compound selected from position-branched olefins, alkylvinylsilanes, and alkylarylsilanes, and then washing the contact-treated solid catalyst with an inert hydrocarbon solvent, and further C) stereoregularity. Part to all of the same agent, d) Part to all of the halogen-containing organoaluminum compound, and b) Zero to part of the organoaluminum compound, and propylene in an inert hydrocarbon solvent is a) 0 per 1 g of solid medium. This is a continuous propylene polymerization method characterized in that 1 g to 100 g of the batch-polymerized post-contact treatment mixture and the remainder of components C), d), and b) are introduced into a continuous propylene polymerization zone.

本発明においお固䜓觊媒ずしおはすでに倚くの䟋が
知られおおり、高掻性で高立䜓芏則性のポリプロピレン
を䞎えるハロゲン化マグネシりムを含有する担䜓にハロ
ゲン化チタンを担持しおなる固䜓觊媒であれば良く特に
制限はない䟋えば、皮々の有機化合物奜たしくは含
酞玠を機化合物ずハロゲン化マグネシりムを共粉砕し
たものを担䜓ずし、次いで四塩化チタンや䞉塩化チタン
或いはそれらを皮々の溶媒に垌釈したものず接觊凊理す
る方法、ハロゲン化マグネシりムを゚ヌテル、アルコヌ
ル、アミドなどの炭化氎玫溶媒或いはハロゲン化炭化氎
玠溶媒に可溶化し、次いでハロゲン化チタン、ハロゲン
化ケむ玠などの沈柱剀で含酞玠有機化合物などの存圚䞋
又は䞍存圚䞋に凊理し、ハロゲン化マグネシりムを析出
せしめ、次いで含酞玠有機化合物などず接觊するか或い
はするこずなく担䜓ずし、䞊述ず同様にハロゲン化チタ
ンを担持せしめる方法、有機マグネシりムをアルコヌル
、アルコキシケむ玠ず接觊凊理し、次いで埗られた固䜓
成分をさらに含ハロゲン化合物で接觊凊理し、さらに含
酞玠有機化合物などず接觊凊理するか或いはするこずな
く担䜓ずし、䞊述ず同様にハロゲン化チタンを担持せし
める方法、䞊述のマグネシりム化合物の溶液から固䜓を
析出せしめるに際しおアルミナ、シリカなどの䞍掻性固
䜓を存圚せしめお担䜓を補造し、次いでハロゲン化チタ
ンを担持せしめる方法などが䟋瀺される。In the present invention, a) many examples of the solid catalyst are already known, including a solid catalyst formed by supporting titanium halide on a carrier containing magnesium halide, which provides polypropylene with high activity and high stereoregularity. For example, a carrier may be co-pulverized with various organic compounds (preferably oxygen-containing organic compounds) and magnesium halide, and then titanium tetrachloride, titanium trichloride, or the like may be mixed with various solvents. A method in which magnesium halide is solubilized in a hydrocarbon solvent such as ether, alcohol, or amide, or a halogenated hydrocarbon solvent, and then oxygenated with a precipitant such as titanium halide or silicon halide. A method in which magnesium halide is precipitated by treatment in the presence or absence of an organic compound, etc., and then used as a carrier with or without contact with an oxygen-containing organic compound, etc., to support titanium halide in the same manner as described above, Organomagnesium is contacted with alcohol and alkoxy silicon, and the obtained solid component is then further contacted with a halogen-containing compound, and then used as a carrier with or without contact treatment with an oxygen-containing organic compound, etc., in the same manner as described above. Examples include a method of supporting titanium halide, and a method of producing a carrier by allowing an inert solid such as alumina or silica to be present when precipitating a solid from a solution of the magnesium compound, and then supporting titanium halide. .

ここで含酞玠有機化合物ずしおは、カルボン酞の゚ステ
ル、゚ヌテル、アルコキシケむ玠、オル゜カルボン酞の
゚ステルなどが奜たしい䟋ずしお挙げられる。Preferred examples of the oxygen-containing organic compound include carboxylic acid esters, ethers, alkoxy silicones, and orthocarboxylic acid esters.

本発明においお、成分ずしおは、トリメチルアルミ
ニりム、トリ゚チルアルミニりム、トリプロピルアルミ
ニりム、トリむ゜ブチルアルミニりム、トリヘキシルア
ルミニりムなどのトリアルキルアルミニりム又はそれら
の混合物、又は公知の方法に埓っお䞊述のトリアルキル
アルミニりムず氎、アンモニア或いは第玚アミンずの
反応によっお埗られる化合物、䟋えば、 □ −−   
−リヌなどである。In the present invention, as component b), trialkylaluminum such as trimethylaluminum, triethylaluminum, tripropylaluminum, triisobutylaluminum, trihexylaluminum, or a mixture thereof, or the above-mentioned trialkylaluminum and water according to a known method, Compounds obtained by reaction with ammonia or primary amines, such as (C□Hs) Jl-0-AI (CtHs) tA
1-Lee AI(Cs[l5)i, etc.

