JP3183932B2 - Suspension polymerization of vinyl monomers - Google Patents
Suspension polymerization of vinyl monomersInfo
- Publication number
- JP3183932B2 JP3183932B2 JP05193892A JP5193892A JP3183932B2 JP 3183932 B2 JP3183932 B2 JP 3183932B2 JP 05193892 A JP05193892 A JP 05193892A JP 5193892 A JP5193892 A JP 5193892A JP 3183932 B2 JP3183932 B2 JP 3183932B2
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- Japan
- Prior art keywords
- polymerization
- vinyl
- polymer
- suspension polymerization
- group
- 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.)
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Description
【0001】[0001]
【産業上の利用分野】本発明はビニル系単量体の改良さ
れた懸濁重合法に関し、詳しくは1バッチの重合時間を
大幅に短縮することができ、生産性高く、しかも高品質
のビニル系重合体を得ることができる懸濁重合法に関す
るものである。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an improved suspension polymerization method for a vinyl monomer, and more particularly, to a method which can greatly reduce the polymerization time of one batch, and has high productivity and high quality. The present invention relates to a suspension polymerization method capable of obtaining a system polymer.
【0002】[0002]
【従来の技術および発明が解決しようとする課題】塩化
ビニル系単量体等のビニル系単量体の懸濁重合は、通常
バッチ式で行われ、重合器中に水媒体,分散剤(懸濁
剤),重合開始剤および塩化ビニル系単量体等を仕込
み、さらに必要とされる添加剤を加えた後、昇温して重
合反応を行わせるという方法が一般的である。しかし、
生産性を向上させるために、重合1バッチに要する時間
を短縮することが求められており、そのためには、仕込
み時間の短縮、反応時間の短縮などと併せて昇温時間の
短縮も行う必要がある。特に大型重合器やコンデンサー
付重合器においては、内容積に比較してジャケットなど
による加熱能力が相対的に小さく、したがってより効果
的な昇温方法を開発する必要があった。このようなこと
から、塩化ビニル系単量体の懸濁重合において、あらか
じめ加熱した水媒体を仕込むことによって、昇温時間を
なくして生産性の向上をはかる方法が用いられている。
しかし、このような方法を用いると、得られた塩化ビニ
ル系樹脂は、フィッシュアイが多く、可塑剤吸収性や脱
モノマー性が悪いといった致命的な欠点があった。2. Description of the Related Art Suspension polymerization of a vinyl monomer such as a vinyl chloride monomer is usually carried out in a batch system, and an aqueous medium and a dispersant (suspension) are placed in a polymerization vessel. Generally, a method of charging a turbidity agent), a polymerization initiator, a vinyl chloride-based monomer, and the like, further adding necessary additives, and then raising the temperature to carry out a polymerization reaction. But,
In order to improve productivity, it is required to reduce the time required for one polymerization batch, and for that purpose, it is necessary to shorten the heating time in addition to shortening the charging time and the reaction time. is there. In particular, in the case of a large-sized polymerization vessel or a polymerization vessel with a condenser, the heating capacity of the jacket or the like is relatively small as compared with the internal volume, and therefore, it is necessary to develop a more effective heating method. For this reason, in suspension polymerization of a vinyl chloride monomer, a method has been used in which an aqueous medium that has been heated in advance is charged to eliminate the temperature raising time and improve productivity.
However, when such a method is used, the obtained vinyl chloride resin has many fatal eyes, and has a fatal defect such as poor plasticizer absorption and demonomerization.
【0003】また、特開昭56−167745号公報に
は、けん化度65モル%以上,平均重合度100〜30
00のポリビニルアルコールを分散剤とし、けん化度2
0〜65モル%,平均重合度1000以下のポリビニル
エステルを分散質とする水性分散液が開示されており、
またその中で、該水性分散液は、塩化ビニルの懸濁重合
用分散助剤に使用できる旨の記載があるが、重合時間の
短縮等の観点からの考察はなされていない。そのほか、
WO91/15518には、けん化度60モル%以下,
平均重合度50〜3000の末端イオン性基変性ポリビ
ニルエステル系重合体を分散質とする水性分散液を、塩
化ビニル等のビニル系単量体の懸濁重合用分散助剤に用
いることが開示されている。この技術によれば、粒径分
布がシャープで、充填比重が高く、しかも可塑剤吸収性
の良好なビニル系重合体粒子が得られるが、重合時間の
短縮等の観点からの考察はなされていない。Japanese Patent Application Laid-Open No. 56-167745 discloses that the degree of saponification is at least 65 mol% and the average degree of polymerization is 100 to 30.
Of polyvinyl alcohol having a degree of saponification of 2
An aqueous dispersion containing a polyvinyl ester having a dispersoid of 0 to 65 mol% and an average degree of polymerization of 1000 or less is disclosed.
In addition, among them, there is a description that the aqueous dispersion can be used as a dispersion aid for suspension polymerization of vinyl chloride, but there is no consideration from the viewpoint of shortening the polymerization time. others,
WO91 / 15518 has a saponification degree of 60 mol% or less,
It is disclosed that an aqueous dispersion having a terminal ionic group-modified polyvinyl ester polymer having an average degree of polymerization of 50 to 3000 as a dispersoid is used as a dispersing aid for suspension polymerization of vinyl monomers such as vinyl chloride. ing. According to this technology, vinyl polymer particles having a sharp particle size distribution, a high filling specific gravity, and a good plasticizer absorbability can be obtained, but no consideration has been made from the viewpoint of shortening the polymerization time and the like. .
