JP2912196B2 - Insulated wire for soldering - Google Patents
Insulated wire for solderingInfo
- Publication number
- JP2912196B2 JP2912196B2 JP7164020A JP16402095A JP2912196B2 JP 2912196 B2 JP2912196 B2 JP 2912196B2 JP 7164020 A JP7164020 A JP 7164020A JP 16402095 A JP16402095 A JP 16402095A JP 2912196 B2 JP2912196 B2 JP 2912196B2
- Authority
- JP
- Japan
- Prior art keywords
- insulated wire
- insulating layer
- acid
- paint
- insulating
- 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.)
- Expired - Fee Related
Links
Landscapes
- Insulated Conductors (AREA)
- Paints Or Removers (AREA)
- Macromolecular Compounds Obtained By Forming Nitrogen-Containing Linkages In General (AREA)
- Organic Insulating Materials (AREA)
Description
【0001】[0001]
【産業上の利用分野】本発明は、電子機器用巻線等に好
適な半田付け性及び耐熱性に優れる絶縁電線に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an insulated wire excellent in solderability and heat resistance suitable for windings of electronic equipment.
【0002】[0002]
【従来技術とその課題】従来、電子機器用巻線として、
ポリウレタン絶縁電線が汎用されている。これは、ポリ
ウレタン絶縁層が熱により溶融・分解するため、該絶縁
層を剥離せずにそのまま半田付けできることによる。し
かるに、近年においては、電子機器類の小型化及び高性
能化が進展し、これに付随して高温雰囲気中で機能させ
る用途も拡がりつつあり、このような用途に供する上で
当然に各種使用部品に高い耐熱性が要求されるが、従来
汎用のポリウレタン絶縁電線では耐熱性面より最早対処
できない用途も少なくない。2. Description of the Related Art Conventionally, as windings for electronic devices,
Polyurethane insulated wires are widely used. This is because the polyurethane insulating layer is melted and decomposed by heat, so that the insulating layer can be soldered without peeling. However, in recent years, the miniaturization and high performance of electronic devices have been progressing, and accompanying this, applications for functioning in a high-temperature atmosphere are also expanding. Although high heat resistance is required, there are many applications where conventional polyurethane insulated wires can no longer cope with the heat resistance.
【0003】そこで、上記ポリウレタン絶縁電線に代わ
るものとして、同じく絶縁層を剥離せずに半田付け可能
な変性ポリエステル絶縁電線や変性ポリエステルイミド
絶縁電線等が開発され、既に一部用途に使用されてい
る。Therefore, as an alternative to the polyurethane insulated wire, a modified polyester insulated wire and a modified polyesterimide insulated wire which can be soldered without peeling off the insulating layer have been developed and are already used for some applications. .
【0004】しかしながら、これらの変性ポリエステル
絶縁電線や変性ポリエステルイミド絶縁電線でも、最近
における電子機器類の高温適用分野への用途の拡がりに
は充分に対応できず、更に高い耐熱性を備えて、且つ半
田付け性についても絶縁層の分解が速く操作性のよい絶
縁電線の開発が強く要望されている。However, these modified polyester insulated wires and modified polyester imide insulated wires cannot sufficiently cope with the recent widespread use of electronic equipment in high-temperature applications, and have even higher heat resistance. Regarding the solderability, there is a strong demand for the development of an insulated wire in which the insulating layer is quickly decomposed and has good operability.
【0005】そこで、本出願人は先に、無水トリメリッ
ト酸及び脂肪族ジカルボン酸とジイソシアネート化合物
とを反応させて得られるポリアミドイミド塗料を塗布、
焼付けてなる絶縁層を有する変性ポリアミドイミド絶縁
電線を開発し、特願平5−181725号として提案し
ている。この絶縁電線は、非常に高い耐熱性を備えると
共に、半田付けに際して絶縁層の分解が速く組み付けの
操作性に優れ、最近の高温度下で使用される電子機器類
の巻線として充分な適性を示し、また耐熱性と半田付け
性の両性能を用途に応じて調整できるという優れた特徴
があり、既に実用に供されている。Accordingly, the present applicant has previously applied a polyamideimide paint obtained by reacting trimellitic anhydride and an aliphatic dicarboxylic acid with a diisocyanate compound.
A modified polyamide-imide insulated wire having a baked insulating layer has been developed and proposed as Japanese Patent Application No. 5-181725. This insulated wire has a very high heat resistance, the insulation layer is quickly decomposed during soldering, and the assembling operability is excellent, making it suitable for windings of electronic devices used at high temperatures in recent years. In addition, it has an excellent feature that both the heat resistance and the solderability can be adjusted according to the application, and has already been put to practical use.
【0006】[0006]
【発明が解決しようとする課題】しかしながら、上記提
案に係る変性ポリアミドイミド絶縁電線は、上記の優れ
た特徴を有する反面、焼付け温度等の製造条件の許容幅
が非常に狭いため、焼付け時の温度制御等に困難を伴
い、高品質のものが安定的に得られにくく、特に焼付け
に用いる加熱炉が大型になると炉内温度の分布幅及び変
動幅を適正範囲に維持することが難しく、量産化に支障
をきたすという難点があった。However, while the modified polyamide-imide insulated wire according to the above proposal has the above-mentioned excellent characteristics, the allowable range of manufacturing conditions such as the baking temperature is very narrow, so that the temperature at the time of baking is low. High quality products are difficult to obtain stably with difficulties in control, etc., especially when the heating furnace used for baking becomes large, it is difficult to maintain the distribution width and fluctuation width of the furnace temperature in an appropriate range, and mass production Had the drawback of causing problems.
【0007】本発明の第一の目的は、上述の状況に鑑
み、前記提案に係る変性ポリアミドイミド絶縁電線の如
き優れた耐熱性と半田付け性の両性能を兼ね備え、しか
も焼付け温度等の製造条件の許容幅が広く、量産化に適
した半田付け用絶縁電線を提供することにある。また、
本発明の他の目的は、上記の優れた耐熱性及び半田付け
性、量産性に加え、耐軟化性、巻線性(耐摩耗性)、自
己融着性等の用途に応じた諸特性を備える半田付け用絶
縁電線を提供することにある。[0007] A first object of the present invention is to provide, in view of the above-mentioned circumstances, both excellent heat resistance and solderability, such as the modified polyamide-imide insulated wire according to the above-mentioned proposal, and furthermore, manufacturing conditions such as a baking temperature. An object of the present invention is to provide an insulated wire for soldering having a wide allowable range and suitable for mass production. Also,
Another object of the present invention is to provide, in addition to the above-described excellent heat resistance, solderability, and mass productivity, various properties according to applications such as softening resistance, winding property (abrasion resistance), and self-fusing property. An object of the present invention is to provide an insulated wire for soldering .