本発明においお、の成分である゚ステル、゚ヌテル
、オル゜゚ステル、アルコキシケむ玠化合物ずしおは、
具䜓的には酢酞゚チル、アクリル酞メチル、メタアクリ
ル酞メチル、安息銙酞゚チル、トルむル酞メチル、リン
酞トリ゚チル、リン酞トリフェニルなどの゚ステル類、
ゞ゚チル゚ヌテル、ゞむ゜アミル゚ヌテル、ゞフェニル
゚ヌテル、ゞナフチル゚ヌテルなどの゚ヌテル類、オル
ツギ酞メチル、オルツギ酞゚チル、オル゜酢酞メチル、
オル゜安息銙酞メチル、オル゜安息銙酞゚チルなどのオ
ル゜゚ステル類、テトラ゚トキシシラン、トリ゚トキシ
゚チルシラン、トリ゚トキシフェニルシラン、トリメト
キシフェニルシラン、トリメトキシビニルシランなどの
アルコキシケむ玠類が䟋瀺される。In the present invention, the esters, ethers, orthoesters, and alkoxy silicon compounds that are component C) include:
Specifically, esters such as ethyl acetate, methyl acrylate, methyl methacrylate, ethyl benzoate, methyl toluate, triethyl phosphate, triphenyl phosphate,
Ethers such as diethyl ether, diisoamyl ether, diphenyl ether, dinaphthyl ether, methyl orthoformate, ethyl orthoformate, methyl orthoacetate,
Examples include ortho esters such as methyl orthobenzoate and ethyl orthobenzoate, and alkoxy silicones such as tetraethoxysilane, triethoxyethylsilane, triethoxyphenylsilane, trimethoxyphenylsilane, and trimethoxyvinylsilane.

本発明においお、成分であるハロゲン含有有機アル
ミニりム化合物ずしおは、ゞ゚チルアルミニりムクロラ
むド、ゞ゚チルアルミニりムブロマむド、ゞ゚チルアル
ミニりムペりド、ゞメチルアルミニりムクロラむド、ゞ
プロピルアルミニりムクロラむド、ゞプロピルアルミニ
りムブロマむド、ゞ゚チルアルミニりムセスキクロラむ
ド、ゞ゚チルアルミニりムセスキブロマむド、ゞプロピ
ルアルミニりムセスキクロラむド、゚チルアルミニりム
ゞクロラむド、プロピルアルミニりムゞクロラむドなど
が䟋瀺され、特にゞアルキルアルミニりムハラむドが奜
たしく䜿甚される。In the present invention, the halogen-containing organoaluminum compound as component d) includes diethylaluminum chloride, diethylaluminum bromide, diethylaluminium iodide, dimethylaluminum chloride, dipropylaluminum chloride, dipropylaluminum bromide, diethylaluminum sesquichloride, diethylaluminium Examples include sesquibromide, dipropylaluminum sesquichloride, ethylaluminum dichloride, propylaluminum dichloride, and dialkylaluminum halide is particularly preferably used.

本発明においお甚いるビニルシクロアルカン、炭玠数
以䞊の䜍又は䜍で分岐したオレフィン、アルキルビ
ニルシラン及びアルキルアリルシランずしおは、ビニル
シクロヘキサン、ビニルシクロペンクン、ビニルシクロ
ブタン、−メチルブテン−−メチルペンタン、
−メチルヘキセン、−ゞメチルペンテン、
−ゞメチルヘキセン、ビニルナフタレン、トリメチル
ビニルシラン、トリ゚チルビニルシラン、ゞメチル゚チ
ルビニルシラン、トリメチルアリルシラン、トリ゚チル
アリルシラン、ゞメチル゚チルアリルシランなどが䟋瀺
でき、特にビニルシクロヘキサン、−メチルブテン−
−ゞメチルペンテン、−ゞメチルヘキ
セン、トリゞチルビニルシラン、トリメチルアリルシラ
ンなどが奜たしく䜿甚できる。Vinylcycloalkane used in the present invention, carbon number 5
Examples of the above olefins, alkylvinylsilanes and alkylarylsilanes branched at the 3- or 4-position include vinylcyclohexane, vinylcyclopenkune, vinylcyclobutane, 3-methylbutene-1,4-methylpentane,
4-methylhexene, 4.4-dimethylpentene, 4.
Examples include 4-dimethylhexene, vinylnaphthalene, trimethylvinylsilane, triethylvinylsilane, dimethylethylvinylsilane, trimethylallylsilane, triethylallylsilane, dimethylethylallylsilane, and especially vinylcyclohexane, 3-methylbutene-
1,4,4-dimethylpentene, 4,4-dimethylhexene, triditylvinylsilane, trimethylallylsilane, etc. can be preferably used.