【0004】[0004]
【課題を解決するための手段】このような状況の下に、
本発明者らは、上記問題を克服すべく鋭意研究を重ね
た。その結果、塩化ビニル等のビニル系単量体を懸濁重
合する際に、重合反応系に、加熱された水性媒体ととも
に、末端にイオン性基を有するけん化度60モル%以下
のポリビニルエステル系重合体からなる分散助剤を導入
することによって、上記問題をすべて解決できることを
見出した。本発明はこのような知見に基いて完成したも
のである。[Means for Solving the Problems] Under such circumstances,
The present inventors have conducted intensive studies to overcome the above problems. As a result, when a vinyl monomer such as vinyl chloride is subjected to suspension polymerization, a polymerization reaction system is added to a heated aqueous medium together with a polyvinyl ester-based polymer having an ionic group at a terminal and having a degree of saponification of 60 mol% or less. It has been found that all of the above problems can be solved by introducing a dispersing aid consisting of coalescence. The present invention has been completed based on such findings.
【0005】すなわち本発明は、ビニル系単量体を懸濁
重合するにあたり、(a)40℃以上の加熱水媒体およ
び(b)末端にイオン性基を有するけん化度60モル%
以下のポリビニルエステル系重合体(PVES系重合
体)からなる分散助剤を重合反応系に導入することを特
徴とするビニル系単量体の懸濁重合法を提供するもので
ある。That is, according to the present invention, when a vinyl monomer is subjected to suspension polymerization, (a) a heated aqueous medium at 40 ° C. or higher and (b) a saponification degree having an ionic group at a terminal of 60 mol%.
The present invention provides a suspension polymerization method for a vinyl monomer, which comprises introducing a dispersing aid comprising the following polyvinyl ester polymer (PVES polymer) into a polymerization reaction system.
【0006】本発明における重合反応系には、上記
(a)加熱水媒体および(b)分散助剤を重合反応系に
導入する。ここで用いられる(a)加熱水媒体は、温度
が40℃以上である。この温度の上限については、特に
制限はなく、95℃以上の熱水でもよい。加熱水媒体の
温度が40℃未満では、重合反応系を短時間で充分に加
温できず、本発明の目的を達成することができない。こ
の(a)加熱水媒体を構成する媒体は、純粋な水に限ら
ず、各種の添加成分を含有する水溶液、あるいは他の有
機溶剤を含む水性媒体等、ビニル系単量体の懸濁重合に
支障のないものであれば、様々な水性媒体を挙げること
ができる。また、(a)加熱水媒体を重合反応系に導入
する際の供給量は、重合反応系を充分に加温できる量で
あれば、各種の状況に応じて適宜定めればよい。[0006] In the polymerization reaction system of the present invention, the above-mentioned (a) a heating aqueous medium and (b) a dispersing aid are introduced into the polymerization reaction system. The temperature of the (a) heating aqueous medium used here is 40 ° C. or higher. The upper limit of the temperature is not particularly limited, and hot water of 95 ° C. or more may be used. If the temperature of the heating aqueous medium is lower than 40 ° C., the polymerization reaction system cannot be sufficiently heated in a short time, and the object of the present invention cannot be achieved. The medium constituting the heated aqueous medium (a) is not limited to pure water, but may be used for the suspension polymerization of vinyl monomers such as an aqueous solution containing various additives or an aqueous medium containing other organic solvents. Various aqueous media can be used as long as they do not interfere. Further, the supply amount when introducing the heated aqueous medium into the polymerization reaction system (a) may be appropriately determined according to various situations as long as the polymerization reaction system can be sufficiently heated.
【0007】次に、(b)分散助剤は、末端にイオン性
基を有するけん化度60モル%以下、好ましくは10〜
60モル%、特に好ましくは20〜50モル%のPVE
S系重合体からなるものである。このPVES系重合体
の重合度としては、特に制限はないが、50〜3000
が好ましく、100〜2000がより好ましい。なお、
この(b)分散助剤としては、特に自己乳化性を有する
PVES系重合体を分散質とする水性分散液の形態で使
用することが有効である。また、PVES系重合体を構
成するビニルエステル単位としては、様々なビニルエス
テル化合物に由来する単位があるが、例えば酢酸ビニ
ル,ギ酸ビニル,プロピオン酸ビニル,酪酸ビニル,イ
ソ酪酸ビニル,ピバリン酸ビニル,カプリル酸ビニル,
バーサチック酸ビニルなどに由来するビニルエステル単
位が挙げられるが、これらのビニルエステル系単位のな
かでも工業的には酢酸ビニル単位が好ましい。Next, (b) the dispersing agent has a saponification degree of not more than 60 mol%, preferably 10 to 10%, having an ionic group at the terminal.
60 mol%, particularly preferably 20 to 50 mol% of PVE
It is composed of an S-based polymer. The degree of polymerization of the PVES polymer is not particularly limited, but is 50 to 3000.
Is preferable, and 100-2000 are more preferable. In addition,
As the dispersion aid (b), it is particularly effective to use an aqueous dispersion in which a PVES polymer having self-emulsifiability is used as a dispersoid. As the vinyl ester unit constituting the PVES polymer, there are units derived from various vinyl ester compounds. For example, vinyl acetate, vinyl formate, vinyl propionate, vinyl butyrate, vinyl isobutyrate, vinyl pivalate, Vinyl caprylate,
A vinyl ester unit derived from vinyl versatate and the like can be mentioned, and among these vinyl ester units, a vinyl acetate unit is industrially preferable.
