JPS61236751A - Production of tertiary amine - Google Patents

Production of tertiary amine

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Publication number
JPS61236751A
JPS61236751A JP7777085A JP7777085A JPS61236751A JP S61236751 A JPS61236751 A JP S61236751A JP 7777085 A JP7777085 A JP 7777085A JP 7777085 A JP7777085 A JP 7777085A JP S61236751 A JPS61236751 A JP S61236751A
Authority
JP
Japan
Prior art keywords
amine
primary
reaction
tertiary amine
added
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.)
Pending
Application number
JP7777085A
Other languages
Japanese (ja)
Inventor
Yoshiaki Torimoto
善章 鳥本
Yukinaga Yokota
行永 横田
Ikizou Hashiba
羽柴 域三
Kazuto Matsutani
松谷 和人
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.)
Kao Corp
Original Assignee
Kao Corp
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 Kao Corp filed Critical Kao Corp
Priority to JP7777085A priority Critical patent/JPS61236751A/en
Publication of JPS61236751A publication Critical patent/JPS61236751A/en
Pending legal-status Critical Current

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Abstract

PURPOSE:The reaction of a primary or secondary amine with formaldehyde is carried out under the pressure of hydrogen, then a primary or secondary amine is added to the reaction mixture and distillation is effected to obtain a tertiary amine which is readily purified with reduced discoloration and increased storage stability. CONSTITUTION:A primary or secondary amine and a hydrogenation catalyst are charged in a reactor, the mixture is stirred, as hydrogen is introduced into the reactor. When the hydrogen pressure and the temperature reach 3-20kg/cm<2> G and 100-150 deg.C, respectively, formaldehyde, preferably 35-50% formalin, is continuously fed in a certain time to effect the reactions. After the completion of the reactions, the catalyst is filtered off, the filtrate is combined with a primary or secondary amine and they are heat treated and subjected to distilla tion to collect the tertiary amine. The amine which is added to the tiltrate is selected so that it has an appropriate difference in boiling point from the tertiary amine. EFFECT:The acid components such as formic acid which are formed in the reactions are varied by addition of amines to give the objective substance of lowered discoloration with the passage of time.

Description

【発明の詳細な説明】 〔産業上の利用分野〕 本発明は第3級アミン製造法に関し、更に詳しくは種々
の第1級アミン又は第2級アミン類とホルムアルデヒド
とを水素化触媒を用いて水素圧下で反応させN−メチル
化し対応する第3級アミンを得る製造法に於て、反応終
了物に第1級アミン又は第2級アミンな添加後蒸留する
ことKよシ精製が容易で且つ製品に着色が少なく更に保
存安定性に優れた高品質な第3級アミンを製造する方法
に関するものである。
[Detailed Description of the Invention] [Industrial Application Field] The present invention relates to a method for producing tertiary amines, and more specifically, the present invention relates to a method for producing tertiary amines, and more specifically, the present invention relates to a method for producing tertiary amines, and more specifically, a method for producing tertiary amines using a hydrogenation catalyst. In the production method of reacting under hydrogen pressure to obtain the corresponding tertiary amine by N-methylation, purification is easy and the addition of a primary amine or secondary amine to the reaction product is followed by distillation. The present invention relates to a method for producing a high-quality tertiary amine with little coloration in the product and excellent storage stability.

〔従来の技術とその問題点〕[Conventional technology and its problems]

周知の如く種々の第1級アミン又は第2級アミンから上
記の如き方法によって製造される第3級アミンは・、乳
化剤、防錆剤、染色助剤、繊維柔軟処理剤用の中間体及
びウレタン7オーム用触媒等種にの用途をもつ有用な物
質である。
As is well known, tertiary amines produced from various primary amines or secondary amines by the above method are used as emulsifiers, rust preventives, dyeing aids, intermediates for fiber softening agents, and urethane. It is a useful material that has various uses such as a 7 ohm catalyst.

第1級アミン又は第2級アミンに水素化触媒の存在下、
ホルムアルデヒドを反応させて得た第3級アミンは反応
終了液よシ通常の分離精製法例えば蒸留によシ得ること
が出来るが、公知の単なる蒸留分離だけで得られる第3
級アミン    1は着色し易く、たとえ蒸留等によシ
着色度の低いものが得られたとしても保存中の経時変化
が激しく品質的に極めて不安定である。
In the presence of a hydrogenation catalyst on a primary amine or a secondary amine,
The tertiary amine obtained by reacting formaldehyde can be obtained from the reaction finished liquid by conventional separation and purification methods, such as distillation.
Grade amine 1 is easily colored, and even if a product with a low degree of coloring can be obtained by distillation or the like, it undergoes severe changes over time during storage and is extremely unstable in terms of quality.

