JP3518026B2 - Flame retardant and flame retardant resin composition containing the same - Google Patents
Flame retardant and flame retardant resin composition containing the sameInfo
- Publication number
- JP3518026B2 JP3518026B2 JP03036295A JP3036295A JP3518026B2 JP 3518026 B2 JP3518026 B2 JP 3518026B2 JP 03036295 A JP03036295 A JP 03036295A JP 3036295 A JP3036295 A JP 3036295A JP 3518026 B2 JP3518026 B2 JP 3518026B2
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- flame retardant
- resin
- mol
- resin composition
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Description
【0001】[0001]
【産業上の利用分野】本願発明は樹脂に高度の難燃性を
付与する難燃剤、及び、当該難燃剤を配合した難燃性樹
脂組成物に関し、特に、OA機器や家電製品のハウジン
グ、自動車部品などの難燃性の要求される分野に使用さ
れる熱可塑性樹脂組成物及び熱硬化性樹脂組成物に関す
る。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a flame retardant which imparts a high degree of flame retardancy to a resin, and a flame retardant resin composition containing the flame retardant, and particularly to a housing of OA equipment and home appliances, an automobile. The present invention relates to a thermoplastic resin composition and a thermosetting resin composition used in fields requiring flame retardancy such as parts.
【0002】[0002]
【従来の技術】ハイインパクトポリスチレン(HIP
S)、ABS等のスチレン系樹脂は機械特性が良く、電
気絶縁性、成形加工性に優れている。また、PET、P
BT等のエンジニャリングプラスチックスは耐熱性、寸
法安定性などの特性が付加されている事から、近年、O
A機器・家電製品のハウジング、自動車部品等に多用さ
れている。しかしながら、これらの樹脂は易燃性である
ため、安全面から難燃化が要求されている。更に、OA
機器、家電製品等の分野では、室内で使用されるが、蛍
光灯や外から入る光に晒されるため時間経過と共に黄変
する傾向にあり、耐光性の改良も重要視される様になっ
てきた。2. Description of the Related Art High-impact polystyrene (HIP
Styrenic resins such as S) and ABS have good mechanical properties, electrical insulation and molding processability. Also, PET, P
In recent years, engineering plastics such as BT have been added with properties such as heat resistance and dimensional stability.
It is widely used for housings of A appliances and home appliances, automobile parts, etc. However, since these resins are flammable, flame retardancy is required for safety reasons. Furthermore, OA
In the field of equipment, home appliances, etc., it is used indoors, but it tends to turn yellow over time because it is exposed to fluorescent lights and light entering from the outside, and improvement of light resistance is becoming more important. It was
【0003】従来より、スチレン系樹脂に代表される熱
可塑性樹脂に難燃性を付与するため、種々のハロゲン化
有機化合物が提案されている。これらの難燃剤としては
テトラブロモビスフェノールA(TBA)やポリブロモ
ジフェニルエーテル(PBDPE)など比較的低分子量
の含臭素系有機化合物である。これらの低分子量の難燃
剤は、コスト的にはメリットがあるものの、ブリードア
ウトや耐熱性・耐光性・熱安定性の低下などに問題があ
るので、最近では分子設計の可能なより分子量の大きい
オリゴマータイプのものが使用されるようになってきて
いる。これらの例としては両末端基がエポキシ基である
臭素化エポキシオリゴマー(市販品としては東都化成
(株)製YDB−406、408等)、両末端基がトリ
ブロモフェノールでエポキシ基を封鎖した変性臭素化エ
ポキシオリゴマー(以下、単に変性臭素化エポキシオリ
ゴマーという、市販品としては東都化成(株)製TB−
60、62等)、臭素化ポリカーボネートオリゴマーな
どがある。フェノール樹脂、エポキシ樹脂、ポリエステ
ル樹脂に代表される熱硬化性樹脂の分野に於いても、前
記と同様に優れた難燃剤が要望されている。代表的用途
である紙フェノール積層板の分野では難燃剤として臭素
化エポキシオリゴマー(市販品としては東都化成(株)
製YDB−400等)や変性臭素化エポキシオリゴマー
が使用されて来ている。Conventionally, various halogenated organic compounds have been proposed for imparting flame retardancy to thermoplastic resins represented by styrene resins. These flame retardants are bromine-containing organic compounds having a relatively low molecular weight such as tetrabromobisphenol A (TBA) and polybromodiphenyl ether (PBDPE). Although these low molecular weight flame retardants are advantageous in terms of cost, they have problems such as bleed-out and deterioration of heat resistance, light resistance, and thermal stability. Oligomeric types have been used. Examples of these are brominated epoxy oligomers whose both end groups are epoxy groups (commercially available YDB-406, 408 manufactured by Tohto Kasei Co., Ltd.), both end groups being modified by blocking the epoxy group with tribromophenol. Brominated epoxy oligomer (hereinafter referred to simply as modified brominated epoxy oligomer, commercially available as TB-produced by Tohto Kasei Co., Ltd.)
