JPH05243014A - Voltage nonlinear resistance composition - Google Patents

Voltage nonlinear resistance composition

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Publication number
JPH05243014A
JPH05243014A JP4044173A JP4417392A JPH05243014A JP H05243014 A JPH05243014 A JP H05243014A JP 4044173 A JP4044173 A JP 4044173A JP 4417392 A JP4417392 A JP 4417392A JP H05243014 A JPH05243014 A JP H05243014A
Authority
JP
Japan
Prior art keywords
mol
oxide
terms
glass frit
zinc oxide
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
JP4044173A
Other languages
Japanese (ja)
Other versions
JP3089371B2 (en
Inventor
Fumio Ishida
文男 石田
Noriyuki Kozu
典之 神津
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.)
Taiyo Yuden Co Ltd
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Taiyo Yuden Co Ltd
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Priority to JP04044173A priority Critical patent/JP3089371B2/en
Publication of JPH05243014A publication Critical patent/JPH05243014A/en
Application granted granted Critical
Publication of JP3089371B2 publication Critical patent/JP3089371B2/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

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Abstract

PURPOSE:To obtain the title composition proper for absorbing a surge by specifying the component, composition ratio and loadings of a bismuth borosilicate glass frit added to zinc oxide. CONSTITUTION:A 0.2-1.0wt.% bismuth borosilicate glass frit containing Bi of 0.05-2.0mol% in terms of Bi2O3, Sb of 0.05-2.0mol% in terms of Sb2O3, Co of 0.1-2.0mol% in terms of CoO, Mn of 0.1-3.0mol% in terms of MnO, Ni of 0.05-2.0mol% in terms of NiO, Ti of 0.05-2.0mol% in terms of TiO2, Si of 0.05-3.0mol% in terms of SiO2, Al of 0.001-0.5mol% in terms of Al2O3, and 1-10wt.% MnO is added to zinc oxide. Accordingly, a voltage nonlinear resistance composition having excellent high-temperature load lifetime characteristics and pulse lifetime characteristics can be acquired.

Description

【発明の詳細な説明】Detailed Description of the Invention

【0001】[0001]

【産業上の利用分野】本発明は、酸化亜鉛を主成分と
し、その焼結体自体が電圧非直線性を有する電圧非直線
抵抗組成物に関する。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a voltage non-linear resistance composition containing zinc oxide as a main component and the sintered body itself having voltage non-linearity.

【0002】[0002]

【従来の技術】従来、酸化亜鉛(ZnO)バリスタの負
荷寿命特性は用途によって必ずしも充分なものではなか
った。その解決策として、酸化亜鉛から成る焼結体にペ
ースト状のガラスフリットを塗布し、熱処理を施してガ
ラスを拡散させ、粒界の保護、補強を行っていたが、か
かる方法は製造工程の繁雑さ、熱処理による電気的特性
値の低下およびパルス劣化が大きい等の問題がある。更
に、焼結体へのガラスフリットの塗布量がバリスタ電
圧、電圧非直線係数、負荷寿命特性に与える影響力が大
きいため、厳密にペースト状のガラスフリットの塗布量
を管理する必要があり、かかる塗布量管理が充分に行わ
れないと、製造された焼結体間の特性のバラツキが大き
く、また、製造の歩留まりも悪くなるという問題があっ
た。また、焼結体の形状が大きくなるとガラス拡散が不
十分となり、焼結体内部までガラス拡散が均一に行われ
ず、負荷寿命特性に著しい向上が得られない。
2. Description of the Related Art Conventionally, the load life characteristics of zinc oxide (ZnO) varistors have not always been sufficient depending on the application. As a solution to this problem, a paste-like glass frit was applied to a sintered body made of zinc oxide, and heat treatment was applied to diffuse the glass to protect and reinforce the grain boundaries. However, there are problems such as a decrease in electrical characteristic value due to heat treatment and a large pulse deterioration. Further, since the amount of glass frit applied to the sintered body has a large influence on the varistor voltage, the voltage non-linearity coefficient, and the load life characteristic, it is necessary to strictly control the amount of paste-shaped glass frit applied. If the coating amount control is not carried out sufficiently, there are problems in that there is a large variation in the characteristics between the produced sintered bodies and the production yield also deteriorates. Further, when the shape of the sintered body is large, the glass diffusion becomes insufficient, the glass is not uniformly diffused into the inside of the sintered body, and the load life characteristics cannot be remarkably improved.

【0003】そこで、上記のようなガラス拡散法に対
し、焼結前の原料にホウケイ酸ビスマス等のガラスフリ
ットを添加して温度1100〜1300℃で焼結するガ
ラス添加法が試みられている。
Therefore, in addition to the above glass diffusion method, a glass addition method has been attempted in which a glass frit such as bismuth borosilicate is added to a raw material before sintering and sintering is performed at a temperature of 1100 to 1300 ° C.