かかる第3級アミンの色相不安定性を解決す。This solves the hue instability of such tertiary amines.

るために従来提案されたものとしてはアルカリ性金属塩
を添加する方法がある。しかし、この方法では着色は一
応防げるとしても、蒸留後ボトムが固化する等の問題が
あシ、工業化面での問題が残る。
A method that has been proposed to date is the addition of an alkaline metal salt. However, even if this method can prevent coloring, there are still problems such as solidification of the bottom after distillation, and problems remain in terms of industrialization.

〔問題点を解決するための手段〕[Means for solving problems]

本発明者らは前記の如き問題点に対し鋭意研究した結果
、第3級アミンの色相不安定性は、反応中に蟻酸あるい
はその他の酸成分が生成することに起因することを見い
出した。
As a result of intensive research into the above-mentioned problems, the present inventors have found that the hue instability of tertiary amines is due to the formation of formic acid or other acid components during the reaction.

そこでこの蟻酸あるいはその他の酸成分を何らかの反応
によって非酸性物質に変化させ、かつ蒸留によシ分離精
製可能で、ボトム固化等の工業化面での問題のない方法
を鋭意検討した。
Therefore, we have intensively investigated a method in which this formic acid or other acid components are converted into non-acidic substances through some kind of reaction, which can be separated and purified by distillation, and which does not cause problems in terms of industrialization such as bottom solidification.

その結果反応によって得られた第3級アミン反応終了液
に、第1級アミン又は第2級アミンを添加し蒸留分離す
れば、着色が極めて少なく、特に経時着色度合が低く、
保存安定性に優れた第3級アミンを得ることができ、か
つ蒸留分離する際にもボトム固化等の諸問題が発生せず
高品質な第3級アミンが得られる事実を見い出し本発明
に到達したのでおる。
If a primary amine or a secondary amine is added to the tertiary amine reaction-completed liquid obtained as a result of the reaction and separated by distillation, there will be very little coloring, and in particular, the degree of coloring over time will be low.
The present invention was achieved by discovering the fact that it is possible to obtain a tertiary amine with excellent storage stability, and also to obtain a high quality tertiary amine without causing various problems such as bottom solidification during distillation separation. That's why I did it.

以下本発明による製造方法の詳細について説明する。The details of the manufacturing method according to the present invention will be explained below.

先ず反応によって第3級アミンを生成させるためには、
反応容器に後述する種々の第1級アミン又は第2級アミ
ン類の1つを仕込み、水素化触媒を仕込んだ後内容物を
攪拌しながら水素を反応容器内に導入する。本反応の水
素化触媒としては、ラネーニッケル、ラネーコバ/l/
)、白金、ロジウム、パラジウム、ルテニウム等の貴金
属系触媒が用いられる。水素圧を3〜50h/cm2(
ゲージ圧)、好ましくは5〜20Kf/儂2(ゲージ圧
)に設定し、所定の温度80〜180℃、好ましくは1
00〜150 ℃に昇温する。所定の反応温度に到達後
ホルムアルデヒドを反応系に添加する。添加は時間をか
けて連続的に行う方法が好ましい。
First, in order to generate a tertiary amine by reaction,
A reaction vessel is charged with one of various primary amines or secondary amines to be described later, and a hydrogenation catalyst is introduced into the reaction vessel while stirring the contents. Hydrogenation catalysts for this reaction include Raney nickel, Raney kova/l/
), noble metal catalysts such as platinum, rhodium, palladium, and ruthenium are used. Hydrogen pressure from 3 to 50 h/cm2 (
gauge pressure), preferably 5 to 20 Kf/儂2 (gauge pressure), and a predetermined temperature of 80 to 180°C, preferably 1
Raise the temperature to 00-150°C. After reaching a predetermined reaction temperature, formaldehyde is added to the reaction system. It is preferable that the addition be carried out continuously over time.

本反応に使用するホルムアルデヒドは、ホルマリン水又
はホルムアルデヒドのメタノール溶液であっても良い。
The formaldehyde used in this reaction may be formalin water or a methanol solution of formaldehyde.

ホルムアルデヒド濃度として30〜60%のものが良く
、好ましくは35〜50%ホルマリン水が良い。ホルム
アルデヒドの使用量は原料アミンに対し等モル量で良い
The formaldehyde concentration is preferably 30 to 60%, preferably 35 to 50% formalin water. The amount of formaldehyde used may be equimolar to the raw material amine.