本発明においおは予め、固䜓媒䜓ずハロゲン含
有有機アルミニりム化合物を䞍掻性炭化氎玠溶媒䞭でビ
ニルシクロアルカン、炭玠数以䞊の䜍又は䜍で分
岐したオレフィン、アルキルビニルシラン及びアルキル
アリルシランから遞ばれた少なくずも皮の化合物ず接
觊凊理し、次いで接觊凊理した固䜓觊媒を䞍掻性炭化氎
玠溶媒で掗浄する。ここで䞍掻性炭化氎玠溶媒ずしおは
ブタン、ペンクン、ヘキサン、ヘプタン、ノナン、デカ
ン、ドデカンなどの脂肪族炭化氎玠残基、シクロヘキサ
ン、メチルシクロヘキサンなどの指環族炭化氎玠化合物
、ベンれン、トル゚ン、キシレン、゚チルベンれン、ク
メン、ゞむ゜プロピルベンれンなどの芳銙族炭化氎玠化
合物が䟋瀺される。In the present invention, in advance, a) a solid medium and d) a halogen-containing organoaluminum compound are mixed in an inert hydrocarbon solvent with a vinylcycloalkane, an olefin branched at the 3rd or 4th position having 5 or more carbon atoms, an alkylvinylsilane, and an alkylarylsilane. The solid catalyst is then washed with an inert hydrocarbon solvent. Examples of inert hydrocarbon solvents include aliphatic hydrocarbon residues such as butane, penkune, hexane, heptane, nonane, decane, and dodecane, ring hydrocarbon compounds such as cyclohexane and methylcyclohexane, benzene, toluene, xylene, and ethylbenzene. Examples include aromatic hydrocarbon compounds such as , cumene, and diisopropylbenzene.

固䜓媒䜓ずしおはチタン分ずしお〜
 の店床でハロゲン含有有機アルミニりム化合
物は察同䜓觊媒䞭のチタン分に察しお〜
モル倍䜿甚し、ハロゲン含有有機アルミニりム化合物
に察しお圓モル倍以䞋の゚ステル、゚ヌテル、オル゜゚
ステル、アルコキシケむ玠化合物から遞ばれた立䜓芏則
性向䞊剀の存圚䞋、又は䞍存圚䞋に、奜たしくは察同䜓
觊媒䞭たり重量倍以䞊のビニルシクロアルカン
、炭玠数以䞊の䜍又は䜍で分岐したオレフィン、
アルキルビニルシラン及びアルキルアリルシランから遞
ばれた少なくずも皮の䞍飜和化合物ず接觊凊理する。As a solid medium, the titanium content is 0.0001 to 10g.
/ 1! The halogen-containing organoaluminum compound has a concentration of 0.001 to 10% relative to the titanium content in the antiisomer catalyst.
Preferably in the presence or absence of a stereoregularity improver selected from esters, ethers, orthoesters, and alkoxy silicon compounds in an amount equal to or less than 0 times the mole of the halogen-containing organoaluminum compound. Vinyl cycloalkane in an amount of 0.01 times or more by weight or more in the antiisomer catalyst, an olefin branched at the 3rd or 4th position having 5 or more carbon atoms,
A contact treatment is carried out with at least one unsaturated compound selected from alkylvinylsilanes and alkylarylsilanes.

接觊凊理は、通垞〜℃で数分〜数時間行う、そ
の埌固䜓觊媒はろ過或いは静眮分離などの方法で䞊蚘の
䞍掻性炭化氎玠溶媒で掗浄する。この際、同䜓觊媒䞊に
は䞍飜和化合物が〜重量比で反応付着
する条件ずなるように接觊凊理するのが奜たしい。The contact treatment is usually carried out at 0 to 100° C. for several minutes to several hours, and then the solid catalyst is washed with the above-mentioned inert hydrocarbon solvent by filtration or static separation. At this time, it is preferable to conduct the contact treatment under conditions such that the unsaturated compound reacts and adheres to the homogeneous catalyst at a weight ratio of 0.001 to 200.