【0008】上記PVES系重合体の重合度は、該PV
ES系重合体を実質的に完全にけん化した後、アセチル
化してポリ酢酸ビニルとした後、アセトン溶液中の極限
粘度の測定から中島の式(中島章夫:高分子化学6,4
51(1949))を用いて算出されたものである。ま
た重量平均重合度(Pw)と数平均重合度(Pn)との
比Pw/Pnの値は、例えばビニルエステル単位が酢酸
ビニルに由来する単位から構成された重合体の場合に
は、再アセチル化して得られたポリ酢酸ビニル系重合体
をゲルパーミエーションクロマトグラフィー(GPC)
により測定することにより求めることができる。また、
けん化度とはビニルエステル成分のけん化度を意味し、
他の成分を共重合している場合はその成分は含まない。
なお、けん化度は従来公知の化学分析法や核磁気共鳴分
析法等により分析できる。[0008] The degree of polymerization of the PVES polymer is
After the ES polymer was substantially completely saponified and acetylated to form polyvinyl acetate, the intrinsic viscosity in an acetone solution was measured and Nakajima's formula (Akio Nakajima: Polymer Chemistry 6 , 4)
51 (1949)). The value of the ratio Pw / Pn between the weight-average degree of polymerization (Pw) and the number-average degree of polymerization (Pn) is determined, for example, in the case where the vinyl ester unit is a polymer composed of units derived from vinyl acetate. Gel permeation chromatography (GPC)
It can be determined by measuring with. Also,
The degree of saponification means the degree of saponification of the vinyl ester component,
When another component is copolymerized, that component is not included.
The degree of saponification can be analyzed by a conventionally known chemical analysis method or nuclear magnetic resonance analysis method.
【0009】本発明のPVES系重合体が、該重合体の
末端(好ましくは片末端)に有するイオン性基として
は、特に制限はないが、アミノ基,アンモニウム基,カ
ルボキシル基あるいはスルホン酸基が好ましい。アミノ
基あるいはアンモニウム基の例としては、次の一般式で
表されるチオールに由来するものが挙げられる。The ionic group which the PVES polymer of the present invention has at the terminal (preferably one terminal) of the polymer is not particularly limited, but may be an amino group, an ammonium group, a carboxyl group or a sulfonic acid group. preferable. Examples of the amino group or the ammonium group include those derived from a thiol represented by the following general formula.
【0010】[0010]
【化1】 Embedded image
【0011】およびこの四級化物(a)And the quaternary compound (a)
【0012】[0012]
【化2】 Embedded image
【0013】およびこの四級化物(b)And the quaternized product (b)
【0014】[0014]
【化3】 Embedded image
【0015】およびこの四級化物(c)And the quaternary compound (c)
【0016】[0016]
【化4】 Embedded image
【0017】およびこの四級化物(d) 上記一般式(a)〜(d)において、nは0〜3の整
数、mは1〜10の整数を示し、R1 ,R2 ,R6 ,R
7 ,R8 はそれぞれ水素原子またはメチル基を示し、R
3 ,R4 はそれぞれ低級アルキル基(置換基を含んでも
よい)を示し、Aはアミンあるいはアンモニウムの窒素
原子と一般式(a)中のアミド基の窒素原子あるいは一
般式(c)中の酸素原子とを連結する基を示す。カルボ
キシル基の例としては、次の一般式で表されるチオール
に由来するものが挙げられる。 HS−(CH2)p −COOH およびこの塩(e)And the quaternized product (d) In the above general formulas (a) to (d), n represents an integer of 0 to 3, m represents an integer of 1 to 10, and R 1 , R 2 , R 6 , R
7 and R 8 each represent a hydrogen atom or a methyl group;
3 and R 4 each represent a lower alkyl group (which may contain a substituent); A represents a nitrogen atom of an amine or ammonium and a nitrogen atom of an amide group in the general formula (a) or an oxygen atom in the general formula (c); Shows a group connecting to an atom. Examples of the carboxyl group include those derived from a thiol represented by the following general formula. HS- (CH 2) p -COOH and salts thereof (e)
【0018】[0018]
【化5】 Embedded image
【0019】およびこの塩(f) 一般式(e),(f)において、pは0〜5の整数を示
し、R9 ,R10,R11はそれぞれ水素原子または低級ア
ルキル基(置換基を含んでもよい)を示す。スルホン酸
基の例としては、次の一般式で表されるチオールに由来
するものが挙げられる。And this salt (f) In the general formulas (e) and (f), p represents an integer of 0 to 5, and R 9 , R 10 and R 11 each represent a hydrogen atom or a lower alkyl group May be included). Examples of the sulfonic acid group include those derived from a thiol represented by the following general formula.
【0020】[0020]
【化6】 Embedded image
【0021】[0021]
【化7】 Embedded image
【0022】[0022]
【化8】 Embedded image
【0023】[0023]
【化9】 Embedded image
【0024】一般式(g)〜(j)において、rは1〜
4の整数を示し、R12〜R20はそれぞれメチル基または
水素原子を示し、Mは水素原子,アルカリ金属またはア
ンモニウムイオンを示す。なお、rが複数のときは、r
の数だけ存在する各R15,R 16,R18,R19は同じもの
でも異なるものでもよい。In the general formulas (g) to (j), r is 1 to
4 represents an integer;12~ R20Is a methyl group or
M represents a hydrogen atom, and M represents a hydrogen atom, an alkali metal or
Indicates ammonium ion. When r is plural, r
Each R exists as many asFifteen, R 16, R18, R19Is the same
But it may be different.