厳密にはアミン基のもつ活性水素基1個に対し・ 等モ
ルで良い。通常はアミノ基のもつ活性水素基1個につき
1.0乃至1.2尚量倍の範囲で使用する。反応時間は
触媒添加量とホルムアルデヒドの供給速度に応じて任意
に決められるが、通常は2〜5時間である。触媒添加量
はアミンに対し、水素化金属触媒として10乃至500
 ppmの範囲で使用する。
Strictly speaking, it may be an equimolar amount per active hydrogen group of the amine group. Usually, it is used in an amount of 1.0 to 1.2 times per active hydrogen group of an amino group. The reaction time is arbitrarily determined depending on the amount of catalyst added and the formaldehyde supply rate, but is usually 2 to 5 hours. The amount of catalyst added is 10 to 500% as a hydrogenation metal catalyst to the amine.
Use within ppm range.

反応中反応器は水素圧で密閉する系でも良く、生成水、
ホルマリン水等がアミンと共存していても、触媒活性に
は影響ない。又過剰にホルムアルデヒドが存在するよう
な場合、その過剰分を排出させる為あるいは原料に由来
する低級ガスなどを排出させるために、水素圧下で連続
的に少量のガスを排気する方法をとっても良い。
During the reaction, the reactor may be sealed under hydrogen pressure, and the produced water,
Even if formalin water or the like coexists with the amine, it does not affect the catalyst activity. If there is an excess of formaldehyde, a method may be used in which a small amount of gas is continuously exhausted under hydrogen pressure in order to discharge the excess or to discharge lower gases derived from the raw materials.

このようにして反応が完了した後、触媒を濾過し得られ
たP液に第1級アミ7又は第2級アミンを添加後、加熱
処理を経、製品蒸留を行うととKよシ本発明の目的を達
することができる。
After the reaction is completed in this way, the catalyst is filtered and the resulting P solution is added with primary amine 7 or secondary amine, and then subjected to heat treatment and product distillation. can reach the purpose of

使用可能な第1級アミン又は第2級アミンとしては分子
中に活性水素基を少なくとも1個以上有するものであれ
ば低分子から高分子のアミンまで任意に選ぶことができ
る。例えば霊チレンジアミン、ジエチレントリアミン、
トリエチレンテトラミン、テトラエチレンペンタミン、
ペンタエチレンへキサオン、ポリエチレンイミンなどの
第1.2級アミノ基を有するボリアオン類、又ブチルア
ミン、オクチルアミン、ラウリルアミン、ミリスチルア
ミン、ジステアリルアミンあるいはこれらの混合物等の
脂肪族第1級アミンなど、又ジプチルアミン、ジオクチ
ルアミン、ジラウリルアミン、シミリスチルアミン、ジ
ステアリルアミンあるいはこれらの混合物等の脂肪族第
2級アミンなど、又モルホリン、ピペラジン、ピペリジ
ン、アミンエステルピペラジン、アミノプロビルモノン
ホリン等の複素環系の第1級又は第2級アミン、更にベ
ンジルアミン、シクロヘキシルアミン等の芳香族又は脂
環式アミン類、又アミノグロピオキシ基を有す    
するエーテル減第1級アミン又はアミノプロビル基を有
する脂肪族第1級又は第2級のジアミン、トリアミン類
、又モノエタノールアミン、ジェタノールアミン等のア
ミノアルコール類が挙げられる。
As the primary amine or secondary amine that can be used, any amine having at least one active hydrogen group in its molecule can be selected from low-molecular to high-molecular amines. For example, ethylenediamine, diethylenetriamine,
triethylenetetramine, tetraethylenepentamine,
Boriaones having primary and secondary amino groups such as pentaethylene hexaone and polyethyleneimine, and aliphatic primary amines such as butylamine, octylamine, laurylamine, myristylamine, distearylamine, or mixtures thereof, etc. Also, aliphatic secondary amines such as diptylamine, dioctylamine, dilaurylamine, simiristylamine, distearylamine, or mixtures thereof, and morpholine, piperazine, piperidine, amine ester piperazine, aminopropylmononpholine, etc. Heterocyclic primary or secondary amines, aromatic or alicyclic amines such as benzylamine and cyclohexylamine, and aminoglopioxy group-containing
Examples include aliphatic primary or secondary diamines and triamines having ether-reduced primary amines or aminoprobyl groups, and amino alcohols such as monoethanolamine and jetanolamine.