60, 62, etc.) and brominated polycarbonate oligomers. In the field of thermosetting resins typified by phenol resins, epoxy resins, and polyester resins, there is a demand for flame retardants as excellent as the above. In the field of paper phenolic laminates, which is a typical application, brominated epoxy oligomers (commercially available Toto Kasei Co., Ltd.) as flame retardants.
YDB-400, etc.) and modified brominated epoxy oligomers have been used.
【0004】前述の如く、最近使用量が増加してきてい
る臭素化エポキシオリゴマー及び変性臭素化エポキシオ
リゴマーは多くの優れた特徴を有するが、特に耐光性や
流動性が優れているものの以下の様な欠点もあり、その
改良が望まれていた。すなわち、臭素化エポキシオリゴ
マーを熱可塑性又は熱硬化性樹脂に配合、成形すると、
これらの樹脂組成物は溶融混練時の押出機や成形時の射
出成型機のスクリューに付着し、連続生産を行うと付着
物が長時間にわたって高温に晒されるため、変色劣化し
てしまい、異物としてコンパウンドや成型品に混入して
しまうのである。一方、変性臭素化エポキシオリゴマー
は臭素化エポキシオリゴマーの様な金属に対する付着性
はないが、末端がトリブロモフェノールで封鎖されてい
るため耐光性に劣り、これを配合した樹脂組成物は黄変
しやすい傾向にある。As described above, the brominated epoxy oligomers and modified brominated epoxy oligomers, which have been used in increasing amounts recently, have many excellent characteristics. However, although they are particularly excellent in light resistance and fluidity, they are as follows. There are drawbacks, and improvements have been desired. That is, when a brominated epoxy oligomer is mixed with a thermoplastic or thermosetting resin and molded,
These resin compositions adhere to the screw of an extruder at the time of melt-kneading or the injection molding machine at the time of molding, and when continuous production is performed, the adhered matter is exposed to high temperatures for a long time, resulting in discoloration and deterioration, and as a foreign substance. It gets mixed into compounds and moldings. On the other hand, the modified brominated epoxy oligomer does not have adhesion to metals like brominated epoxy oligomer, but its terminal is blocked with tribromophenol, so it is inferior in light resistance, and the resin composition containing it is yellowed. It tends to be easy.
【0005】[0005]
【発明が解決しようとする課題】本発明が解決しようと
する課題は、前述の臭素化エポキシオリゴマーの耐光性
と変性臭素化エポキシオリゴマー程度の金属に対する非
付着性との両方の特性を兼備した難燃剤を得ることであ
り、本発明の目的は、上述の耐光性及び金属非付着性を
有する新規な難燃剤及びその難燃剤を含有する樹脂組成
物を提供するものである。The problem to be solved by the present invention is that it is difficult to combine both the light resistance of the above-mentioned brominated epoxy oligomer and the non-adhesiveness to a metal such as a modified brominated epoxy oligomer. It is to obtain a flame retardant, and an object of the present invention is to provide a novel flame retardant having the above-mentioned light resistance and metal non-adhesiveness, and a resin composition containing the flame retardant.