【0025】本発明のPVES系重合体の末端のイオン
性基としては、上記に例示したようなアミノ基,アンモ
ニウム基,カルボキシルキ基またはスルホン酸基などの
イオン性基が好ましく、カルボキシルキ基がより好まし
い。これらのイオン性基には、その塩も含まれ、該PV
ES系重合体の水分散性または水溶性の点からは、アル
カリ金属塩がより好ましい。上述した末端にイオン性基
を有するPVES系重合体は、その製造法については特
に制限はなく、種々の方法を採用することができるが、
例えば(i)イオン性基を有するアルコール,アルデヒ
ドあるいはチオール等の官能基を有する化合物を連鎖移
動剤として共存させてビニルエステルを重合させ、次い
でけん化することにより末端にイオン性基を有するPV
ES系重合体を得る方法、または(ii)PVES系重合体
の末端にイオン性基を化学反応により導入する方法等が
挙げられる。しかしながら、より経済的かつ効率良く末
端にイオン性基を導入し、優れた懸濁重合用の分散助剤
を得る方法としては、イオン性基を有する連鎖移動剤、
特にこれらの官能基を有するチオールの存在下に、酢酸
ビニル等のビニルエステル類を重合し、次いでけん化す
る方法が好ましい(特開昭57−28121号公報およ
び同57−105410号公報参照)。The ionic group at the terminal of the PVES polymer of the present invention is preferably an ionic group such as an amino group, an ammonium group, a carboxyl group or a sulfonic acid group as exemplified above. More preferred. These ionic groups also include salts thereof,
From the viewpoint of water dispersibility or water solubility of the ES polymer, an alkali metal salt is more preferable. The method for producing the above-mentioned PVES polymer having an ionic group at the terminal is not particularly limited, and various methods can be adopted.
For example, (i) a compound having a functional group such as alcohol, aldehyde or thiol having an ionic group is coexisted as a chain transfer agent to polymerize a vinyl ester, and then saponified to obtain a PV having an ionic group at a terminal.
Examples include a method of obtaining an ES polymer, and (ii) a method of introducing an ionic group into a terminal of a PVES polymer by a chemical reaction. However, a more economical and efficient method of introducing an ionic group at the terminal to obtain an excellent dispersion aid for suspension polymerization includes a chain transfer agent having an ionic group,
In particular, a method in which a vinyl ester such as vinyl acetate is polymerized in the presence of a thiol having these functional groups and then saponified is preferable (see JP-A-57-28121 and JP-A-57-105410).
【0026】イオン性基を有するチオールの存在下に、
酢酸ビニル等のビニルエステル類を重合するにあたっ
て、チオールの重合系への添加量,添加方法は、適宜選
択すればよい。チオールは連鎖移動剤として働き、チオ
ールの重合系への添加量,添加方法は、得られる重合体
の重合度や重合度分布に影響するため、PVES系重合
体の要求される分散助剤性能の面から適宜決められる。
しかし、PVES系重合体の末端、特に片末端にイオン
性基を効率良く導入し、優れた分散助剤を得るために
は、重合系のビニルエステルの反応率に応じてチオール
を添加することにより、反応系のチオール量がビニルエ
ステルに対しあまり変化しないようにすることが好まし
い。こうすることにより末端のイオン性基の導入効率が
向上し、また重合度分布も狭くなって優れた性能の分散
助剤が得られ好ましい。特に、重合度分布の程度を示す
重量平均重合度(Pw)と数平均重合度(Pn)の比P
w/Pnが4.0を超えないものが望ましい。In the presence of a thiol having an ionic group,
In polymerizing vinyl esters such as vinyl acetate, the amount and method of adding thiol to the polymerization system may be appropriately selected. The thiol acts as a chain transfer agent, and the amount and method of addition of the thiol to the polymerization system affects the degree of polymerization and the distribution of the degree of polymerization of the resulting polymer. It is determined appropriately from the aspect.
However, in order to efficiently introduce an ionic group at the terminal of the PVES polymer, particularly at one terminal, and to obtain an excellent dispersing agent, it is necessary to add a thiol in accordance with the reaction rate of the polymerization vinyl ester. It is preferable that the amount of thiol in the reaction system does not change much with respect to the vinyl ester. By doing so, the efficiency of introducing terminal ionic groups is improved, and the distribution of polymerization degree is narrowed, so that a dispersion aid having excellent performance is obtained, which is preferable. In particular, the ratio P between the weight average degree of polymerization (Pw), which indicates the degree of polymerization degree distribution, and the number average degree of polymerization (Pn)
It is desirable that w / Pn does not exceed 4.0.
【0027】本発明の末端にイオン性基を有するPVE
S系重合体は、上述したように末端にイオン性基を有す
ることが必須であるが、分散助剤としての効果を損なわ
ない範囲であれば、側鎖に末端基と同類のまたは異なっ
たイオン性基を有してもよい。また、側鎖に非イオン性
基を導入することも可能である。本発明のPVES系重
合体の原料であるポリビニルエステルの重合の形式は、
従来から公知の形式、たとえば塊状重合,溶液重合,懸
濁重合,分散重合またはエマルジョン重合のいずれをも
採用し得るが、工業的にはメタノールやトルエン等を用
いる溶液重合が最も好ましい。さらに重合操作として
は、回分法,半回分法または連続法のいずれのプロセス
においても製造可能である。PVE having an ionic group at the terminal of the present invention
It is essential that the S-based polymer has an ionic group at the terminal as described above. However, as long as the effect as a dispersing agent is not impaired, an ion similar to or different from the terminal group in the side chain can be used. It may have a functional group. It is also possible to introduce a nonionic group into the side chain. The form of polymerization of polyvinyl ester as a raw material of the PVES polymer of the present invention is as follows:
Conventionally known methods such as bulk polymerization, solution polymerization, suspension polymerization, dispersion polymerization and emulsion polymerization can be employed, but industrially, solution polymerization using methanol or toluene is most preferable. Further, as the polymerization operation, it can be produced by any of a batch process, a semi-batch process and a continuous process.