接觊凊理、掗浄凊理を斜した固䜓觊媒は次いで立䜓
芏則性向䞊剀の䞀郚〜党郚、ハロゲン含有有機アル
ミニりム化合物の䞀郚〜党耶及び有機アルミニりム
化合物の〜䞀郚を加え、䞍掻性炭化氎玠溶媒䞭でプロ
ピレンを固䜓媒䜓圓たり〜回
分的に重合させる。この反応は䞊述ず同様の䞍掻性炭化
氎玠溶媒䞭で固䜓觊媒濃床ずしお通垞〜
 、、℃〜℃の枩床でプロピレンが固䜓觊
媒光たり〜が重合する条件でおこなう、
ここで肝芁なのは、䞊蚘、、およびの
各成分のプロピレンの連続重合に際しお甚いる䜿甚量の
、成分は党量、成分は䞀郚〜党量、成分は
䞀郚〜党量、成分は〜䞀郚をプロピレンの連
重合に先立぀回分的な少量のプロピレンずの接觊に甚い
るこずであり、奜たしくは、成分は〜、
成分は〜、成分は〜、特
に奜たしくは、成分は、成分は〜
、成分は〜を甚いる回分的な少
量のプロピレンずの接觊凊理に際し、成分を倚く甚
いるずプロピレンの連続重合の際に、掻性の䜎䞋ずか
の䜎䞋を招き奜たしくない、逆に成分の䜿甚量が
少なすぎるず、プロピレンの連続重合の際にの䜎䞋
を招き奜たしくない、さらに成分の䜿甚量が少なす
ぎるずプロピレンの連続重合の際にの䜎䞋を招くば
かりでなくプロピレンの連続重合に先立぀回分的な少量
のプロピレンの重合の効果がほずんどなくなっおしたう
、この際固䜓觊媒光たりのプロピレンの重合量が
より少ないず連続重合の際の埗られるポリプロピレ
ンのかさ比重の䜎䞋が倧きく、逆により倚いず
、回分重合の際の装眮が倧型化したり、又連続重合垯域
ぞのスラリヌの装入が困難ずなる。The solid catalyst subjected to the contact treatment and washing treatment is then treated with C) part to all of the stereoregularity improver, d) part to all of the halogen-containing organoaluminum compound, and b) zero to part of the organoaluminum compound. Additionally, propylene is polymerized in batches of a) 0.18 to 100 g per g of solid medium in an inert hydrocarbon solvent. This reaction is carried out in the same inert hydrocarbon solvent as described above with a solid catalyst concentration of usually 0.01 to 100.
g/R, carried out under conditions such that 0.1 to 100 g of propylene is polymerized with a solid catalyst at a temperature of 0°C to 50°C.
What is important here is that the amount used in the continuous polymerization of propylene for each of the above components a), b), C) and d) is that component a) is the entire amount, component C) is part to the entire amount, and component d) is the amount used in the continuous polymerization of propylene. Part to full amount, b) Component is 0 to part of propylene series Vt
It is used for batchwise contact with a small amount of propylene prior to polymerization, and preferably component b) contains 0 to 10% C.
) component is 5 to 100%, d) component is 20 to 100%, particularly preferably b) component is 0%, and C) component is 10 to 10%.
0%, component d) is 50 to 100% during contact treatment with a small amount of propylene in 0 batches, and if a large amount of component b) is used, during continuous propylene polymerization, a decrease in activity or N
On the other hand, if the amount of component C) used is too small, it will lead to a decrease in Nl during continuous polymerization of propylene, which is undesirable. Furthermore, if the amount of component d) used is too small, it will lead to a decrease in Nl during continuous polymerization of propylene. Not only does this result in a decrease in Nl during polymerization, but the effect of batch polymerization of a small amount of propylene prior to continuous polymerization of propylene is almost eliminated.In this case, the amount of polymerized propylene per solid catalyst light is 0.0
If it is less than 1g, the bulk specific gravity of the polypropylene obtained during continuous polymerization will decrease significantly, and if it is more than 100g, the equipment for batch polymerization will become bulky, and it will be difficult to charge the slurry into the continuous polymerization zone. becomes.