【0006】[0006]
【課題を解決するための手段】すなわち、本願発明は、
下記一般式(1)で示される臭素含有難燃剤であって、
末端基X、YはA及びBまたはCから成り、その内Aが
10モル%から25.1モル%であり、残基はB、Cの
内から選択される単一または二種以上の組み合わせであ
ってもよく、nは整数で0≦n<30である。That is, the invention of the present application is
A bromine-containing flame retardant represented by the following general formula (1):
The terminal groups X and Y consist of A and B or C, in which A is 10 mol% to 25.1 mol%, and the residue is a single or a combination of two or more selected from B and C. Where n is an integer and 0 ≦ n <30.
【0007】[0007]
【化2】 [Chemical 2]
【0008】即ち、本発明における一般式(1)で示さ
れる臭素含有難燃剤はオリゴマーであり、分子量分布を
持っている。その平均重合度nは0から30であり、対
象とする相手の樹脂により、最適な物性が得られるよう
に選択されるべきものである。一般に熱硬化性樹脂用に
はn=0〜2程度の低重合度、スチレン系樹脂にはn=
1〜4程度の中重合度、PET・PBTなどにはn=3
〜30程度の高重合度が推奨される。That is, the bromine-containing flame retardant represented by the general formula (1) in the present invention is an oligomer and has a molecular weight distribution. The average degree of polymerization n is from 0 to 30, and should be selected so as to obtain optimum physical properties depending on the resin of the target partner. Generally, a low degree of polymerization of about n = 0 to 2 is used for thermosetting resins, and n = for styrene resins.
N = 3 for medium polymerization degree of 1 to 4 and PET / PBT etc.
A high degree of polymerization of about 30 is recommended.
【0009】そして、本発明の難燃剤の特徴の1つは、
一般式(1)の末端基X及びYの少なくとも何れか一方
がAを有することである。即ち、末端基Aは臭素化エポ
キシオリゴマーの長所である耐光性を維持しながら、欠
点である金属付着性を改良するために導入するものであ
り、末端基X及びYが少なくとも10モル%はAである
必要がある。それ以下では効果が期待できない。また、
100モル%に近づくにつれ臭素含有量が低下するので
不必要に多くする必要もない。One of the features of the flame retardant of the present invention is that
At least one of the terminal groups X and Y in the general formula (1) has A. That is, the terminal group A is introduced in order to improve the metal adhesion, which is a drawback, while maintaining the light resistance, which is an advantage of the brominated epoxy oligomer, and the terminal groups X and Y are at least 10 mol% of A. Must be Below that, no effect can be expected. Also ,
Since the bromine content decreases as it approaches 100 mol%, it is not necessary to increase it unnecessarily.
【0010】本発明にかかる一般式(1)で示される新
規難燃剤の製造方法は特に限定されるものではないが、
その幾つかの方法を次に例示する。第一の方法はテトラ
ブロムビスフェノールA(以下、TBAと略記する)に
エピクロルヒドリン(以下、ECHと略記する)とグリ
シドール(以下、GDと略記する)の混合物をアルカリ
金属水酸化物の存在下に反応させて末端基A、Bからな
る一般式(1)の化合物を得る事ができる。この場合T
BAとECHのモル比で重合度nをコントロールする事
ができ、ECHとGDのモル比で末端基A、Bの比率を
コントロールする事ができる。さらに末端基Cを導入す
るにはトリブロムフェノール(以下、TBPと略記す
る)を予めTBAに混合して反応するか、末端基A、B
の一般式(1)の化合物を製造後TBPを末端基Bと反
応させる事により製造する事ができる。The method for producing the novel flame retardant represented by the general formula (1) according to the present invention is not particularly limited,
Some methods are illustrated below. The first method is to react tetrabromobisphenol A (hereinafter abbreviated as TBA) with a mixture of epichlorohydrin (hereinafter abbreviated as ECH) and glycidol (hereinafter abbreviated as GD) in the presence of an alkali metal hydroxide. Thus, the compound of the general formula (1) having the terminal groups A and B can be obtained. In this case T
The degree of polymerization n can be controlled by the molar ratio of BA and ECH, and the ratio of the terminal groups A and B can be controlled by the molar ratio of ECH and GD. To introduce the terminal group C, tribromophenol (hereinafter abbreviated as TBP) is mixed with TBA in advance and reacted, or the terminal groups A and B are mixed.