【0028】本発明の分散助剤を得るための重合で使用
される開始剤は、通常公知のラジカル重合開始剤が用い
られる。例えば、2,2’−アゾビスイソブチロニトリ
ル;2,2’−アゾビス(4−メトキシ−2,4−ジメ
チルバレロニトリル);ベンゾイルパーオキサイド;ジ
イソプロピルパーオキシジカーボネート;過硫酸カリウ
ム等が挙げられる。重合温度は使用する開始剤によって
適宜設定できるが、好ましくは10〜90℃である。本
発明の末端にイオン性基を有するけん化度60モル%以
下のPVES系重合体を得る方法としては、通常公知の
方法、すなわち末端にイオン性基を有する未けん化のP
VES系重合体をけん化する方法が挙げられる。けん化
方法としては、アルカリけん化または酸けん化のいずれ
も採用できるが、工業的にはメタノール溶媒でNaOH
やCH3 ONaを触媒とした加メタノール分解が最も有
利である。けん化温度は特に制限はないが、得られるけ
ん化度60モル%以下のPVES系重合体の着色防止と
いう観点から、20〜60℃で行うのが好ましい。ま
た、触媒とするNaOHやCH3 ONaの量はビニルエ
ステル単位1モルに対して、通常は0.2モル以下が、得
られるPVES系重合体の着色防止や酢酸ナトリウムの
量を低く抑えるという点から好ましい。末端に導入した
官能基が、酸のようなアルカリを消費するものがある場
合には、アルカリの量を消費される分だけ上記範囲より
多く加えて、けん化を実施することが望ましい。As the initiator used in the polymerization for obtaining the dispersion aid of the present invention, a known radical polymerization initiator is usually used. For example, 2,2'-azobisisobutyronitrile;2,2'-azobis(4-methoxy-2,4-dimethylvaleronitrile); benzoyl peroxide; diisopropylperoxydicarbonate; potassium persulfate and the like. Can be The polymerization temperature can be appropriately set depending on the initiator used, but is preferably from 10 to 90 ° C. As a method for obtaining a PVES polymer having an ionic group at the terminal and having a degree of saponification of 60 mol% or less according to the present invention, a generally known method, that is, unsaponified P having an ionic group at the terminal is used.
A method of saponifying a VES-based polymer is exemplified. As a saponification method, any of alkali saponification and acid saponification can be adopted, but industrially, NaOH is used in a methanol solvent.
And methanol decomposition using CH 3 ONa as a catalyst is most advantageous. The saponification temperature is not particularly limited, but is preferably 20 to 60 ° C. from the viewpoint of preventing the obtained PVES polymer having a saponification degree of 60 mol% or less from being colored. Further, the amount of NaOH or CH 3 ONa used as a catalyst is usually 0.2 mol or less per 1 mol of vinyl ester unit, which is effective in preventing coloring of the obtained PVES polymer and suppressing the amount of sodium acetate. Is preferred. When some of the functional groups introduced into the terminal end consume an alkali such as an acid, it is preferable to carry out saponification by adding more alkali than the above-mentioned range by the amount consumed.
【0029】本発明の分散助剤の使用方法としては、様
々な方法が考えられるが、例えば分散助剤を粉末のまま
重合槽へ仕込む方法(方法I)、分散助剤をメタノール
などの有機溶剤に溶解した溶液として重合槽へ仕込む方
法(方法II)、分散助剤の水性分散液を、必要に応じて
併用する主分散剤の水溶液と混合して、得られた混合液
を重合槽へ仕込む方法(方法III)、分散助剤の水性分散
液と、併用する主分散剤の水溶液を、それぞれ別々に重
合槽へ仕込む方法(方法IV)などが挙げられる。これら
の方法のなかでも、方法Iは工業的には不適当である場
合が多く、また方法IIは水性媒体に有機溶剤が混入する
ことにより、懸濁重合後に水性媒体による環境汚染の問
題が生じやすい。一方、方法III または方法IVは、工業
的にもまた環境汚染防止の点からも好ましい。これら方
法III および方法IVのなかでも、得られるビニル系樹脂
の加工特性などから、方法IVが最も好適である。As a method of using the dispersion aid of the present invention, various methods can be considered. For example, a method in which the dispersion aid is charged into a polymerization tank as powder (method I), and a method in which the dispersion aid is used in an organic solvent such as methanol. (Method II) in which an aqueous dispersion of a dispersing agent is mixed with an aqueous solution of a main dispersant to be used in combination, if necessary, and the resulting mixture is charged into a polymerization tank. Method (Method III), a method in which an aqueous dispersion of a dispersing aid and an aqueous solution of a main dispersant used together are separately charged into a polymerization tank (Method IV), and the like. Of these methods, method I is often industrially unsuitable, and method II involves the problem of environmental pollution due to the aqueous medium after suspension polymerization due to the inclusion of an organic solvent in the aqueous medium. Cheap. On the other hand, Method III or Method IV is preferable both industrially and from the viewpoint of preventing environmental pollution. Among these methods III and IV, method IV is the most preferable in view of the processing characteristics of the obtained vinyl resin.