本発明においおは、䞊述の觊媒をプロピレンの連続重合
垯域に連続的に導入するこずでプロピレンの重合が連続
的に行われる。プロピレンの連続重合垯域の条件ずしお
は、溶媒重合法、塊状重合法、気盞重合法のいずれであ
っおも良く、重合枩床ずしおは〜℃、奜たしくは
〜℃、重合圧力ずしおは垞圧〜
で行うのが䞀般的である。In the present invention, propylene polymerization is continuously performed by continuously introducing the above-mentioned catalyst into a continuous propylene polymerization zone. The conditions for the continuous propylene polymerization zone may be any of solvent polymerization, bulk polymerization, and gas phase polymerization, and the polymerization temperature is 0 to 90°C, preferably 30 to 80°C, and the polymerization pressure is Normal pressure ~50Kg/cd
It is common to do so.

プロピレンの重合垯域での重合は、プロピレン単独重合
のみならず゚チレン、ブテン−などの他のα−オレフ
ィンずのランダム共重合、或いはブロック共重合をも包
含する。Polymerization of propylene in the polymerization zone includes not only propylene homopolymerization but also random copolymerization with other α-olefins such as ethylene and butene-1, or block copolymerization.

又、本発明においおは、プロピレンの重合に先立぀ビニ
ル化合物の重合或いはプロピレンの重合に際し、氎玠な
どの分子量調節剀を甚いるこずができる。Further, in the present invention, a molecular weight regulator such as hydrogen can be used during the polymerization of the vinyl compound prior to the polymerization of propylene or during the polymerization of propylene.

〔実斜䟋〕〔Example〕

以䞋、実斜䟋を瀺し本発明を説明する。 The present invention will be explained below with reference to Examples.

実隓䟋 固䜓觊媒の補造 盎埄の鋌球の入った内容積の粉砕
甚ポットを個装備した振動ミルを甚意する。各ポット
に窒玠雰囲気䞋で塩化マグネシりム、テトラ゚
トキシシランおよびα、α、α−トリクロロト
ル゚ンを加え、時間粉砕した。Experimental Example 1 Production of Solid Catalyst I A vibratory mill equipped with four grinding pots each having an internal volume of 41 and containing 9 kg of steel balls each having a diameter of 12 AU was prepared. 300 g of magnesium chloride, 60 ml of tetraethoxysilane and 45+*l of α,α,α-trichlorotoluene were added to each pot under a nitrogen atmosphere, and the mixture was ground for 40 hours.

の反応噚に䞊蚘粉砕物 、四塩化チタン
およびトル゚ンを加え、℃で時間撹拌
した埌、静眮分離しお䞊柄を陀去する操䜜を回行った
次いで固圢分を−ぞブタンで掗浄しお固䜓觊媒を
埗た。この固䜓觊媒成分はチタンをχ含有
しおいた。3 kg of the above pulverized material and 1 titanium tetrachloride were placed in a 501 reactor.
01 and toluene 101 were added, stirred at 80°C for 1 hour, separated by standing, and the supernatant was removed twice. The solid content was then washed with n-hebutane to reduce the solid catalyst A by %. Obtained. This solid catalyst component contained 1.5 wt.chi. of titanium.

実隓䟋 固䜓觊媒の補造 の反応噚に灯油−゚チルヘキシルアルコ
ヌル  、安息銙酞゚チルおよび塩
化マグネシりムを入れ、℃で時間攪拌
しお均䞀溶液ずし、の反応噚に䞊蚘均䞀溶液を移
し、−℃に冷华し、の四塩化チタンを時間
かけお装入した埌、時間かけお℃たで昇枩しお固
䜓觊媒を析出せしめ、さらに℃で時間凊理した。Experimental Example 2 Production of Solid Catalyst 2 2.8 J of kerosene 3112-ethylhexyl alcohol, 276 ml of ethyl benzoate, and 570 g of magnesium chloride were put into a reactor No. 101, stirred at 130°C for 1 hour to make a homogeneous solution, and then put into a reactor No. 501. The homogeneous solution was transferred to -20°C, charged with 121 titanium tetrachloride over 1 hour, heated to 90°C over 2 hours to precipitate the solid catalyst, and further heated at 90°C. It was treated for 2 hours.

その埌、静眮分離しお䞊柄を陀去し、さらに四塩化チタ
ン加え℃で時間加熱凊理した次いで静眮
分離しお䞊柄を陀去した埌に固圢分を−ぞブタン
で回掗浄しお固䜓觊媒を埗た。この固䜓觊媒成分
はチタンχ含有しおいた。Thereafter, the supernatant was removed by static separation, and 121 titanium tetrachloride was added and heat-treated at 80°C for 1 hour.
Solid catalyst B was obtained by washing with No. 1 seven times. This solid catalyst component contained 2.6 wLχ of titanium.