The compound of the general formula (1) can be produced by reacting TBP with the terminal group B after the production.
【0011】第二の方法はTBAとECHをアルカリ金
属水酸化物の存在下に反応させて、末端基Bからなる一
般式(1)の化合物を合成し、これを酸またはアルカリ
触媒の存在下に加水分解させて末端基A、Bからなる一
般式(1)の化合物を得る事ができる。末端基Cの導入
方法は第一の方法と同様に行う事ができる。この加水分
解に使用される触媒としては燐酸、硫酸、シュウ酸、酢
酸などの酸類、苛性ソーダ、苛性カリ等のアルカリ類が
使用できる。さらに、第二の方法には予め低分子量の末
端基Bからなる、すなわち低分子量臭素化エポキシ樹脂
を合成し、それを加水分解して末端基Aを導入後、残存
する末端基B(エポキシ基)にTBAを反応させて所望
する重合度にすることも可能である。この第二の方法は
高価なグリシドールを使用する第一の方法に対して、コ
スト的に有利である。In the second method, TBA and ECH are reacted in the presence of an alkali metal hydroxide to synthesize a compound of the general formula (1) having a terminal group B, which is reacted in the presence of an acid or alkali catalyst. The compound of the general formula (1) consisting of the terminal groups A and B can be obtained by hydrolysis. The terminal group C can be introduced in the same manner as the first method. As the catalyst used for this hydrolysis, acids such as phosphoric acid, sulfuric acid, oxalic acid and acetic acid, and alkalis such as caustic soda and caustic potash can be used. Further, in the second method, a low molecular weight brominated epoxy resin consisting of a low molecular weight terminal group B is synthesized in advance, and after hydrolyzing it to introduce the terminal group A, the remaining terminal group B (epoxy group) It is also possible to react T) with TBA to obtain a desired degree of polymerization. This second method has a cost advantage over the first method using expensive glycidol.
【0012】第三の方法は低分子量臭素化エポキシ樹脂
に2モルのTBAを反応させ末端基をフェノール性OH
とする。次に所定量のグリシドールを反応させ、さらに
残りのフェノール性OHに低分子量臭素化エポキシ樹脂
を反応して一般式(1)の化合物を得る。この第三の方
法は工程は多少長くなるが、単純な付加反応のみなので
推奨できる方法である。これらの方法で得られた本願発
明にかかる難燃剤の末端基Aはα−グリコール基を定量
する事によりその含有量を知る事ができる。また、末端
基Bはエポキシ基を定量する事により知ることができ
る。末端基Cは直接定量することは出来ないが、臭素含
有量を測定し末端基A、Bの定量結果と併せて計算する
ことにより求める事ができる。The third method is to react a low molecular weight brominated epoxy resin with 2 mol of TBA to make the terminal group a phenolic OH.
And Next, a predetermined amount of glycidol is reacted and the remaining phenolic OH is reacted with a low molecular weight brominated epoxy resin to obtain the compound of the general formula (1). Although the third method requires a slightly longer process, it is a method that can be recommended because it involves only a simple addition reaction. The content of the terminal group A of the flame retardant according to the present invention obtained by these methods can be known by quantifying the α-glycol group. The terminal group B can be known by quantifying the epoxy group. Although the terminal group C cannot be directly quantified, it can be determined by measuring the bromine content and calculating it together with the quantitative results of the terminal groups A and B.