【0030】本発明の(b)分散助剤であるPVES系
重合体は、ポリビニルアルコール(PVA)などの他の
主分散剤と併用して用いることができる。本発明の
(b)分散助剤を主分散剤と併用する場合、この分散助
剤の含有量については特に制限はないが、10〜70重
量%が好ましく、10〜50重量%がより好ましい。分
散助剤と主分散剤との割合(分散助剤/主分散剤)が1
0/90より小さい場合には、その添加効果が小さく、
またこの割合が70/30より大きい場合には、重合安
定性に悪影響を及ぼす場合がある。本発明の(b)分散
助剤と併用する主分散剤は、ビニル系化合物の懸濁重合
用の分散剤に使用されるものであれば特に制限はない
が、なかでも重合度300〜3000およびけん化度6
0〜90モル%のPVAまたはPVA系重合体が特に好
ましく、これらは側鎖にイオン性基,非イオン性基を有
していてもよい。また、上記の分散助剤および主分散剤
からなる分散剤に、けん化度60モル%未満のPVAま
たはPVA系重合体を併用することもできる。そのほ
か、従来公知のセルロース誘導体も主分散剤として使用
可能である。The PVES polymer as the dispersing aid (b) of the present invention can be used in combination with another main dispersant such as polyvinyl alcohol (PVA). When the dispersing aid (b) of the present invention is used in combination with the main dispersing agent, the content of the dispersing aid is not particularly limited, but is preferably from 10 to 70% by weight, more preferably from 10 to 50% by weight. The ratio of the dispersing aid to the main dispersing agent (dispersing aid / main dispersing agent) is 1
When it is smaller than 0/90, the effect of the addition is small,
When this ratio is larger than 70/30, the polymerization stability may be adversely affected. The main dispersant used in combination with the dispersing aid (b) of the present invention is not particularly limited as long as it is used as a dispersant for suspension polymerization of a vinyl compound. Saponification degree 6
A 0 to 90 mol% PVA or PVA-based polymer is particularly preferred, and these may have an ionic group or a nonionic group in a side chain. Further, PVA or a PVA-based polymer having a degree of saponification of less than 60 mol% can be used in combination with the dispersant comprising the above-mentioned dispersing aid and main dispersant. In addition, conventionally known cellulose derivatives can also be used as the main dispersant.
【0031】前述したように、本発明の懸濁重合法は、
重合反応系への導入時、即ち仕込み時に40℃以上の加
熱水媒体を用いるものであり、ビニル系単量体,重合開
始剤,主分散剤,加熱水媒体およびその他添加物の仕込
み順序,比率は何ら制限されるものではない。As described above, the suspension polymerization method of the present invention comprises:
At the time of introduction into the polymerization reaction system, that is, at the time of charging, a heating aqueous medium of 40 ° C. or more is used. The charging order and ratio of the vinyl monomer, the polymerization initiator, the main dispersant, the heating aqueous medium, and other additives are used. Is not limited at all.
【0032】本発明で必要に応じて使用される各種添加
剤としては、アセトアルデヒド,ブチルアルデヒド,ト
リクロロエチレン,パークロロエチレンあるいはメルカ
プタン類などの重合度調節剤、フェノール化合物,イオ
ウ化合物,N−オキシド化合物などの重合禁止剤などが
ある。また、pH調整剤,スケール防止剤,架橋剤など
を加えることも任意であり、上記の添加剤を複数併用し
ても差支えない。また重合装置にコンデンサーなどの凝
縮器を取付けることも有効である。一方、重合開始剤
も、従来塩化ビニル等のビニル系単量体の重合に使用さ
れているものでよく、これにはジイソプロピルパーオキ
シジカーボネート,ジ−2−エチルヘキシルパーオキシ
ジカーボネート,ジエトキシエチルパーオキシジカーボ
ネートなどのパーカーボネート化合物、t−ブチルパー
オキシネオデカネート,α−クミルパーオキシネオデカ
ネートなどのパーエステル化合物、アセチルシクロヘキ
シルスルホニルパーオキサイド,2,4,4−トリメチ
ルペンチル−2−パーオキシフェノキシアセテートなど
の過酸化物、アゾビス−2,4−ジメチルバレロニトリ
ル,アゾビス(4−メトキシ−2,4−ジメチルバレロ
ニトリル)などのアゾ化合物などが挙げられる。さらに
はこれらに過硫酸カリウム,過硫酸アンモニウム,過酸
化水素などのを組合わせて使用することもできる。この
添加量は、ビニル系単量体100重量部当り0.02〜0.
3重量部の範囲が好適である。Various additives used as necessary in the present invention include polymerization degree regulators such as acetaldehyde, butyraldehyde, trichloroethylene, perchloroethylene and mercaptans, phenol compounds, sulfur compounds, N-oxide compounds and the like. Polymerization inhibitor. It is also optional to add a pH adjuster, a scale inhibitor, a cross-linking agent, etc., and a plurality of the above additives may be used in combination. It is also effective to attach a condenser such as a condenser to the polymerization apparatus. On the other hand, the polymerization initiator may be any of those conventionally used for the polymerization of vinyl monomers such as vinyl chloride. Examples thereof include diisopropylperoxydicarbonate, di-2-ethylhexylperoxydicarbonate, and diethoxyethyl. Percarbonate compounds such as peroxydicarbonate; perester compounds such as t-butylperoxyneodecanate and α-cumylperoxyneodecanate; acetylcyclohexylsulfonyl peroxide; 2,4,4-trimethylpentyl-2- Examples include peroxides such as peroxyphenoxyacetate, and azo compounds such as azobis-2,4-dimethylvaleronitrile and azobis (4-methoxy-2,4-dimethylvaleronitrile). Furthermore, potassium persulfate, ammonium persulfate, hydrogen peroxide and the like can be used in combination. This addition amount is from 0.02 to 0.2 per 100 parts by weight of the vinyl monomer.