実斜䟋 䞊蚘実隓䟋で埗た固䜓觊媒、ゞ゚チルアルミニ
りムクロラむド、 −ルむル酞メチル
ビニルシクロヘキサンおよび−ヘプ
タンを加え、℃で時間攪拌凊理した次いで
濟過し−ぞブタンで掗浄しおビニルシクロヘキサンが
固䜓觊媒圓たり重合した觊媒を埗た。この
觊媒スラリヌをのオヌトクレヌブに入れ、曎に
−ぞブタンを、ゞ゚チルアルミニりムクロラむド
、−トルむル酞メチルを加え、
プロピレンをフィヌドし℃で時間凊理し
た。䞀郚をサンプリングし、分析したずころ固䜓觊媒圓
たりのプロピレンが重合しおいた。Example 1 30 g of solid catalyst A obtained in the above experimental example, 213 ml of diethylaluminium chloride, 2 methyl p-)ruylates
0m1. Vinylcyclohexane 2001 and n-heptane 11 were added and stirred at 40°C for 2 hours.Then, the mixture was filtered and washed with n-heptane to obtain a catalyst in which 0.3g/g of vinylcyclohexane was polymerized per solid catalyst. This catalyst slurry was put into a 501 autoclave, and then
- Add 20 J of hebutane, 213 ml of diethylaluminum chloride, and 50 mj of methyl p-toluate,
100g of propylene was fed and treated at 30°C for 1 hour. When a portion was sampled and analyzed, 1.8 g of propylene was polymerized per solid catalyst.

内容積のオヌトクレヌブにのプロピレ
ンを入れ℃たで昇枩した埌、氎玠濃床が 
ずなるように氎玠を装入した次いで䞊蚘混合スラリ
ヌを固䜓觊媒ずしお、  −ルむル酞
メチル八、トリ゚チルアルミニりム
で別々のフィヌドロより装入し、さらに液化プロピレ
ンをで装入し、スラリヌをで
抜き出しながら気盞の氎玠濃床が ずなるよ
うに氎玠を導入しながら℃で時間重合を続けた
重合スタヌト時間埌にスラリヌから取り出したパ
りダヌを分析した。結果を衚−に瀺す。After putting 75Kg of propylene into an autoclave with an internal volume of 5001 and raising the temperature to 75℃, the hydrogen concentration was 3.5N.
Then, the above mixed slurry was charged as a solid catalyst with 2.5 g/h of hydrogen, 2.5 sl of p-)methyl ruylate, 7 ml of triethylaluminum/
Further, liquefied propylene was charged at 75 kg/h, and while the slurry was withdrawn at 75 kg/h, hydrogen was introduced so that the hydrogen concentration in the gas phase was 3.5 Nl. Polymerization was continued for 15 hours at °C. Powder taken out from the slurry 10 hours after the start of polymerization was analyzed. The results are shown in Table-1.

なお固䜓觊媒圓たりのポリプロピレンの収率はパりダヌ
䞭のチタン含量より算出し、極限粘床は℃テトラ
リン溶液で、沞隰−ぞブタン抜出残率の割合は、前甚
匏の抜出噚で時間抜出するこずにより算出した。又融
点及び結晶化枩床は、瀺差走査熱量分析蚈を甚い℃
で昇枩たたは降枩するこずで枬定した。The yield of polypropylene per solid catalyst is calculated from the titanium content in the powder, the intrinsic viscosity is 135℃ tetralin solution, and the percentage of boiling n-hebutane extraction residue is extracted for 6 hours with a pre-type extractor. It was calculated by The melting point and crystallization temperature were measured at 10°C using a differential scanning calorimeter.
The measurement was performed by increasing or decreasing the temperature by /sin.

比范䟋 ビニルシクロヘキサンでの凊理を行わなかった他は実斜
䟋ず同様にした。結果を衚−に瀺す。Comparative Example 1 The same procedure as Example 1 was carried out except that the treatment with vinylcyclohexane was not performed. The results are shown in Table-1.

比范䟋 ビニルシクロヘキサンでの凊理を行った埌、濟過掗浄す
るこずなく固䜓觊媒スラリヌを甚いおそのたた連続重合
を実斜した。䜆し −ト”〜、し酞メチルの䜿甚量
はずした。結果を衚−に瀺す。Comparative Example 2 After treatment with vinylcyclohexane, continuous polymerization was carried out using the solid catalyst slurry without filtration and washing. However, the amount of methyl phosphate used was 4 ml. The results are shown in Table 1.

実斜䟋 固䜓觊媒ずしお固䜓觊媒を甚い、アリルトリメチルシ
ランを甚いた他は実斜䟋ず同様にした。Example 2 The same procedure as Example 1 was carried out except that solid catalyst B was used as the solid catalyst and allyltrimethylsilane was used.