【0013】本発明の難燃性を有する樹脂組成物は、上
記の難燃剤を配合した樹脂組成物である。樹脂としては
熱可塑性樹脂または熱硬化性樹脂の何れでもよく、熱可
塑性樹脂としてはスチレン系樹脂、ポリエチレンテレフ
タレート(PET)、ポリブチレンテレフタレート(P
BT)等を、熱硬化性樹脂としてはフェノール樹脂、エ
ポキシ樹脂、不飽和ポリエステル樹脂等を挙げることが
できる。そして、本発明にかかる難燃剤を樹脂に配合し
て使用する場合、先に述べたように対象とする樹脂の種
類によって最適の特性が得られるように選択する。その
添加量は全樹脂組成物100重量部中0.1から30重
量部が好ましく、5〜25重量部が更に好ましい。ま
た、本発明の難燃剤と他の難燃剤を併用する事も特に本
願発明の効果を損なわない限り差し支えない。さらに必
要に応じて、三酸化アンチモン、五酸化アンチモン、酸
化モリブデンの様な難燃助剤、滑剤、紫外線吸収剤、酸
化防止剤、着色顔料、染料、離型剤、充填剤、その他の
添加剤を併用することも特に制限はない。The flame-retardant resin composition of the present invention is a resin composition containing the above flame retardant. The resin may be either a thermoplastic resin or a thermosetting resin, and as the thermoplastic resin, styrene resin, polyethylene terephthalate (PET), polybutylene terephthalate (P
Examples of the thermosetting resin such as BT) include phenol resin, epoxy resin, unsaturated polyester resin and the like. When the flame retardant according to the present invention is used by being mixed with a resin, it is selected so as to obtain optimum characteristics depending on the type of the target resin as described above. The amount added is preferably 0.1 to 30 parts by weight, and more preferably 5 to 25 parts by weight, based on 100 parts by weight of the total resin composition. Further, the flame retardant of the present invention may be used in combination with another flame retardant unless the effect of the present invention is impaired. Further, as required, antimony trioxide, antimony pentoxide, flame retardant aids such as molybdenum oxide, lubricants, ultraviolet absorbers, antioxidants, coloring pigments, dyes, release agents, fillers, and other additives. There is no particular limitation on the combined use of.
【0014】[0014]
【実施例及び比較例】以下、実施例及び比較例を挙げて
本発明を更に具体的に説明するが、本発明は実施例に限
定されるものではない。また、例中の部及び%の表示は
いずれも重量基準である。さらに本発明では以下の試験
方法を使用した。
(1)エポキシ当量:JIS K−7234
(2)軟化点 :JIS K−7236
(3)α−グリコール:G.A.STENMARK.,ANAL.CHEM.Vol3
0,No3,381-383,1958
(4)耐光性△E :サンシャインウェザーメーターを
用い、63℃48時間暴露試験(雨なし)前後の試験片
の色差を色差計(東京電色社製)で測定した。
(5)燃焼性試験 :UL−94試験法に準拠。
(6)金属付着性 :6吋金属製熱ロールの第1ロール
を200℃、第2ロールを60℃にそれぞれ設定し、試
験片を第1ロールに3分間軽く圧着後3分間混練した
後、混練樹脂を引き剥がし、ロールへの付着状態を観察
した。
評価 a ロールに付着しない。
b 容易にロールより剥がれた。
c ロールに付着して剥がれない。EXAMPLES AND COMPARATIVE EXAMPLES The present invention will be described in more detail below with reference to Examples and Comparative Examples, but the present invention is not limited to the Examples. In addition, all parts and% in the examples are based on weight. Further, the following test method was used in the present invention. (1) Epoxy equivalent: JIS K-7234 (2) Softening point: JIS K-7236 (3) α-glycol: GASTENMARK., ANAL.CHEM.Vol3
0, No3,381-383,1958 (4) Light resistance ΔE: Using a sunshine weather meter, using a color difference meter (manufactured by Tokyo Denshoku Co., Ltd.) It was measured. (5) Flammability test: Based on UL-94 test method. (6) Metal adhesion: The first roll of the 6-inch metal heat roll was set to 200 ° C. and the second roll was set to 60 ° C., and the test piece was lightly pressure-bonded to the first roll for 3 minutes and kneaded for 3 minutes. The kneading resin was peeled off and the state of adhesion to the roll was observed. Evaluation a It does not adhere to the roll. b It was easily peeled off from the roll. c It adheres to the roll and does not come off.