A range of 3 parts by weight is preferred.
【0033】本発明の分散助剤は、粉体のまま、あるい
はメタノール溶液として、または水性分散液として懸濁
重合系の加熱水媒体に加えられるが、なかでも水性分散
液として懸濁重合系の加熱水性媒体に加えるのが好まし
い。本発明の方法で重合されるビニル系単量体として
は、塩化ビニル単独のほか、塩化ビニルを主体とする単
量体混合物(塩化ビニル50重合%以上)が包含され、
この塩化ビニルと共重合されるコモノマーとしては、酢
酸ビニル,プロピオン酸ビニルなどのビニルエステル、
アクリル酸メチル,アクリル酸エチルなどのアクリル酸
エステルもしくはメタクリル酸エステル、エチレン,プ
ロピレンなどのオレフィン、無水マレイン酸,アクリロ
ニトリル,イタコン酸,スチレン,塩化ビニリデン,ビ
ニルエーテル、その他塩化ビニル共重合可能な単量体が
例示される。さらには、塩化ビニルを含まない上記ビニ
ル化合物の単独重合や共重合にあたっても、本発明の方
法を適用することは可能である。The dispersion aid of the present invention is added to a heated aqueous medium of a suspension polymerization system as a powder, as a methanol solution, or as an aqueous dispersion. It is preferably added to a heated aqueous medium. Examples of the vinyl monomer polymerized by the method of the present invention include, in addition to vinyl chloride alone, a monomer mixture mainly composed of vinyl chloride (vinyl chloride 50% by polymerization or more),
Comonomers copolymerized with this vinyl chloride include vinyl esters such as vinyl acetate and vinyl propionate;
Acrylic esters or methacrylic esters such as methyl acrylate and ethyl acrylate, olefins such as ethylene and propylene, maleic anhydride, acrylonitrile, itaconic acid, styrene, vinylidene chloride, vinyl ether, and other vinyl chloride copolymerizable monomers Is exemplified. Further, the method of the present invention can be applied to homopolymerization or copolymerization of the above vinyl compound containing no vinyl chloride.
【0034】本発明の方法を実施するに当って、各成分
の仕込み割合,重合温度などは、従来塩化ビニル等のビ
ニル系単量体の懸濁重合で採用されている条件に準じて
定めればよく、特に制限すべきものではない。In carrying out the method of the present invention, the charging ratio of each component, the polymerization temperature, and the like are determined according to the conditions conventionally employed in suspension polymerization of vinyl monomers such as vinyl chloride. It is good enough and should not be particularly limited.
【0035】[0035]
【実施例】以下に実施例をあげて本発明をさらに詳しく
説明するが、本発明の方法は、これらの実施例のみに限
定されるものではない。以下の実施例において「部」は
「重量部」を示す。 実施例1〜28および比較例1〜4 第1表に示す主分散剤および分散助剤を使用して塩化ビ
ニルの懸濁重合を下記方法で実施した。即ち、グラスラ
イニングオートクレーブに第1表に示す主分散剤(PV
A)の2重量%水溶液の所定量,分散助剤(ポリ酢酸ビ
ニル;PVAc)の2重量%水溶液の所定量およびジイ
ソプロピルパーオキシジカーボネートの50重量%トル
エン溶液0.009部を仕込み、オートクレーブ内を50
mmHgになるまで脱気して酸素を除いた後、塩化ビニ
ル単量体を30部および63℃に加熱した脱イオン水4
5部を仕込み、攪拌下に重合を行った。仕込み後の内温
は57℃であった。重合開始時、オートクレーブ内の圧
力は8.5kg/cm2 Gであったが、重合開始7時間後
に4.5kg/cm2 Gとなったので、この時点で重合を
停止し、未反応塩化ビニル単量体をパージし、内容物を
取り出し脱水乾燥した。得られた塩化ビニル樹脂の重合
収率は88%であり、平均重合度は1050であった。
この塩化ビニル樹脂の性能を第2表に示す。The present invention will be described in more detail with reference to the following examples, but the method of the present invention is not limited to these examples. In the following examples, “parts” indicates “parts by weight”. Examples 1-28 and Comparative Examples 1-4 Suspension polymerization of vinyl chloride was carried out by the following method using the main dispersant and the dispersing aid shown in Table 1. That is, the main dispersant (PV) shown in Table 1 was added to a glass-lined autoclave.
A predetermined amount of a 2% by weight aqueous solution of A), a predetermined amount of a 2% by weight aqueous solution of a dispersing aid (polyvinyl acetate; PVAc) and 0.009 part of a 50% by weight toluene solution of diisopropyl peroxydicarbonate are charged and placed in an autoclave. 50
After removing oxygen by degassing to a pressure of 30 mmHg, 30 parts of vinyl chloride monomer and 4 parts of deionized water heated to 63 ° C.