【0008】[0008]
【課題を解決するための手段】前記第一の目的におい
て、本発明の請求項1に係る半田付け用絶縁電線は、無
水トリメリット酸と脂肪族ジカルボン酸と芳香族ジカル
ボン酸の3種の酸成分よりなり、無水トリメリット酸/
全酸成分のモル比が0.2〜0.7の範囲で、且つ脂肪
族ジカルボン酸/全酸成分のモル比が0.2〜0.7の
範囲にある酸成分に対し、これら酸成分の合計モル数の
0.9〜1.1倍モルのジイソシアネート化合物を反応
させて得られるポリアミドイミド塗料を塗布、焼付けて
なる絶縁層を有する構成を採用したものである。In the first object SUMMARY OF THE INVENTION, soldering insulated wire according to claim 1 of the present invention, three of trimellitic anhydride and lipid aliphatic dicarboxylic acid and an aromatic dicarboxylic acid Acid component, trimellitic anhydride /
When the molar ratio of all acid components is in the range of 0.2 to 0.7 and the fat is
Group dicarboxylic acid / total acid component molar ratio of 0.2 to 0.7
Based on the acid component in the range, the total number of moles of 0.9 to 1.1 times the moles of diisocyanate compounds such acid components by reacting polyamideimide paint which is obtained by coating, a structure having an insulating layer formed by baking It has been adopted.
【0009】また前記第二の目的において、本発明の請
求項2の半田付け用絶縁電線は、上記請求項1に記載の
半田付け用絶縁電線上に、ポリイミド系絶縁塗料、又は
下地とは異なるポリアミドイミド系絶縁塗料を塗布、焼
付けてなる絶縁層が形成された構成を採用したものであ
る。[0009] In the second object, the insulated wire for soldering according to the second aspect of the present invention is the above-mentioned insulated wire according to the first aspect.
A configuration in which an insulating layer formed by applying and baking a polyimide-based insulating paint or a polyamide-imide-based insulating paint different from the base on an insulated electric wire for soldering is adopted.
【0010】同目的において、本発明の請求項3の半田
付け用絶縁電線は、上記請求項1に記載の絶縁電線上
に、ポリアミド系絶縁塗料を塗布、焼付けてなる絶縁層
が形成された構成を採用したものである。[0010] For the same purpose, the solder according to claim 3 of the present invention.
Give for insulated wire, on an insulating wire according to the claim 1, in which the polyamide-based insulating paint application, adopts a configuration in which baking becomes an insulating layer is formed.
【0011】同目的において、本発明の請求項4の半田
付け用絶縁電線は、上記請求項1に記載の絶縁電線上
に、自己融着性絶縁塗料を塗布、焼付けてなる絶縁層が
形成された構成を採用したものである。[0011] For the same purpose, the solder according to claim 4 of the present invention.
Give for insulated wire, on an insulating wire according to the claim 1, in which the self fusing insulating paint application, adopts the configuration baked comprising an insulating layer is formed.
【0012】[0012]
【発明の細部構成と作用】本発明における絶縁層形成用
塗料のポリアミドイミドは、反応成分に無水トリメリッ
ト酸とジアミンを用いる一般的なポリアミドイミドとは
異なり、無水トリメリット酸及びジカルボン酸とジイソ
シアネート化合物とを反応させて得られるものであり、
主鎖中に無水トリメリット酸の酸無水物構造とイソシア
ネート基との反応によるイミド結合と、無水トリメリッ
ト酸及びジカルボン酸のカルボキシル基とイソシアネー
ト基の反応によるアミド結合を有している。しかも、ジ
カルボン酸成分として脂肪族ジカルボン酸と芳香族ジカ
ルボン酸とが併用されているため、主鎖中に芳香族基と
脂肪族基が混在した構造を持っている。DETAILED DESCRIPTION OF THE INVENTION The polyamide imide of the coating material for forming an insulating layer according to the present invention is different from a general polyamide imide using trimellitic anhydride and a diamine as reaction components, unlike trimellitic anhydride, dicarboxylic acid and diisocyanate. It is obtained by reacting with a compound,
The main chain has an imide bond due to a reaction between an acid anhydride structure of trimellitic anhydride and an isocyanate group, and an amide bond due to a reaction between a carboxyl group of trimellitic anhydride and dicarboxylic acid and an isocyanate group. Moreover, since an aliphatic dicarboxylic acid and an aromatic dicarboxylic acid are used in combination as a dicarboxylic acid component, it has a structure in which an aromatic group and an aliphatic group are mixed in the main chain.
【0013】しかして、上記ポリアミドイミド塗料を塗
布・焼付けして得られる絶縁層を有する絶縁電線は、非
常に優れた耐熱性と半田付け性を兼ね備えると共に、該
塗料の焼付け温度の許容幅が広いため、大型の加熱炉を
用いても温度制御が容易であり、安定した高品質のもの
を量産できるという特徴がある。このような特徴が得ら
れる理由は明確ではないが、ポリアミドイミドを構成す
る上記3種の酸成分の内、無水トリメリット酸成分が不
足すると耐熱性の著しい低下を招き、脂肪族ジカルボン
酸成分が不足すると半田付け性の著しい低下を招き、ま
た芳香族ジカルボン酸成分が不足すると焼付け温度の許
容幅が著しく縮小することが判明しており、これらの点
からすれば、無水トリメリット酸に基づくポリイミド構
造によって優れた耐熱性が担われると共に、脂肪族ジカ
ルボン酸によって良好な半田付け性を確保するための高
い熱分解性が発揮され、更に芳香族ジカルボン酸成分が
上記の耐熱性と半田付け性とのバランスを幅広く保つの
に寄与しているものと推測される。Thus, an insulated wire having an insulating layer obtained by applying and baking the above-mentioned polyamideimide paint has not only excellent heat resistance and solderability, but also has a wide allowable range of baking temperature of the paint. Therefore, even if a large heating furnace is used, temperature control is easy, and stable high-quality products can be mass-produced. It is not clear why such a feature is obtained, but when the trimellitic anhydride component is insufficient among the above-mentioned three acid components constituting the polyamideimide, the heat resistance is remarkably reduced, and the aliphatic dicarboxylic acid component is reduced. Insufficiency leads to a remarkable decrease in solderability, and insufficiency of the aromatic dicarboxylic acid component has been found to significantly reduce the allowable range of the baking temperature.In view of these points, polyimide based on trimellitic anhydride is While the structure is responsible for excellent heat resistance, the aliphatic dicarboxylic acid exhibits high thermal decomposability to ensure good solderability, and the aromatic dicarboxylic acid component has the above heat resistance and solderability. It is presumed that it has contributed to maintaining a wide balance of.