【0015】実施例1
温度計、撹拌機、滴下装置及びコンデンサー付き2リッ
トルのセパラブルフラスコに、TBA 544g(1モ
ル)、ECH127.2g(1.375モル)、GD
9.3g(0.125モル)、メチルイソブチルケトン
(以下、MIBKと略記する)170gを仕込み、窒素
パージしながら昇温溶解し、95℃で48%の,NaO
H水溶液25g(0.3モル)を30分間で滴下、その
後4時間反応し更にMIBK280gで希釈した後48
%のNaOH水溶液125g(1.5モル)を30分間
で滴下、その後さらに4時間反応後MIBK230g、
水320gを加え副生食塩を分離するため静置分液し
た。さらに同量の水で5回洗浄した後、溶液を濾過して
から150℃ 5Torrの減圧下に溶剤を回収して目
的の難燃剤Aを得た。これの物性を表1に示す。Example 1 In a 2 liter separable flask equipped with a thermometer, a stirrer, a dropping device and a condenser, 544 g (1 mol) of TBA, 127.2 g (1.375 mol) of ECH and GD were added.
9.3 g (0.125 mol) and 170 g of methyl isobutyl ketone (hereinafter abbreviated as MIBK) were charged and dissolved by heating while purging with nitrogen.
An aqueous solution of H (25 g, 0.3 mol) was added dropwise over 30 minutes, followed by reaction for 4 hours and further dilution with 280 g of MIBK.
% NaOH aqueous solution 125 g (1.5 mol) in 30 minutes, and after reacting for another 4 hours, MIBK 230 g,
320 g of water was added and the solution was allowed to stand to separate by-product salt. After further washing with the same amount of water 5 times, the solution was filtered and then the solvent was recovered under reduced pressure of 150 ° C. and 5 Torr to obtain the intended flame retardant A. The physical properties of this are shown in Table 1.
【0016】実施例2
実施例1と同様のセパラブルフラスコに低分子量臭素化
エポキシ樹脂エポトートYDB−400(東都化成
(株)製、エポキシ当量400g/eq、軟化点69
℃、臭素含有量48%)800g(1モル)、MIBK
310g、n−ブタノール35gを加え95℃に昇温溶
解した後、10%シュウ酸水溶液240gを加え同温度
で8時間反応してエポキシ基を加水分解した。その後、
5%苛性ソーダにて中和し、MIBK450g、水20
0gを加えて静置分液した。同様にして水で5回洗浄し
た後、濾過し溶剤を回収した。得られた難燃剤中間体B
−1はエポキシ当量635.2g/eqで、αジオール
は0.059mol/100gであった。これは基の末
端エポキシ基の36%が加水分解している事になる。さ
らにこのB−1 406.5g(0.5モル)にTBA
54.4g(0.1モル)を触媒としてトリフェニルフ
ォスフォニュウムブロマイド(以下、TPPBと略記す
る)を0.05g添加して、窒素パージしながら160
℃で5時間反応させて目的の難燃剤Bを得た。これの物
性を表1に示す。Example 2 A low molecular weight brominated epoxy resin Epotote YDB-400 (manufactured by Tohto Kasei Co., Ltd., epoxy equivalent 400 g / eq, softening point 69) was placed in a separable flask similar to Example 1.
℃, bromine content 48%) 800 g (1 mol), MIBK
After 310 g and 35 g of n-butanol were added and dissolved by heating at 95 ° C., 240 g of a 10% aqueous oxalic acid solution was added and reacted at the same temperature for 8 hours to hydrolyze the epoxy group. afterwards,
Neutralize with 5% caustic soda, MIBK 450g, water 20
0 g was added and the mixture was allowed to stand and separate. After washing with water 5 times in the same manner, the solvent was recovered by filtration. Obtained flame retardant intermediate B
-1 was 635.2 g / eq of epoxy equivalent and 0.059 mol / 100 g of alpha diol. This means that 36% of the terminal epoxy groups of the group are hydrolyzed. Further, 406.5 g (0.5 mol) of this B-1 was mixed with TBA.