Five parts were charged and polymerization was carried out with stirring. The internal temperature after the charging was 57 ° C. At the start of the polymerization, the pressure in the autoclave was 8.5 kg / cm 2 G, but after 7 hours from the start of the polymerization, the pressure became 4.5 kg / cm 2 G. At this point, the polymerization was stopped and unreacted vinyl chloride was added. The monomer was purged, and the contents were taken out and dehydrated and dried. The polymerization yield of the obtained vinyl chloride resin was 88%, and the average polymerization degree was 1,050.
Table 2 shows the performance of the vinyl chloride resin.
【0036】[0036]
【表1】 [Table 1]
【0037】[0037]
【表2】 [Table 2]
【0038】[0038]
【表3】 [Table 3]
【0039】[0039]
【表4】 [Table 4]
【0040】[0040]
【表5】 [Table 5]
【0041】[0041]
【表6】 [Table 6]
【0042】[0042]
【表7】 [Table 7]
【0043】[0043]
【表8】 [Table 8]
【0044】(1)粒径分布 タイラーメッシュ基準の金網を使用して乾式篩分析によ
り測定した。 (2)フィッシュアイ測定法 重合により得られた塩化ビニル樹脂100重量部,三塩
基性硫酸鉛1重量部,ステアリン酸鉛1.5重量部,二酸
化チタン0.2重量部,カーボンブラック0.1重量部,ジ
オクチルフタレート50重量部を混合した組成物25g
を145℃のロールで5分間混練し、0.2mm厚のシー
トとして分取し、このシート100cm2 の透明粒子の
数をもって示した。 (3)可塑剤吸収性 プラストグラフに接続されたプラネタリーミキサーに、
重合により得られた塩化ビニル樹脂粉末400gを入
れ、60rpmで攪拌しながら予熱(4分)して80℃
とした後、これにジオクチルフタレートを200g添加
し、その添加時によりトルクの下降した時点まで時間を
可塑剤吸収性(分)とした。 (4)残留塩化ビニル単量体 ヘッドスペースガスクロマトグラフにより塩化ビニル樹
脂中の塩化ビニル単量体含有量を定量した。(1) Particle Size Distribution The particle size distribution was measured by dry sieve analysis using a metal mesh based on Tyler mesh. (2) Fisheye measurement method 100 parts by weight of vinyl chloride resin obtained by polymerization, 1 part by weight of tribasic lead sulfate, 1.5 parts by weight of lead stearate, 0.2 parts by weight of titanium dioxide, 0.1 parts of carbon black 25 parts by weight of a composition obtained by mixing 50 parts by weight of dioctyl phthalate
Was kneaded with a roll at 145 ° C. for 5 minutes to obtain a sheet having a thickness of 0.2 mm, which was indicated by the number of transparent particles of 100 cm 2 . (3) Plasticizer absorptivity In a planetary mixer connected to a plastograph,
400 g of the vinyl chloride resin powder obtained by the polymerization is added, and the mixture is preheated (4 minutes) while stirring at 60 rpm, and is heated to 80 ° C.
After that, 200 g of dioctyl phthalate was added thereto, and the time until the torque decreased due to the addition was defined as plasticizer absorbency (minutes). (4) Residual vinyl chloride monomer The content of the vinyl chloride monomer in the vinyl chloride resin was determined by head space gas chromatography.
【0045】[0045]
【発明の効果】以上のように本発明によれば、1バッチ
の重合時間を大幅に短縮させることができ、しかも多種
のグレードにわたり、フィッシュアイが少なく、可塑剤
吸収性,脱モノマー性が良い高品質のビニル系重合体を
得ることができる。As described above, according to the present invention, the polymerization time of one batch can be greatly reduced, and the fish eyes are small, the plasticizer absorption and the demonomerization are good over various grades. A high-quality vinyl polymer can be obtained.
Claims (2)
り、(a)40℃以上の加熱水媒体および(b)末端に
イオン性基を有するけん化度60モル%以下のポリビニ
ルエステル系重合体からなる分散助剤を重合反応系に導
入することを特徴とするビニル系単量体の懸濁重合法。In the suspension polymerization of a vinyl monomer, (a) a heated aqueous medium at 40 ° C. or higher and (b) a polyvinyl ester polymer having an ionic group at a terminal and having a saponification degree of 60 mol% or less. A suspension polymerization method for a vinyl monomer, which comprises introducing a dispersing agent comprising a polymer into a polymerization reaction system.
ルエステル系重合体を分散質とする水性分散液である請
求項1記載の懸濁重合法。2. The suspension polymerization method according to claim 1, wherein the dispersing aid is an aqueous dispersion containing a polyvinyl ester polymer having self-emulsifying properties as a dispersoid.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP05193892A JP3183932B2 (en) | 1992-03-10 | 1992-03-10 | Suspension polymerization of vinyl monomers |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP05193892A JP3183932B2 (en) | 1992-03-10 | 1992-03-10 | Suspension polymerization of vinyl monomers |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPH05247106A JPH05247106A (en) | 1993-09-24 |
| JP3183932B2 true JP3183932B2 (en) | 2001-07-09 |
Family
ID=12900812
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP05193892A Expired - Lifetime JP3183932B2 (en) | 1992-03-10 | 1992-03-10 | Suspension polymerization of vinyl monomers |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JP3183932B2 (en) |
-
1992
- 1992-03-10 JP JP05193892A patent/JP3183932B2/en not_active Expired - Lifetime
Also Published As
| Publication number | Publication date |
|---|---|
| JPH05247106A (en) | 1993-09-24 |
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