【0014】上記のポリアミドイミド塗料を調製するに
は、無水トリメリット酸、脂肪族ジカルボン酸、芳香族
ジカルボン酸の3種の酸成分と、ジイソシアネート化合
物とを適当な溶媒中に溶解させ、加熱して反応させれば
よいが、良好なポリアミドイミドを合成する上でジイソ
シアネート化合物と上記3種の酸成分と略等モルで反応
させる必要があり、このために本発明ではジイソシアネ
ート化合物の使用量を上記酸成分の合計モル数に対して
0.9〜1.1倍モルの範囲とする。すなわち、このジ
イソシアネート化合物の使用量が0.9倍モル未満にな
ると形成される絶縁層の外観と可撓性が悪化し、逆に
1.1倍モルを越えるとゲル化して絶縁塗料として使用
不能になる。In order to prepare the above polyamideimide paint, three kinds of acid components, trimellitic anhydride, aliphatic dicarboxylic acid and aromatic dicarboxylic acid, and a diisocyanate compound are dissolved in a suitable solvent and heated. However, in order to synthesize a good polyamideimide, it is necessary to react the diisocyanate compound with the above-mentioned three kinds of acid components in an approximately equimolar amount. The molar ratio is in the range of 0.9 to 1.1 times the total number of moles of the acid component. That is, when the amount of the diisocyanate compound used is less than 0.9 mole, the appearance and flexibility of the formed insulating layer are deteriorated. become.
【0015】一方、無水トリメリット酸の使用比率は、
無水トリメリット酸/全酸成分のモル比として0.2〜
0.7の範囲が好ましく、このモル比が0.2未満にな
ると耐熱性の低下が著しく、逆に該モル比が0.7を越
えると半田付け性が著しく低下する。On the other hand, the use ratio of trimellitic anhydride is as follows:
Trimellitic anhydride / total acid component molar ratio of 0.2 to 0.2
The range of 0.7 is preferable. When the molar ratio is less than 0.2, the heat resistance is significantly reduced, and when the molar ratio exceeds 0.7, the solderability is significantly reduced.
【0016】また脂肪族ジカルボン酸の使用比率は、脂
肪族ジカルボン酸/全酸成分のモル比として0.2〜
0.7の範囲の好ましく、このモル比が0.2未満にな
ると半田付け性が不充分になり、逆に該モル比が0.7
を越えると得られるポリアミドイミド塗料の焼付け温度
の許容幅が著しく縮小すると共に耐熱性も低下する。The aliphatic dicarboxylic acid is used in a molar ratio of aliphatic dicarboxylic acid / total acid component of 0.2 to 0.2.
When the molar ratio is less than 0.2, the solderability becomes insufficient. Conversely, when the molar ratio is 0.7
If the temperature exceeds the above range, the allowable range of the baking temperature of the obtained polyamide-imide paint will be remarkably reduced, and the heat resistance will also be reduced.
【0017】上記ポリアミドイミドの合成に用いる脂肪
族ジカルボン酸としては、飽和ジカルボン酸であれば特
に制限はないが、コハク酸、アジピン酸、アライゼン
酸、セバシン酸、ドデカン二酸等のアルキレン基の炭素
数が2以上であるものが好適であり、これらは2種以上
を併用しても差支えない。The aliphatic dicarboxylic acid used in the synthesis of the polyamideimide is not particularly limited as long as it is a saturated dicarboxylic acid, but the carbon atom of the alkylene group such as succinic acid, adipic acid, alaisenic acid, sebacic acid and dodecane diacid is preferred. Those having a number of 2 or more are suitable, and these may be used in combination of two or more.
【0018】また同じく、芳香族ジカルボン酸として
は、テレフタル酸、イソフタル酸、フタル酸等が好適で
あるが、複数の芳香環を有するものも使用可能であり、
これらは2種以上を併用してもよい。後者の複数の芳香
環を有するジカルボン酸としては、4・4’−ビフェニ
ルジカルボン酸、3・3’−メチレン二安息香酸、4・
4’−メチレン二安息香酸、4・4’−オキシ二安息香
酸、4・4’−チオ二安息香酸、4・4’−カルボニル
二安息香酸、4・4’−スルホニル二安息香酸、1・4
−ナフタレンジカルボン酸、1・5−ナフタレンジカル
ボン酸、2・6−ナフタレンジカルボン酸等が挙げられ
る。Similarly, as the aromatic dicarboxylic acid, terephthalic acid, isophthalic acid, phthalic acid and the like are preferable, but those having a plurality of aromatic rings can also be used.
These may be used in combination of two or more. Examples of the latter dicarboxylic acid having a plurality of aromatic rings include 4,4′-biphenyldicarboxylic acid, 3,3′-methylene dibenzoic acid,
4'-methylene dibenzoic acid, 4.4'-oxydibenzoic acid, 4.4'-thiodibenzoic acid, 4.4'-carbonyldibenzoic acid, 4.4'-sulfonyl dibenzoic acid, 1. 4
-Naphthalenedicarboxylic acid, 1,5-naphthalenedicarboxylic acid, 2,6-naphthalenedicarboxylic acid and the like.
【0019】ジイソシアネート化合物としては、例え
ば、トルエンジイソシアネート、ヘキサメチレンジイソ
シアネート、4・4’−ジフェニルメタンジイソシアネ
ート、4・4’−ジフェニルエーテルジイソシアネー
ト、1・5−ナフタレンジイソシアネート等が挙げら
れ、これらについても2種以上を併用可能である。Examples of the diisocyanate compound include toluene diisocyanate, hexamethylene diisocyanate, 4,4'-diphenylmethane diisocyanate, 4,4'-diphenyl ether diisocyanate, and 1,5-naphthalenediisocyanate. Can be used together.