アリルトリメチルシランの重合量は固䜓觊
媒であった。結果を衚−に瀺す。The polymerized amount of allyltrimethylsilane was 0.1 g/g solid catalyst. The results are shown in Table-1.

実斜䟋 ビニルシクロヘキサンに代えお−ゞメチルペンテ
ン−を甚いた他は実斜䟋ず同様にした。結果を衚−
に瀺す。Example 3 The same procedure as Example 1 was carried out except that 4,4-dimethylpentene-1 was used in place of vinylcyclohexane. Display the results -
Shown in 1.

比范䟋 プロピレンの重合の際に添加する党成分の党量を前段の
接觊に䜿甚し、プロピレンの重合を行うオヌトクレヌブ
に導入する際にノズルを重管ずしお、内管から凊理し
た觊媒を装入し、しかも倖偎に−ぞブタンを装入する
こずで觊媒装入ノズル閉塞を防止しお重合した。結果を
衚−に瀺す。Comparative Example 3 The entire amount of all the components added during propylene polymerization was used in the first stage of contact, and when introducing the autoclave into the autoclave for propylene polymerization, the nozzle was set as a double tube, and the treated catalyst was charged from the inner tube. Moreover, by charging n-hebutane to the outside, clogging of the catalyst charging nozzle was prevented and polymerization was carried out. The results are shown in Table-1.

比范䟋 ビニルシクロヘキサンでの凊理をゞ゚チルアルミニりム
クロラむドにかえおトリ゚チルアルミニりム
を䜿甚した他は実斜䟋ず同様にした。結果
を衚−に瀺す。Comparative Example 4 The same procedure as in Example 1 was carried out, except that 228 ml of triethyl aluminum was used instead of 213 mj of diethyl aluminum chloride for the treatment with vinylcyclohexane. The results are shown in Table-1.

〔発明の効果〕〔Effect of the invention〕

本発明の方法を実斜するこずで、重合掻性を員なうこ
ずな、高でしかも高結晶性のポリプロピレンを埗
るこずが可胜であり、工業的に橿めお䟡倀がある。By carrying out the method of the present invention, it is possible to obtain polypropylene with high Nl and high crystallinity without polymerization activity, which is of great industrial value.

【図面の簡単な説明】[Brief explanation of the drawing]

第図はプロピレンの連続重合に䜿甚する觊媒のフロヌ
チャヌト図である。FIG. 1 is a flow chart diagram of a catalyst used for continuous polymerization of propylene.

Claims (1)

【特蚱請求の範囲】[Claims] 少なくずもその衚面にハロゲン化マグネシりムを含
有する担䜓にハロゲン化チタンを担持しおなる固䜓媒䜓
、トリアルキルアルミニりム或いは酞玠又は窒玠原
子によっお互いに結合した぀又はそれ以䞊のアルミニ
りム原子を有する有機アルミニりム化合物、゚ステ
ル、゚ヌテル、オル゜゚ステル、アルコキシケむ玠化合
物から遞ばれた立䜓芏則性向䞊剀ずハロゲン含有有
機アルミニりム化合物からなる觊媒を甚いおプロピレン
又はプロピレンず他のα−オレフィンを重合する方法に
おいお、予め固䜓媒䜓ずハロゲン含有有機アル
ミニりム化合物を䞍掻性炭化氎玠溶媒䞭でビニルシクロ
アルカン、炭玠数以䞊の䜍又は䜍で分岐したオレ
フィン、アルキルビニルシラン及びアルキルアリルシラ
ンから遞ばれた少なくずも皮の䞍飜和化合物ず接觊凊
理し、次いで接觊凊理した固䜓觊媒を䞍掻性炭化氎玠溶
媒で掗浄し、さらに立䜓芏則性向䞊剀の䞀郚〜党郚
、ハロゲン含有有機アルミニりム化合物の䞀郚〜党
郚及び有機アルミニりム化合物の〜䞀郚を加え、
䞍掻性炭化氎玠溶媒䞭でプロピレンを固䜓媒䜓
圓たり〜回分的に重合させた埌該凊理
混合物及び、、成分の残郚をプロピレンレ
ンの連続重合垯域に導入するこずを特城ずするプロピレ
ンの連続重合方法。a) a solid medium comprising titanium halide supported on a carrier containing magnesium halide at least on its surface; b) trialkylaluminum or an organic material having two or more aluminum atoms bonded to each other via oxygen or nitrogen atoms. Polymerizing propylene or propylene and other α-olefins using a catalyst consisting of an aluminum compound, c) a stereoregularity improver selected from esters, ethers, orthoesters, and alkoxy silicon compounds, and d) a halogen-containing organoaluminum compound. In the method, a) a solid medium and d) a halogen-containing organoaluminum compound are preliminarily selected from vinylcycloalkanes, olefins branched at the 3- or 4-position having 5 or more carbon atoms, alkylvinylsilanes, and alkylarylsilanes in an inert hydrocarbon solvent. Then, the contact-treated solid catalyst is washed with an inert hydrocarbon solvent, and further c) part to all of the stereoregularity improver, and d) halogen-containing organoaluminum. Adding part to all of the compound and b) 0 to part of the organoaluminum compound,
propylene in an inert hydrocarbon solvent a) 1 g of solid medium
A method for continuous polymerization of propylene, characterized in that after polymerizing in batches of 0.1 g to 100 g per unit, the treated mixture and the remainder of components c), d), and b) are introduced into a continuous polymerization zone of propylene.
JP18018286A 1986-08-01 1986-08-01 Continuous propylene polymerization method Expired - Lifetime JPH0772210B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP18018286A JPH0772210B2 (en) 1986-08-01 1986-08-01 Continuous propylene polymerization method