Using 44.4 g (0.1 mol) as a catalyst, 0.05 g of triphenylphosphonium bromide (hereinafter abbreviated as TPPB) was added, and 160 g of nitrogen was added while purging with nitrogen.
The desired flame retardant B was obtained by reacting at 5 ° C. for 5 hours. The physical properties of this are shown in Table 1.
【0017】[0017]
【0018】実施例3
実施例1と同様のセパラブルフラスコにエポトートYD
B−400(前出)400g(0.5モル)、TBA5
44g(1.0モル)、TPPB0.272gを仕込
み、窒素パージしながら150℃で5時間反応させた。
その後、GD 22.2g(0.3モル)を加えさらに
1時間反応させてから、YDB−400 560g
(0.7モル)を加え170℃2時間反応させて目的の
難燃剤Cを得た。これらの物性を表1に示す。尚、比較
参考のために臭素化エポキシオリゴマーの例としてYD
B−406、変性臭素化エポキシオリゴマーの例として
TB−62(いずれも東都化成(株)製)の物性を表1
に示した。Example 3 A separable flask similar to that used in Example 1 was charged with Epotote YD.
B-400 (previous) 400 g (0.5 mol), TBA5
44 g (1.0 mol) and 0.272 g of TPPB were charged and reacted at 150 ° C. for 5 hours while purging with nitrogen.
Then, 22.2 g (0.3 mol) of GD was added and reacted for 1 hour, and then 560 g of YDB-400.
(0.7 mol) was added and the mixture was reacted at 170 ° C. for 2 hours to obtain the intended flame retardant C. Table 1 shows these physical properties. For comparison, YD was used as an example of a brominated epoxy oligomer.
Table 1 shows the physical properties of B-406 and TB-62 (all manufactured by Tohto Kasei Co., Ltd.) as an example of the modified brominated epoxy oligomer.
It was shown to.
【0019】[0019]
【表1】 [Table 1]
【0020】次に得られた難燃剤の効果を見るために熱
可塑性樹脂に配合した組成物の物性を調べた。
実施例5〜7及び比較例1〜2
実施例1〜3で得られた難燃剤A〜C及び比較のためY
DB−406、TB−62(前出)をそれぞれ表−2に
示す組成で配合し、ヘンシェルミキサーで混合した後
に、2軸押出機(池貝鉄工製PCM−30型)にて、溶
融混練し、コンパウンドを得た。得られたコンパウンド
をさらに射出成形により試験片を作成した。この試験片
を用いて燃焼性、付着性、耐光性を測定した。その結果
を表2に示す。Next, in order to see the effect of the obtained flame retardant, the physical properties of the composition blended with the thermoplastic resin were examined. Examples 5 to 7 and Comparative Examples 1 to 2 The flame retardants A to C obtained in Examples 1 to 3 and Y for comparison.
DB-406 and TB-62 (previously described) were blended in the compositions shown in Table 2, mixed with a Henschel mixer, and then melt-kneaded with a twin-screw extruder (PCM-30 type manufactured by Ikegai Tekko Co., Ltd.), I got a compound. A test piece was prepared from the obtained compound by injection molding. Using this test piece, flammability, adhesion, and light resistance were measured. The results are shown in Table 2.
【0021】[0021]
【表2】 [Table 2]
【0022】実施例9及び比較例3〜4
実施例1で得られた難燃剤A及び比較のためにYDB−
406、TB−62(前出)をそれぞれ65%のトルエ
ン溶液に調整した。また桐油変性フェノール樹脂(市販
品)の50%メタノール溶液に各難燃剤のトルエン溶液
及びトリフェニルホスフェートを固形分比で75/20
/5(フェノール樹脂/難燃剤/ホスフェート)の割合
で混合溶解し、紙積層用クラフト紙に樹脂量50%にな
るように含浸させ乾燥した。得られた紙基材8枚を加熱
加圧して積層し、厚さ1.6mmの積層板を得た。得ら
れた樹脂ワニス及び紙基材積層板の物性を表3に示す。[0022] For Example 9及 beauty Comparative Example 3-4 obtained in Example 1 was flame retardant A及 beauty compared YDB-
Each of 406 and TB-62 (described above) was adjusted to a 65% toluene solution. In addition, a 50% methanol solution of tung oil-modified phenol resin (commercial product) was mixed with toluene solution of each flame retardant and triphenyl phosphate in a solid content ratio of 75/20.