【0020】本発明の絶縁電線を製造するには、上記の
ポリアミドイミド塗料を、要すれば適当な希釈溶媒の添
加によって粘度調整した上で、常法に従って軟銅線等の
導体上に塗布・焼付けして絶縁層を形成すればよい。な
お絶縁層の厚さは導体の径によって異なるが、一般に5
〜50μm程度であり、通常は上記の塗布・焼付けを複
数回繰り返すことによって必要な厚さに設定される。In order to manufacture the insulated wire of the present invention, the above polyamideimide paint is adjusted in viscosity by adding a suitable diluting solvent, if necessary, and then applied and baked on a conductor such as a soft copper wire in a conventional manner. Then, an insulating layer may be formed. The thickness of the insulating layer varies depending on the diameter of the conductor.
The thickness is usually set to a necessary thickness by repeating the above-described coating and baking a plurality of times.
【0021】更に、本発明の絶縁電線は、上記のポリア
ミドイミド塗料を塗布・焼付けしてなる絶縁層上に、他
の絶縁塗料を塗布・焼付けして絶縁層を形成することに
より、絶縁層を二層以上としたものも包含する。このよ
うな二層以上の絶縁層を有する絶縁電線では、例えば、
耐軟化性、巻線性(耐摩耗性)、自己融着性等の用途上
から特に要求される諸特性がある場合に、これら諸特性
を上層側の絶縁層によって付与すると共に、既述した下
層側のポリアミドイミド絶縁層によって半田付け性を確
保することができる。Further, the insulated wire of the present invention is characterized in that the insulating layer is formed by applying and baking another insulating paint on the insulating layer formed by applying and baking the above polyamideimide paint. Also included are those having two or more layers. In such an insulated wire having two or more insulating layers, for example,
In the case where there are various characteristics particularly required for applications such as softening resistance, winding property (abrasion resistance), self-fusing property, etc., these characteristics are imparted by the upper insulating layer and the lower layer described above. Solderability can be ensured by the polyamideimide insulating layer on the side.
【0022】すなわち、上層側に用いる絶縁層が本来は
熱分解性に劣るものであって、これを導体上に直接設け
た絶縁電線では半田に接した際に導体に付着したまま炭
化して電気導通を阻害するような樹脂成分、つまり半田
付け不能な樹脂成分であっても、下層に熱分解性のよい
上記ポリアミドイミド絶縁層が存在すれば、この下層が
熱分解して導体表面から離脱するのに伴って上層も散逸
するから、結果として充分な半田付け性が得られること
になる。無論、上層を2層以上としても同様である。That is, the insulating layer used on the upper layer side is originally poor in thermal decomposability. In the case of an insulated wire directly provided on a conductor, when the insulated wire is in contact with the solder, it is carbonized while adhering to the conductor. Even if it is a resin component that inhibits conduction, that is, a resin component that cannot be soldered, if the polyamide-imide insulating layer having good thermal decomposability is present in the lower layer, this lower layer is thermally decomposed and detaches from the conductor surface. As a result, the upper layer is also dissipated, so that sufficient solderability is obtained as a result. Of course, the same applies when the upper layer is two or more layers.
【0023】しかして、上層の形成に用いる絶縁塗料に
は特に制約はないが、要求される諸特性に応じて例えば
次のものが好適である。すなわち、耐軟化性の如き耐熱
性を特に必要とする用途ではポリイミド系絶縁塗料なら
びに下層とは異なるポリアミドイミド系絶縁塗料、巻線
性(耐摩耗性)を特に必要とする用途では6,6−ナイ
ロン(ポリヘキサメチレンアジポアミド)の如きポリア
ミド系絶縁塗料、モーターやトランス等のコイルとして
巻線形態を自己保持させるための用途では自己融着性絶
縁塗料、がそれぞれ挙げられる。Although there is no particular limitation on the insulating paint used for forming the upper layer, for example, the following are suitable according to the required characteristics. That is, polyimide-based insulating coatings and polyamide-imide-based insulating coatings different from the lower layer are used for applications requiring heat resistance such as softening resistance, and 6,6-nylon is used for applications requiring winding property (abrasion resistance). Polyamide-based insulating paints such as (polyhexamethylene adipamide), and self-fusing insulating paints are used for self-holding the winding form as coils for motors and transformers.
【0024】なお、上記の下層とは異なるポリアミドイ
ミド系絶縁塗料としては、無水トリメリット酸とジアミ
ンとを反応させて得られる一般的なポリアミドイミドを
主成分とするものが好適であるが、他の構成成分よりな
るポリアミドイミド系塗料も使用可能である。また上記
の自己融着性絶縁塗料としては、従来より自己融着性絶
縁電線の絶縁層形成用として知られるものをいずれも使
用可能であり、例えば、ポリビニルブチラール樹脂、エ
ポキシ樹脂、フェノキシ樹脂、共重合ポリアミド樹脂、
ポリスルホン樹脂、ポリエステル樹脂、ポリエステルイ
ミド樹脂、これらの2種以上の混合樹脂等を主成分とす
る絶縁塗料が挙げられる。As the polyamide-imide-based insulating coating different from the above-mentioned lower layer, a coating mainly composed of a general polyamide-imide obtained by reacting trimellitic anhydride with a diamine is preferable. Polyamideimide-based coatings comprising the following components can also be used. As the self-fusing insulating coating, any of those conventionally known for forming an insulating layer of a self-fusing insulated wire can be used.For example, polyvinyl butyral resin, epoxy resin, phenoxy resin, Polymerized polyamide resin,
Examples of the insulating paint include a polysulfone resin, a polyester resin, a polyesterimide resin, and a mixed resin of two or more of these resins.
【0025】[0025]
【実施例】実施例1 無水トリメリット酸0.2モル、テレフタル酸0.1モ
ル、アジピン酸0.7モル、及び4・4’−ジフェニル
メタンジイソシアネート1.0モルをN−メチル−2−
ピロリドン中に添加し、100℃にて1時間、次いで1
20℃にて2時間反応させたのち、140℃まで1時間
をかけて昇温させ、この温度下で更に1時間反応させ、
冷却後にキシレンを加えて希釈し、ポリアミドイミド塗
料を調製した。この塗料を0.50mm径の軟銅線の表
面に複数回塗布・焼付けし、厚さ16μmの絶縁層を有
する絶縁電線を製造した。EXAMPLE 1 0.2 mol of trimellitic anhydride, 0.1 mol of terephthalic acid, 0.7 mol of adipic acid and 1.0 mol of 4.4'-diphenylmethane diisocyanate were added to N-methyl-2-methyl-2-diphenylmethane.