【0004】[0004]

【発明が解決しようとする課題】前記ガラス添加法は原
料に添加するガラスフリット量を定量化しやすい他、ガ
ラス拡散法による製造工程の繁雑さ、熱処理による特性
値の劣化、負荷寿命特性およびバリスタ電圧等の特性値
のバラツキ等が改善されるという利点がある。
The above-mentioned glass addition method makes it easy to quantify the amount of glass frit added to the raw material, and also the complexity of the manufacturing process by the glass diffusion method, deterioration of characteristic values due to heat treatment, load life characteristics and varistor voltage. There is an advantage that variations in characteristic values such as are improved.

【0005】しかしながら、作成された電圧非直線抵抗
組成物は直流に対する負荷寿命特性は向上しても、パル
ス劣化が大きく、また低温焼成であるが故にバリスタ電
圧が非常に高い等の問題を有する。
However, the voltage non-linear resistance composition produced has problems such as large deterioration of pulse even though the load life characteristic against direct current is improved, and very high varistor voltage due to low temperature firing.

【0006】最近、酸化亜鉛バリスタはサージ吸収用と
して広範囲に実用に供されているが、パルス劣化が小さ
く、かつ直流、交流等の常時の課電に対する負荷寿命特
性に優れていることがサージ吸収用として必要条件であ
る。
Recently, zinc oxide varistor has been put to practical use in a wide range of applications for absorbing surges, but it is characterized by small pulse deterioration and excellent load life characteristics with respect to constant voltage application such as direct current and alternating current. Is a necessary condition for use.

【0007】従って、前記のガラス添加法においてもパ
ルス劣化が小さく、かつ優れた負荷寿命特性を有する両
条件を充分に満足することが出来ないという問題があっ
た。本発明は、前記問題点を解消し、酸化亜鉛に対して
添加するホウケイ酸ビスマスガラスフリットの成分並び
に組成比、その添加量、更にこれらの組み合わせによ
り、パルス寿命特性および負荷寿命特性の両者を充分に
満足させ、上記のサージ吸収用としての条件を満たす電
圧非直線抵抗組成物を提供することを目的とするもので
ある。
Therefore, even in the above-mentioned glass addition method, there was a problem that the pulse deterioration was small and both conditions having excellent load life characteristics could not be sufficiently satisfied. The present invention solves the above-mentioned problems, and the components and composition ratio of the bismuth borosilicate glass frit to be added to zinc oxide, the addition amount thereof, and the combination thereof are sufficient to achieve both pulse life characteristics and load life characteristics. It is an object of the present invention to provide a voltage non-linear resistance composition satisfying the above conditions and satisfying the above-mentioned requirements for absorbing surge.

【0008】[0008]

【課題を解決するための手段】本発明の電圧非直線抵抗
組成物は、酸化亜鉛を主成分とした焼結体自体が電圧非
直線性を有する電圧非直線抵抗組成物であって、主成分
の酸化亜鉛に対して、ビスマスをBi23の形に換算し
て0.05〜2.0モル%、アンチモンをSb23の形
に換算して0.05〜2.0モル%、コバルトをCoO
の形に換算して0.1〜2.0モル%、マンガンをMn
Oの形に換算して0.1〜3.0モル%、ニッケルをN
iOの形に換算して0.05〜2.0モル%、チタンを
TiO2の形に換算して0.05〜2.0モル%、ケイ
素をSiO2の形に換算して0.05〜3.0モル%、
アルミニウムをAl23の形に換算して0.001〜
0.5モル%および酸化マンガンを1〜10重量%含む
ホウケイ酸ビスマスガラスフリットを0.2〜1.0重
量%添加したことを特徴とする。
The voltage non-linear resistance composition of the present invention is a voltage non-linear resistance composition in which a sintered body containing zinc oxide as a main component has voltage non-linearity. 0.05 to 2.0 mol% of bismuth in the form of Bi 2 O 3 and 0.05 to 2.0 mol% of antimony in the form of Sb 2 O 3 with respect to zinc oxide. , Cobalt to CoO
In the form of 0.1 to 2.0 mol% and manganese to Mn
Converted to form O, 0.1-3.0 mol%, nickel N
0.05 to 2.0 mol% in terms of the shape of iO, 0.05 to 2.0 mol% in terms of titanium in the form of TiO 2, in terms of silicon in the form of SiO 2 0.05 ~ 3.0 mol%,
Converting aluminum into Al 2 O 3 form 0.001
It is characterized in that bismuth borosilicate glass frit containing 0.5 mol% and manganese oxide in an amount of 1 to 10% by weight is added in an amount of 0.2 to 1.0% by weight.