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP18018286A JPH0772210B2 (en) 1986-08-01 1986-08-01 Continuous propylene polymerization method

Publications (2)

Publication Number Publication Date
JPS6337105A true JPS6337105A (en) 1988-02-17
JPH0772210B2 JPH0772210B2 (en) 1995-08-02

Family

ID=16078820

Family Applications (1)

Application Number Title Priority Date Filing Date
JP18018286A Expired - Lifetime JPH0772210B2 (en) 1986-08-01 1986-08-01 Continuous propylene polymerization method

Country Status (1)

Country Link
JP (1) JPH0772210B2 (en)

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH01278502A (en) * 1988-05-02 1989-11-08 Chisso Corp Titanium catalyst component for polymerization of olefin and production thereof
US9936788B2 (en) 2015-06-16 2018-04-10 Dyson Technology Limited Diffuser
US9936789B2 (en) 2015-06-16 2018-04-10 Dyson Technology Limited Diffuser
US10165844B2 (en) 2015-06-16 2019-01-01 Dyson Technology Limited Diffuser
US10765191B2 (en) 2015-06-16 2020-09-08 Dyson Technology Limited Diffuser

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH01278502A (en) * 1988-05-02 1989-11-08 Chisso Corp Titanium catalyst component for polymerization of olefin and production thereof
US9936788B2 (en) 2015-06-16 2018-04-10 Dyson Technology Limited Diffuser
US9936789B2 (en) 2015-06-16 2018-04-10 Dyson Technology Limited Diffuser
US10165844B2 (en) 2015-06-16 2019-01-01 Dyson Technology Limited Diffuser
US10765191B2 (en) 2015-06-16 2020-09-08 Dyson Technology Limited Diffuser

Also Published As

Publication number Publication date
JPH0772210B2 (en) 1995-08-02

Similar Documents

Publication Publication Date Title
JPS60181104A (en) Production of olefin polymerization catalyst component
JPS6338363B2 (en)
JPH07651B2 (en) Method for producing olefin polymer
JPS6337105A (en) Continuous polymerization of propylene
JP2516199B2 (en) Continuous propylene polymerization method
JPS6337104A (en) Continuous polymerization of propylene
KR0137775B1 (en) Stereospecific Polymerization of Alpha-olefins and Catalysts for Polymerization
JPH0446286B2 (en)
US4288579A (en) Process for preparing polyolefins
JPH0222310A (en) Production of propylene copolymer
JPH0119406B2 (en)
JPS62135509A (en) Production of propylene block copolymer
JPH0618841B2 (en) Process for producing block copolymer of propylene
JPH0680101B2 (en) Process for producing block copolymer of propylene
JPH061805A (en) Polymerization of propylene
JPS61207405A (en) Polymerization of ethylene
JPH0471924B2 (en)
JP2615637B2 (en) Catalyst for olefin polymerization
KR800000388B1 (en) Process for polymerization or copolymerizing oleffines containing at least 3 carbon atoms
JP2722201B2 (en) Method for producing propylene copolymer
JPH07108924B2 (en) Manufacturing method of olefin polymer
JPS642126B2 (en)
JPS591285B2 (en) Alpha − Olefuinnojiyugohouhou
JPH0713102B2 (en) Method for producing propylene polymer
JPH07108925B2 (en) Method for producing olefin polymer