Pyrrolidone and added at 100 ° C. for 1 hour, then 1 hour
After reacting at 20 ° C. for 2 hours, the temperature was raised to 140 ° C. over 1 hour, and further reacted at this temperature for 1 hour.
After cooling, xylene was added and diluted to prepare a polyamide-imide paint. The paint was applied and baked a plurality of times on the surface of a 0.50 mm diameter soft copper wire to produce an insulated wire having an insulating layer having a thickness of 16 μm.
【0026】実施例2 無水トリメリット酸を0.4モル、テレフタル酸を0.
3モル、アジピン酸を0.3モル、とそれぞれ使用量を
変更した以外は、実施例1と同様にして絶縁電線を製造
した。Example 2 0.4 mol of trimellitic anhydride and 0.1 mol of terephthalic acid.
An insulated wire was manufactured in the same manner as in Example 1 except that the amounts used were 3 mol and 0.3 mol of adipic acid, respectively.
【0027】実施例3 無水トリメリット酸を0.7モル、テレフタル酸を0.
1モル、アジピン酸を0.2モル、とそれぞれ使用量を
変更した以外は、実施例1と同様にして絶縁電線を製造
した。Example 3 0.7 mol of trimellitic anhydride and 0.1 mol of terephthalic acid were used.
An insulated wire was manufactured in the same manner as in Example 1, except that the amounts used were 1 mol and 0.2 mol of adipic acid, respectively.
【0028】実施例4 テレフタル酸に代えてイソフタル酸0.1モル、アジピ
ン酸に代えてアライゼン酸0.2モルをそれぞれ使用し
た以外は、実施例3と同様にして絶縁電線を製造した。Example 4 An insulated wire was manufactured in the same manner as in Example 3, except that 0.1 mole of isophthalic acid was used instead of terephthalic acid, and 0.2 mole of alaisenic acid was used instead of adipic acid.
【0029】比較例1 無水トリメリット酸を0.1モル、テレフタル酸を0.
1モル、アジピン酸を0.8モル、とそれぞれ使用量を
変更した以外は、実施例1と同様にして絶縁電線を製造
した。COMPARATIVE EXAMPLE 1 0.1 mol of trimellitic anhydride and 0.1 mol of terephthalic acid were used.
An insulated wire was manufactured in the same manner as in Example 1, except that the amounts used were 1 mol and 0.8 mol of adipic acid, respectively.
【0030】比較例2 無水トリメリット酸を0.8モル、テレフタル酸を0.
1モル、アジピン酸を0.1モル、とそれぞれ使用量を
変更した以外は、実施例1と同様にして絶縁電線を製造
した。Comparative Example 2 0.8 mol of trimellitic anhydride and 0.1 mol of terephthalic acid were used.
An insulated wire was manufactured in the same manner as in Example 1, except that the amounts used were 1 mol and 0.1 mol of adipic acid, respectively.
【0031】比較例3 テレフタル酸を使用せず、且つ無水トリメリット酸を
0.5モル、アジピン酸を0.5モル、とそれぞれ使用
量を変更した以外は、実施例1と同様にして絶縁電線を
製造した。Comparative Example 3 Insulation was performed in the same manner as in Example 1 except that terephthalic acid was not used, and that the amounts used were 0.5 mol for trimellitic anhydride and 0.5 mol for adipic acid, respectively. Electric wires were manufactured.
【0032】比較例4 ポリアミドイミド塗料に代えて変性ポリエステルイミド
塗料(大日精化社製の商品名FS−2)を使用し、実施
例1と同様にして厚さ16μmの絶縁層を有する絶縁電
線を製造した。Comparative Example 4 An insulated wire having a 16 μm-thick insulating layer in the same manner as in Example 1 except that a modified polyesterimide paint (trade name: FS-2 manufactured by Dainichi Seika Co., Ltd.) was used instead of the polyamideimide paint. Was manufactured.
【0033】比較例5 4・4’−ジフェニルメタンジイソシアネートの使用量
を0.8モルに変更した以外は、実施例1と同様にして
絶縁電線を製造した。Comparative Example 5 An insulated wire was manufactured in the same manner as in Example 1 except that the amount of 4,4'-diphenylmethane diisocyanate was changed to 0.8 mol.
【0034】比較例6 4・4’−ジフェニルメタンジイソシアネートの使用量
を1.2モルに変更した以外は実施例1と同様にして反
応を行ったところ、生成物がゲル化してしまい、ポリア
ミドイミド塗料を調製できなかった。Comparative Example 6 The reaction was carried out in the same manner as in Example 1 except that the amount of 4,4′-diphenylmethane diisocyanate was changed to 1.2 mol. Could not be prepared.
【0035】実施例5 実施例3で用いたポリアミドイミド絶縁塗料を0.50
mm径の軟銅線の表面に複数回塗布・焼付けして厚さ8
μmの絶縁層を形成したのち、この絶縁層上に更にポリ
イミド系絶縁塗料(イー・アイ・デュポン社製の商品名
Pyre ML)を複数回塗布・焼付けして厚さ8μm
の絶縁層を形成し、二層構造の絶縁層を有する絶縁電線
を製造した。Example 5 The polyamide-imide insulating paint used in Example 3 was used in an amount of 0.50.
Apply and bake multiple times on the surface of annealed copper wire
After forming an insulating layer having a thickness of 8 μm, a polyimide-based insulating coating (Pyre ML manufactured by EI DuPont) is applied and baked a plurality of times on the insulating layer.
Was formed, and an insulated wire having an insulating layer having a two-layer structure was manufactured.
【0036】比較例7 下層の絶縁層形成用として比較例4で用いた変性ポリエ
ステルイミド塗料を用いた以外は、実施例5と同様にし
て二層構造の絶縁層を有する絶縁電線を製造した。Comparative Example 7 An insulated wire having a two-layered insulating layer was produced in the same manner as in Example 5, except that the modified polyesterimide paint used in Comparative Example 4 was used for forming a lower insulating layer.
【0037】実施例6 実施例3で用いたポリアミドイミド絶縁塗料を0.50
mm径の軟銅線の表面に複数回塗布・焼付けして厚さ8
μmの絶縁層を形成したのち、この絶縁層上に更にポリ
アミドイミド系絶縁塗料(日立化成社製の商品名HI4
05)を複数回塗布・焼付けして厚さ8μmの絶縁層を
形成し、二層構造の絶縁層を有する絶縁電線を製造し
た。Example 6 The polyamide-imide insulating paint used in Example 3 was used in an amount of 0.50.