/ 5 (phenol resin / flame retardant / phosphate) were mixed and dissolved, and the kraft paper for paper lamination was impregnated with the resin amount of 50% and dried. Eight sheets of the obtained paper base materials were heated and pressed to be laminated to obtain a laminated board having a thickness of 1.6 mm. Table 3 shows the physical properties of the obtained resin varnish and the paper base laminate.
【0023】[0023]
【表3】 [Table 3]
【0024】表1、表2及び表3の結果より、本発明の
難燃剤は臭素化エポキシオリゴマータイプでありなが
ら、臭素含有量の低下を最小限とし、しかも耐光性を維
持しつつ金属付着性が改良された特性を付与することが
できた。From the results shown in Tables 1, 2 and 3, the flame retardant of the present invention is a brominated epoxy oligomer type, but the reduction of the bromine content is minimized and the metal adhesion is maintained while maintaining the light resistance. Were able to impart improved properties.
【0025】[0025]
【発明の効果】以上述べたように本発明にかかる難燃剤
を配合した樹脂組成物は、高度の難燃性と共に耐光性、
耐熱性、流動性を有し、射出成型機や押出機のスクリュ
ー、シリンダー、金型などの金属部分に付着性しない等
のすぐれた効果を奏する。As described above, the resin composition containing the flame retardant according to the present invention has high flame retardancy, light resistance and
It has excellent heat resistance and fluidity and does not adhere to metal parts such as screws, cylinders, and molds of injection molding machines and extruders.
フロントページの続き (56)参考文献 特開 平6−145533(JP,A) 特開 昭54−3900(JP,A) (58)調査した分野(Int.Cl.7,DB名) C08L 1/00 - 101/16 Continuation of the front page (56) Reference JP-A-6-145533 (JP, A) JP-A-54-3900 (JP, A) (58) Fields investigated (Int.Cl. 7 , DB name) C08L 1 / 00-101/16
Claims (2)
燃剤であって、末端基X、YはA及びBまたはCから成
り、その内Aが少なくとも10モル%から25.1モル
%であり、残基はB、Cの内から選択される単一または
二種の組み合わせであってもよく、nは整数で0≦n<
30である。 【化1】 1. A bromine-containing flame retardant represented by the following general formula (1), wherein the terminal groups X and Y consist of A and B or C, in which A is at least 10 mol% to 25.1 mol%. And the residue may be a single or a combination of two selected from B and C, n is an integer and 0 ≦ n <
Thirty. [Chemical 1]
有する事を特徴とする難燃性樹脂組成物。2. A flame-retardant resin composition containing the bromine-containing flame retardant shown in claim 1.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP03036295A JP3518026B2 (en) | 1995-02-20 | 1995-02-20 | Flame retardant and flame retardant resin composition containing the same |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP03036295A JP3518026B2 (en) | 1995-02-20 | 1995-02-20 | Flame retardant and flame retardant resin composition containing the same |
Publications (2)
Publication Number | Publication Date |
---|---|
JPH08225677A JPH08225677A (en) | 1996-09-03 |
JP3518026B2 true JP3518026B2 (en) | 2004-04-12 |
Family
ID=12301761
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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JP03036295A Expired - Fee Related JP3518026B2 (en) | 1995-02-20 | 1995-02-20 | Flame retardant and flame retardant resin composition containing the same |
Country Status (1)
Country | Link |
---|---|
JP (1) | JP3518026B2 (en) |
-
1995
- 1995-02-20 JP JP03036295A patent/JP3518026B2/en not_active Expired - Fee Related
Also Published As
Publication number | Publication date |
---|---|
JPH08225677A (en) | 1996-09-03 |
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