蒸留によって目的と゛する第3級アミンを得るに際して
は、反応によって生成した第3級アミンに対し添加アミ
ンが蒸留分離可能である様に、該第3級アミンとの間に
適当な沸点差を有する第1級アミン又は第2級アミンを
使用するのが望ましい。従って目的とするアミンによっ
て前述の如き第1級又は第2級アミンから適当なものが
任意に選択され得る。
When obtaining the desired tertiary amine by distillation, the added amine must have an appropriate boiling point difference with the tertiary amine produced by the reaction so that the amine can be separated by distillation. Preferably, primary or secondary amines are used. Therefore, an appropriate amine may be selected from the above-mentioned primary or secondary amines depending on the desired amine.

例えばペンタメチルジエチレントリアミンを製造するに
当っては低沸点第1級又は第2級アミンとしてエチレン
ジアミン、ブチルアミン、オクチルアミン、モルホリン
、ピペラジン、ピペリジン、ベンジルアミン、シクロヘ
キシルアミンなど、又高沸点第1級又は第2級アミンと
してトリエチレンテトラミン、テトラエチレンペンタミ
ン、ペンタエチレンへキサオン、ホリエチレンイミン、
ジラウリルアミン、ジエステルアミン等が適当なものと
して挙げられる。
For example, in producing pentamethyldiethylenetriamine, low-boiling primary or secondary amines such as ethylenediamine, butylamine, octylamine, morpholine, piperazine, piperidine, benzylamine, cyclohexylamine, etc., and high-boiling primary or secondary amines are used. Secondary amines include triethylenetetramine, tetraethylenepentamine, pentaethylene hexaone, polyethyleneimine,
Suitable examples include dilaurylamine, diesteramine, and the like.

これらの第1級アミン又は第2級アミンを添加するに際
しては、その添加量として通常反応終了P液中に含まれ
る蟻酸あるいはその他酸成分に対しほぼ等そルが適当で
あるが、添加アミンによっては(例えば第1級或は第2
級アミノ換言すれば酸とアミン基とが当量となる量、又
一般に反応終了品に対しては0.1wt%〜20 wt
%のアミン添加量が好ましい。
When adding these primary amines or secondary amines, the appropriate amount is usually approximately equal to the amount of formic acid or other acid components contained in the reaction-completed P solution, but depending on the added amine, (e.g. 1st class or 2nd class)
In other words, the amount of equivalent acid and amine group, and generally 0.1 wt% to 20 wt for the reaction-completed product.
% amine loading is preferred.

これらのアミンの添加は反応終了品の一過後でもよい。These amines may be added after the reaction product has passed through.

すなわち蒸留前に投入してもよいし、あるいは又水が共
存する場合には使用するアミンによっては反応液から水
を留去した後でもよい0 上記のアミン添加後反応終了液の加熱処理を行うことが
好ましいが、その温度は20℃〜勘 200℃、好ましくは60℃〜150℃の範囲である。
That is, it may be added before distillation, or if water is present, depending on the amine used, it may be added after water is distilled off from the reaction solution. After adding the amine, the reaction completed solution is heat-treated. The temperature is preferably in the range of 20°C to 200°C, preferably 60°C to 150°C.

この加熱処理は反応終了F液にアミンな添加した後、行
っても効果は出るが、水が共存す、るような3級アミン
に興しては水を留去した後、加熱処理するのが望ましい
。この加熱処理については特に加熱処理時間を設定する
必要はなく、蒸留時の加熱昇温操作がこの処理操作とな
る。
This heat treatment can be effective even if it is carried out after adding the amine to the reaction F solution, but if water is present in the tertiary amine, it is recommended to heat it after distilling off the water. desirable. There is no need to set a particular heat treatment time for this heat treatment, and the heating and temperature raising operation during distillation serves as this treatment operation.

又別に加熱処理時間を設ける場合は特に制限はなく通常
は0.5〜3.0時間の範囲で処理すればよい。
Further, when a separate heat treatment time is provided, there is no particular restriction and the heat treatment time may normally be in the range of 0.5 to 3.0 hours.

こうして得られた処理液を蒸留分離することによシ殆ん
ど無色透明な第3級アミンが得られ、色相保存安定性等
にも優れた高品質な第3級アミンを得ることが出来る0 〔実施例〕 以下実施例及び比較例によシ、本発明を更に詳しく説明
するが本発明はこれら実施例のみに限定されるものでは
ない。
By distilling and separating the treated solution thus obtained, an almost colorless and transparent tertiary amine can be obtained, making it possible to obtain a high quality tertiary amine with excellent hue and storage stability. [Examples] The present invention will be explained in more detail with reference to Examples and Comparative Examples below, but the present invention is not limited to these Examples.