Apply and bake multiple times on the surface of annealed copper wire
After forming an insulating layer having a thickness of μm, a polyamide-imide-based insulating paint (trade name: HI4 manufactured by Hitachi Chemical Co., Ltd.) is further formed on the insulating layer.
05) was applied and baked a plurality of times to form an insulation layer having a thickness of 8 μm, thereby producing an insulated wire having a two-layer insulation layer.
【0038】比較例8 下層の絶縁層形成用として比較例4で用いた変性ポリエ
ステルイミド塗料を用いた以外は、実施例6と同様にし
て二層構造の絶縁層を有する絶縁電線を製造した。Comparative Example 8 An insulated wire having a two-layered insulating layer was produced in the same manner as in Example 6, except that the modified polyesterimide paint used in Comparative Example 4 was used for forming a lower insulating layer.
【0039】実施例7 実施例3で用いたポリアミドイミド絶縁塗料を0.50
mm径の軟銅線の表面に複数回塗布・焼付けして厚さ1
4μmの絶縁層を形成したのち、この絶縁層上に更に
6,6−ナイロン絶縁塗料(東レ社製の商品名アミラン
CM3001Nをクレゾール酸に溶解したもの)を複数
回塗布・焼付けして厚さ2μmの絶縁層を形成し、二層
構造の絶縁層を有する絶縁電線を製造した。Example 7 The polyamide-imide insulating paint used in Example 3 was used in an amount of 0.50.
Apply and bake multiple times on the surface of a soft copper wire with a diameter of 1 mm to obtain a thickness of 1
After forming an insulating layer of 4 μm, a 6,6-nylon insulating coating (a solution of Amilan CM3001N (trade name, manufactured by Toray Co., Ltd.) in cresylic acid) is further applied and baked on this insulating layer to a thickness of 2 μm. Was formed, and an insulated wire having an insulating layer having a two-layer structure was manufactured.
【0040】比較例9 下層の絶縁層形成用として比較例4で用いた変性ポリエ
ステルイミド塗料を用いた以外は、実施例7と同様にし
て二層構造の絶縁層を有する絶縁電線を製造した。Comparative Example 9 An insulated wire having a two-layered insulating layer was manufactured in the same manner as in Example 7, except that the modified polyesterimide paint used in Comparative Example 4 was used for forming a lower insulating layer.
【0041】実施例8 実施例3で用いたポリアミドイミド絶縁塗料を0.50
mm径の軟銅線の表面に複数回塗布・焼付けして厚さ8
μmの絶縁層を形成したのち、この絶縁層上に更にエポ
キシ系自己融着性絶縁塗料(日本触媒社製の商品名アイ
ソポキシ506)を複数回塗布・焼付けして厚さ8μm
の融着層を形成し、二層構造の絶縁層を有する自己融着
性絶縁電線を製造した。Example 8 The polyamide-imide insulating paint used in Example 3 was used in an amount of 0.50.
Apply and bake multiple times on the surface of annealed copper wire
After forming an insulating layer having a thickness of 8 μm, an epoxy-based self-fusing insulating coating (Isopoxy 506, manufactured by Nippon Shokubai Co., Ltd.) is further applied and baked on the insulating layer several times.
To form a self-fusing insulated wire having a two-layer insulating layer.
【0042】比較例10 下層の絶縁層形成用として比較例4で用いた変性ポリエ
ステルイミド塗料を用いた以外は、実施例8と同様にし
て二層構造の絶縁層を有する絶縁電線を製造した。Comparative Example 10 An insulated wire having a two-layered insulating layer was produced in the same manner as in Example 8, except that the modified polyesterimide paint used in Comparative Example 4 was used for forming a lower insulating layer.
【0043】実施例9 自己融着性絶縁塗料としてポリアミド系自己融着性絶縁
塗料(大日精化社製の商品名PA−27)を用いた以外
は、実施例8と同様にして二層構造の絶縁層を有する自
己融着性絶縁電線を製造した。Example 9 A two-layer structure was prepared in the same manner as in Example 8 except that a polyamide-based self-fusing insulating paint (trade name: PA-27 manufactured by Dainichi Seika Co., Ltd.) was used as the self-fusing insulating paint. A self-fusing insulated wire having an insulating layer was manufactured.
【0044】比較例11 下層の絶縁層形成用として比較例4で用いた変性ポリエ
ステルイミド塗料を用いた以外は、実施例9と同様にし
て二層構造の絶縁層を有する絶縁電線を製造した。Comparative Example 11 An insulated wire having a two-layered insulating layer was manufactured in the same manner as in Example 9 except that the modified polyesterimide paint used in Comparative Example 4 was used for forming a lower insulating layer.
【0045】以上の実施例及び比較例の各絶縁電線(比
較例6を除く)について、外観、可撓性、耐軟化、耐熱
衝撃、半田付け性、適正焼付け温度幅(実施例1〜5と
比較例3)、耐磨耗(実施例7と比較例9)、融着性
(実施例8,9と比較例10,11)の各試験を行っ
た。その結果を後記表1及び表2に示す。なお、各項目
の試験方法は次のとおりである。The appearance, flexibility, softening resistance, heat shock resistance, solderability, and proper baking temperature range (except for Examples 1 to 5) were obtained for each of the insulated wires (excluding Comparative Example 6) in the above Examples and Comparative Examples. Each test of Comparative Example 3), abrasion resistance (Example 7 and Comparative Example 9), and fusing property (Examples 8 and 9 and Comparative Examples 10 and 11) were performed. The results are shown in Tables 1 and 2 below. The test method for each item is as follows.
【0046】 外 観 ・・・・・JIS C 3003 4. 可 撓 性 ・・・・・JIS C 3003 8.1(2) 耐熱衝撃 ・・・・・JIS C 3003 13.1(2) 耐軟化 ・・・・・JIS C 3003 12.(2) 半田付け性 ・・・・・JIS C 3003 16. 耐摩耗 ・・・・・JIS C 3003 10. 融着性 ・・・・・JIS C 3003 17. 適正焼付け温度幅・・・耐軟化温度340℃以上、半田
付け性460℃で6秒以下の特性を満足する焼付け温度
の幅(線速は一定)。Appearance: JIS C 3003 4. Flexibility JIS C 3003 8.1 (2) Thermal shock JIS C 3003 13.1 (2) Softening JIS C 3003 12. (2) Solderability JIS C 3003 16. Abrasion resistance JIS C 3003 10. Fusing property JIS C 3003 17. Appropriate baking temperature range: A baking temperature range that satisfies the characteristics of softening temperature of 340 ° C or higher and solderability of 460 ° C for 6 seconds or less (linear speed is constant).
【0047】[0047]
【表1】 [Table 1]
【0048】表1の結果から、単層の絶縁層を有する本
発明の絶縁電線(実施例1〜4)は、従来の半田付け可
能な変性ポリエステルイミド絶縁電線(比較例4)に比
べて耐熱性及び半田付け性の両性能共に格段に優れ、ま
た無水トリメリット酸及び脂肪族ジカルボン酸とジイソ
シアネート化合物とを反応させて得られるポリアミドイ
ミド絶縁塗料にて形成した絶縁層を有する絶縁電線(比
較例3)に比較しても、同等の半田付け性と同等以上の
耐熱性を具備する上、ポリアミドイミド絶縁塗料の適正
焼付け温度幅が50〜70℃と略2倍となり、量産化に
適し、他の絶縁電線として必要な諸性能についても満足
できることが明らかである。From the results shown in Table 1, the insulated wires of the present invention having a single insulating layer (Examples 1 to 4) had a higher heat resistance than the conventional solderable modified polyesterimide insulated wires (Comparative Example 4). Insulated wire having an insulating layer formed of a polyamideimide insulating paint obtained by reacting trimellitic anhydride and aliphatic dicarboxylic acid with a diisocyanate compound (comparative example) Compared to 3), it has the same solderability and the same or higher heat resistance, and the appropriate baking temperature range of the polyamide-imide insulating paint is about twice as high as 50 to 70 ° C, making it suitable for mass production. It is clear that the various performances required for the insulated wire can be satisfied.
【0049】また実施例1〜4と比較例1,2との対比
より、絶縁層形成に用いるポリアミドイミド塗料の構成
成分である無水トリメリット酸/全酸成分のモル比を
0.2〜0.7の範囲、脂肪族ジカルボン酸/全酸成分
のモル比を0.2〜0.7の範囲内とすることにより、
耐熱性と半田付け性を共に満足する絶縁電線が得られ、
更に実施例1〜3の対比から、上記構成成分の比率を上
記範囲内において変化させることにより、耐熱性と半田
付け性の両特性を共に高度な領域で自在に制御可能であ
ることが判る。なお、比較例5の絶縁電線の特性から明
らかなように、ポリアミドイミド絶縁塗料の調製時のジ
イソシアネート化合物の使用量が酸成分に対して過少で
ある場合は、形成される絶縁層の外観及び耐熱衝撃性が
悪化することになる。From the comparison between Examples 1 to 4 and Comparative Examples 1 and 2, the molar ratio of trimellitic anhydride / total acid component, which is a component of the polyamide-imide paint used for forming the insulating layer, was 0.2 to 0. 0.7, and the molar ratio of aliphatic dicarboxylic acid / total acid component is in the range of 0.2 to 0.7.
An insulated wire that satisfies both heat resistance and solderability is obtained.
Further, from the comparison of Examples 1 to 3, it can be seen that by changing the ratio of the above constituent components within the above range, both characteristics of heat resistance and solderability can be freely controlled in a high range. As apparent from the characteristics of the insulated wire of Comparative Example 5, when the amount of the diisocyanate compound used in preparing the polyamide-imide insulating coating was too small relative to the acid component, the appearance and heat resistance of the formed insulating layer were reduced. The impact properties will deteriorate.
【0050】[0050]
【表2】 [Table 2]
【0051】表2の結果から、半田付け可能な絶縁材料
の下層と他の絶縁材料の上層とからなる二層構造の絶縁
層を有する絶縁電線では、特定の下層を特定のポリアミ
ドイミドとした本発明の絶縁電線(実施例5〜9)は、
下層を従来の半田付け可能な変性ポリエステルイミドと
した絶縁電線(比較例7〜11)に比較して、上層がポ
リイミド、ポリアミドイミド、ポリアミド、熱融着性材
料のいずれの絶縁層であっても、耐熱性が大幅に向上す
ると共に半田付け性も改善しており、他の諸特性でも遜
色なく、特に上層がポリアミド(実施例7,比較例9)
である場合には耐摩耗性も格段に向上していることが判
る。From the results in Table 2, it can be seen that in the case of an insulated wire having a two-layered insulating layer consisting of a lower layer of an insulating material which can be soldered and an upper layer of another insulating material, the specific lower layer is made of a specific polyamideimide. The insulated wire of the invention (Examples 5 to 9)
Compared with the conventional insulated wires in which the lower layer is a modified solderable polyesterimide which can be soldered (Comparative Examples 7 to 11), even if the upper layer is any of insulating layers of polyimide, polyamideimide, polyamide, and heat-fusible material, In addition, the heat resistance is greatly improved and the solderability is also improved, and other characteristics are as good as above. Particularly, the upper layer is made of polyamide (Example 7, Comparative Example 9).
In the case of, it can be seen that the abrasion resistance is also significantly improved.
【0052】[0052]
【発明の効果】請求項1の発明によれば、高い耐熱性と
優れた半田付け性をバランスよく兼ね備え、最近の高温
度下で使用される電子機器類の巻線用としても充分に適
用でき、しかも焼付け温度等の製造条件の許容幅が広
く、高品質のものを安定的に得ることが可能であり、量
産化に適した半田付け用絶縁電線が提供される。According to the first aspect of the present invention, it has high heat resistance and excellent solderability in a well-balanced manner, and can be sufficiently applied to windings of electronic devices used at recent high temperatures. In addition, there is provided a soldering insulated wire suitable for mass production, which has a wide allowable range of manufacturing conditions such as a baking temperature and can stably obtain a high-quality product.
【0053】請求項2の発明によれば、極めて高い耐熱
性を備え、且つ半田付け可能な絶縁電線が提供される。According to the second aspect of the present invention, an insulated wire having extremely high heat resistance and capable of being soldered is provided.
【0054】請求項3の発明によれば、特に耐摩耗性が
大きく巻線性に優れ、しかも高い耐熱性と優れた半田付
け性を兼ね備えた絶縁電線が提供される。According to the third aspect of the present invention, there is provided an insulated wire having particularly high abrasion resistance and excellent winding properties, and having both high heat resistance and excellent solderability.