実施例1 ラウリルアミン(99,5%) soo tに対しカー
ボン担体に担持したパラジウム触媒(担持量5%)を0
.25f(アミンに対し)くラジウム25ppm )加
え、これを1!オートクレーブ内に仕込み、水素圧15
 b/C1m” (ゲージ圧)まで水素正大した後温度
140℃に維持し、37%ホルムアルデヒド水溶液をア
ミンに対し等モル量440fを4時間で添加した。0.
5時間熟成した後触媒を濾過除去する。こうして得られ
たP液晶にステアリルジアミンを16.Of添加し分層
している下層水を除去後、蒸留器内で加熱処理し、製品
の蒸留分離を160℃で行った。得られた第3級アミン
の純分は99%以上であった。
Example 1 Palladium catalyst supported on a carbon carrier (5% loading) was added to laurylamine (99.5%) soo t.
.. Add 25ppm of radium (relative to amine) and add 1! Prepared in autoclave, hydrogen pressure 15
After increasing the hydrogen pressure to 1 m'' (gauge pressure), the temperature was maintained at 140°C, and a 37% formaldehyde aqueous solution was added in an equimolar amount of 440f to the amine over 4 hours.0.
After aging for 5 hours, the catalyst is filtered off. 16. stearyl diamine was added to the P liquid crystal thus obtained. After adding Of and removing the separated lower layer water, heat treatment was performed in a distiller, and the product was distilled and separated at 160°C. The purity of the obtained tertiary amine was 99% or more.

さらにこの精製品の一部を取シ保存試験に供した。保存
試験は60℃で保存し、着色の変化を観察した。
Furthermore, a portion of this purified product was subjected to a storage test. In the storage test, the samples were stored at 60°C and changes in coloring were observed.

得られた第3級アミンの色相保存安定性の試験結果を表
1に示す。
Table 1 shows the test results of the hue storage stability of the obtained tertiary amine.

比較例1 実施例1と同様にして得られた反応終了濾過品にアミン
を添加せず蒸留分離を行い、・第3級アミンを得た。得
られた第3級アミンの色相保存安定性について実施例1
と同じ条件で保存試験に供した。その結果を表1に示し
た。
Comparative Example 1 A reaction-completed filtrate obtained in the same manner as in Example 1 was subjected to distillation separation without adding an amine to obtain a tertiary amine. Example 1 Regarding the hue storage stability of the obtained tertiary amine
It was subjected to a storage test under the same conditions. The results are shown in Table 1.

表   1 測定はAPHA値で示した。Table 1 The measurement was expressed as an APHA value.

表1の結果から本発明によシ得られた第3級アミンの方
が色相保存安定性がよシ優れた高品質のアミンであるこ
とがわかる。
From the results in Table 1, it can be seen that the tertiary amine obtained according to the present invention is a high quality amine with better hue storage stability.

実施例2 原料アミンとしてジエチレントリアミン103tに対し
パラジウムカーボン触媒a、6t (7ミンに対し0.
6%)を加え、17オートクレープ内に仕込み、水素圧
15 Kf/cm2(ゲージ圧)まで、水素正大した後
温度140℃に維持し37%ホルムアルデヒド水溶液4
60tを6時間で添加した。1.0時間熟成後反応終了
物としてオートクレーブよシ取シ出す。反応終了品中の
触媒を濾過除去後テトラエチレンペンタミンを9.Of
添加し、F液中の水を留去した後、加熱処理し製品の蒸
留分離を行いペンタメチルジエチレントリアミンを得た
。蒸留等の際のボトム温度は水留告時50℃、製品蒸留
時100℃であシ、反応精製品の純度は99.0%以上
であった。
Example 2 6 tons of palladium carbon catalyst a was used for 103 tons of diethylene triamine as the raw material amine (0.
6%) and charged into an autoclave 17, and after increasing the hydrogen pressure to 15 Kf/cm2 (gauge pressure), maintain the temperature at 140°C and add 37% formaldehyde aqueous solution 4.
60t was added in 6 hours. After aging for 1.0 hour, the reaction product was removed from the autoclave. After removing the catalyst from the reaction product by filtration, tetraethylenepentamine was added in 9. Of
After the water in the F solution was distilled off, the product was heated and separated by distillation to obtain pentamethyldiethylenetriamine. The bottom temperature during distillation, etc. was 50°C when water was distilled and 100°C during product distillation, and the purity of the reaction purified product was 99.0% or more.