【0055】請求項4の発明によれば、自己融着性絶縁
電線として、高い耐熱性と優れた半田付け性を兼ね備え
たものが提供される。According to the fourth aspect of the present invention, there is provided a self-fusing insulated wire having both high heat resistance and excellent solderability.
───────────────────────────────────────────────────── フロントページの続き (72)発明者 後藤 晶広 兵庫県尼崎市猪名寺2丁目19番1号 第 一電工株式会社 技術部内 (72)発明者 石本 和久 兵庫県尼崎市猪名寺2丁目19番1号 第 一電工株式会社 技術部内 (72)発明者 田井 誠 兵庫県尼崎市猪名寺2丁目19番1号 第 一電工株式会社 技術部内 (56)参考文献 特開 昭55−139716(JP,A) 特開 平6−103822(JP,A) 特開 昭58−28105(JP,A) 特開 昭60−223868(JP,A) 特公 昭46−22982(JP,B1) (58)調査した分野(Int.Cl.6,DB名) H01B 7/02 C08G 73/16 C09D 179/08 H01B 3/30 H01B 7/34 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Akihiro Goto 2-191-1, Inaji, Amagasaki-shi, Hyogo Pref. Ichigo Electric Engineering Co., Ltd. Daiichi Denko Corporation Engineering Department (72) Inventor Makoto Tai 2-9-1-1, Inaji, Amagasaki City, Hyogo Prefecture Daiichi Denko Corporation Engineering Department (56) References JP-A-55-139716 (JP, A) JP-A-6-103822 (JP, A) JP-A-58-28105 (JP, A) JP-A-60-223868 (JP, A) JP-B-46-22982 (JP, B1) (58) Fields investigated (Int) .Cl. 6 , DB name) H01B 7/02 C08G 73/16 C09D 179/08 H01B 3/30 H01B 7/34
Claims (4)
酸と芳香族ジカルボン酸の3種の酸成分よりなり、無水
トリメリット酸/全酸成分のモル比が0.2〜0.7の
範囲で、且つ脂肪族ジカルボン酸/全酸成分のモル比が
0.2〜0.7の範囲にある酸成分に対し、これら酸成
分の合計モル数の0.9〜1.1倍モルのジイソシアネ
ート化合物を反応させて得られるポリアミドイミド塗料
を塗布、焼付けてなる絶縁層を有する半田付け用絶縁電
線。1. A consists of three acid component trimellitic anhydride and lipid aliphatic dicarboxylic acid and an aromatic dicarboxylic acid, anhydride
When the molar ratio of trimellitic acid / total acid component is 0.2 to 0.7
And the molar ratio of aliphatic dicarboxylic acid / total acid component is within
A polyamideimide paint obtained by reacting a diisocyanate compound having a mole ratio of 0.9 to 1.1 times the total number of moles of these acid components with an acid component in the range of 0.2 to 0.7 is applied and baked. An insulated wire for soldering having an insulating layer comprising:
ミド系絶縁塗料、又は下地とは異なるポリアミドイミド
系絶縁塗料を塗布、焼付けてなる絶縁層が形成された半
田付け用絶縁電線。2. The insulated wire according to claim 1,
Amide-based insulating paint or polyamideimide different from the base
Half with an insulating layer formed by applying and baking
Insulated wire for padding.
ミド系絶縁塗料を塗布、焼付けてなる絶縁層が形成され
た半田付け用絶縁電線。3. An insulated wire according to claim 1,
An insulating layer is formed by applying and baking a mid-based insulating paint.
Insulated wire for soldering .
着性絶縁塗料を塗布、焼付けてなる絶縁層が形成された
半田付け用絶縁電線。4. A self-fusing wire on the insulated wire according to claim 1.
Insulating layer formed by applying and baking adhesive insulating paint
Insulated wire for soldering .
Priority Applications (4)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP7164020A JP2912196B2 (en) | 1994-12-12 | 1995-06-29 | Insulated wire for soldering |
EP96110253A EP0751534B1 (en) | 1995-06-29 | 1996-06-25 | Insulated electric wire |
DE69613046T DE69613046T2 (en) | 1995-06-29 | 1996-06-25 | Insulated electrical wire |
US08/671,484 US5750257A (en) | 1995-06-29 | 1996-06-27 | Insulated electric wire |
Applications Claiming Priority (3)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP6-307962 | 1994-12-12 | ||
JP30796294 | 1994-12-12 | ||
JP7164020A JP2912196B2 (en) | 1994-12-12 | 1995-06-29 | Insulated wire for soldering |
Publications (2)
Publication Number | Publication Date |
---|---|
JPH08222033A JPH08222033A (en) | 1996-08-30 |
JP2912196B2 true JP2912196B2 (en) | 1999-06-28 |
Family
ID=26489288
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP7164020A Expired - Fee Related JP2912196B2 (en) | 1994-12-12 | 1995-06-29 | Insulated wire for soldering |
Country Status (1)
Country | Link |
---|---|
JP (1) | JP2912196B2 (en) |
Families Citing this family (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP4245244B2 (en) * | 1999-11-30 | 2009-03-25 | 住友電工ウインテック株式会社 | Insulated wire |
JP4057230B2 (en) * | 2000-10-03 | 2008-03-05 | 古河電気工業株式会社 | Insulated conductor |
JP5028814B2 (en) * | 2005-10-28 | 2012-09-19 | 日立化成工業株式会社 | Aromatic resin composition, heat-resistant paint comprising the aromatic resin composition as a paint component, and sliding part coating paint binder |
JP5578439B2 (en) * | 2011-03-03 | 2014-08-27 | 日立金属株式会社 | Insulated wire |
Family Cites Families (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS55139716A (en) * | 1979-04-17 | 1980-10-31 | Hitachi Chemical Co Ltd | Insulated wire |
JPS5828105A (en) * | 1981-08-12 | 1983-02-19 | 日立電線株式会社 | Insulated wire |
JPS60223868A (en) * | 1984-04-19 | 1985-11-08 | Hitachi Cable Ltd | Self-welding enameled wire |
JP3287025B2 (en) * | 1992-09-18 | 2002-05-27 | 住友電気工業株式会社 | Insulated wire |
-
1995
- 1995-06-29 JP JP7164020A patent/JP2912196B2/en not_active Expired - Fee Related
Also Published As
Publication number | Publication date |
---|---|
JPH08222033A (en) | 1996-08-30 |
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