こうして得られた製品の一部を取り、保存試験に供した
。保存試験は当該処理品を室温もしくは60℃で保存し
、着色の変化を観察した。
A portion of the product thus obtained was taken and subjected to a storage test. In the storage test, the treated product was stored at room temperature or 60°C, and changes in coloring were observed.

その結果を表2に示した。The results are shown in Table 2.

比較例2 実施例2と同様の操作で得られた反応終了F液晶を何ら
処理せず蒸留分離にてペンタメチルジエチレントリアミ
ンを得た。このとき製品はわずかに黄味を呈した液体で
あった。この製品の一部を取シ実施例2と同じように保
存試験に供した。
Comparative Example 2 The reaction-completed F liquid crystal obtained in the same manner as in Example 2 was separated by distillation without any treatment to obtain pentamethyldiethylenetriamine. At this time, the product was a slightly yellowish liquid. A portion of this product was subjected to a storage test in the same manner as in Example 2.

その結果を表2に示した。The results are shown in Table 2.

表   2 表2の結果からも本発明の方法によシ安定性のすぐれた
高品質のアミンが得られることがわかる。
Table 2 The results in Table 2 also show that high quality amines with excellent stability can be obtained by the method of the present invention.

Claims (1)

【特許請求の範囲】[Claims] 第1級アミン又は第2級アミンに水素化触媒の存在下ホ
ルムアルデヒドを反応させて第3級アミンを得る製造法
において、反応終了後反応終了物に第1級アミン又は第
2級アミンを添加した後蒸留することを特徴とする第3
級アミンの製造法。
In a production method for obtaining a tertiary amine by reacting a primary amine or a secondary amine with formaldehyde in the presence of a hydrogenation catalyst, the primary amine or secondary amine is added to the reaction product after the completion of the reaction. the third characterized by post-distillation;
A method for producing grade amines.
JP7777085A 1985-04-12 1985-04-12 Production of tertiary amine Pending JPS61236751A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP7777085A JPS61236751A (en) 1985-04-12 1985-04-12 Production of tertiary amine

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP7777085A JPS61236751A (en) 1985-04-12 1985-04-12 Production of tertiary amine

Publications (1)

Publication Number Publication Date
JPS61236751A true JPS61236751A (en) 1986-10-22

Family

ID=13643182

Family Applications (1)

Application Number Title Priority Date Filing Date
JP7777085A Pending JPS61236751A (en) 1985-04-12 1985-04-12 Production of tertiary amine

Country Status (1)

Country Link
JP (1) JPS61236751A (en)

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2001213850A (en) * 2000-02-04 2001-08-07 Lion Akzo Kk Method for producing aliphatic tertiary amine
WO2006049182A1 (en) * 2004-11-02 2006-05-11 Tosoh Corporation Hydroxyalkylated polyalkylenepolyamine composition, method for producing same and method for producing polyurethane resin using such hydroxyalkylated polyalkylenepolyamine composition
JP2007022955A (en) * 2005-07-15 2007-02-01 Tosoh Corp Alkylated polyalkylene polyamine composition and its manufacturing method
JP2007176897A (en) * 2005-12-28 2007-07-12 Kao Corp Method for producing tertiary amine

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2001213850A (en) * 2000-02-04 2001-08-07 Lion Akzo Kk Method for producing aliphatic tertiary amine
WO2006049182A1 (en) * 2004-11-02 2006-05-11 Tosoh Corporation Hydroxyalkylated polyalkylenepolyamine composition, method for producing same and method for producing polyurethane resin using such hydroxyalkylated polyalkylenepolyamine composition
US8222311B2 (en) 2004-11-02 2012-07-17 Tosoh Corporation Hydroxyalkylated polyalkylenepolyamine composition, method of producing the same and their use in polyurethanes
US8765008B2 (en) 2004-11-02 2014-07-01 Tosoh Corporation Hydroxyalkylated polyalkylenepolyamine composition, method for producing same and method for producing polyurethane resin using such hydroxyalkylated polyalkylenepolyamine composition
JP2007022955A (en) * 2005-07-15 2007-02-01 Tosoh Corp Alkylated polyalkylene polyamine composition and its manufacturing method
JP2007176897A (en) * 2005-12-28 2007-07-12 Kao Corp Method for producing tertiary amine

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