【0009】尚、パルス寿命、高温時における負荷寿命
の両特性を満足させることが出来るのは、酸化ニッケル
と、ホウケイ酸ビスマスガラス中に酸化マンガンを含ん
で成るガラスフリットの2成分が共存しているためと考
えられる。
It is to be noted that nickel oxide and bismuth borosilicate glass, which is a glass frit containing manganese oxide, coexist in order to satisfy both characteristics of pulse life and load life at high temperature. This is probably because

【0010】[0010]

【作用】電圧非直線抵抗組成物の主成分の酸化亜鉛に添
加する成分ならびその組成比を上記のように選択した理
由は、該組成を添加されて形成された電圧非直線抵抗組
成物のいずれにおいても、パルス寿命、高温時における
負荷寿命の両者を満足させることがことが出来るように
するためである。換言すると、主成分の酸化亜鉛に添加
する成分の組成が本発明の範囲外になると、これらの目
標値が達成出来ないからである。
The reason why the components to be added to zinc oxide, which is the main component of the voltage nonlinear resistance composition, and the composition ratio thereof are selected as described above is that the voltage nonlinear resistance composition formed by adding the composition. This is also for satisfying both the pulse life and the load life at high temperature. In other words, if the composition of the component added to the main component zinc oxide is outside the range of the present invention, these target values cannot be achieved.

【0011】[0011]

【実施例】以下に、本発明の具体的な実施例を比較例と
共に説明する。
EXAMPLES Specific examples of the present invention will be described below together with comparative examples.

【0012】実験例1 先ず、原料として、高純度の酸化亜鉛(ZnO)、酸化
ビスマス(Bi23)、酸化アンチモン(Sb23)、
酸化コバルト(CoO)、酸化マンガン(MnO)、酸
化ニッケル(NiO)、酸化チタン(TiO2)、酸化
ケイ素(SiO2)、酸化アルミニウム(Al23)を
夫々用意した。
Experimental Example 1 First, as raw materials, high-purity zinc oxide (ZnO), bismuth oxide (Bi 2 O 3 ), antimony oxide (Sb 2 O 3 ),
Cobalt oxide (CoO), manganese oxide (MnO), nickel oxide (NiO), titanium oxide (TiO 2 ), silicon oxide (SiO 2 ), and aluminum oxide (Al 2 O 3 ) were prepared.

【0013】次に、酸化亜鉛に添加するホウケイ酸ビス
マスガラスフリットの作成にあたって、酸化ビスマス
0.5モル%、酸化アンチモン0.5モル%、酸化コバ
ルト0.5モル%、酸化マンガン0.5モル%、酸化ニ
ッケル0.5モル%、酸化チタン0.5モル%、酸化ケ
イ素0.5モル%、酸化アルミニウム0.05モル%を
秤量すると共に、ホウケイ酸ビスマスガラスフリット中
に含まれる酸化マンガン量を表1に示す量となるように
秤量した。
Next, in preparing a bismuth borosilicate glass frit to be added to zinc oxide, 0.5 mol% of bismuth oxide, 0.5 mol% of antimony oxide, 0.5 mol% of cobalt oxide, 0.5 mol of manganese oxide. %, Nickel oxide 0.5 mol%, titanium oxide 0.5 mol%, silicon oxide 0.5 mol%, aluminum oxide 0.05 mol%, and the amount of manganese oxide contained in the bismuth borosilicate glass frit. Was weighed so that the amount shown in Table 1 was obtained.

【0014】そして、酸化マンガンの含有量の異なるホ
ウケイ酸ビスマスガラスフリットの夫々を酸化亜鉛に対
して0.5重量%添加し、充分に混合した後、PVA5
%溶液をバインダーとして加えて造粒した。次いで、得
られた混合物を直径14.0mmの円板状に形成し、得
られた成形物を空気中で1250℃で、2時間の焼成を
施して、焼結体の抵抗組成物試料を作成した。作成され
た夫々の抵抗組成物試料の表裏面に銀を含む電極材料ペ
ーストを塗布した後、温度850℃で焼き付けて電極を
形成し、該電極上に銀入りハンダにてリード線付けを行
って、電圧非直線抵抗組成物を作成した。
Then, each of the bismuth borosilicate glass frits having different manganese oxide contents was added in an amount of 0.5% by weight with respect to zinc oxide, and after sufficiently mixing, PVA5
% Solution was added as a binder for granulation. Then, the obtained mixture was formed into a disc shape having a diameter of 14.0 mm, and the obtained formed product was fired in air at 1250 ° C. for 2 hours to prepare a resistance composition sample of a sintered body. did. After applying an electrode material paste containing silver on the front and back surfaces of each of the prepared resistance composition samples, the electrode material paste was baked at a temperature of 850 ° C. to form an electrode, and a lead wire was attached on the electrode with a solder containing silver. A voltage non-linear resistance composition was prepared.

【0015】このようにして作成された表裏面に電極を
備えた各電圧非直線抵抗組成物の夫々について、単位あ
たりのバリスタ電圧(V1mA/mm)、電圧非直線係数
(α)、高温直流負荷寿命および高温交流負荷寿命によ
るバリスタ電圧の変化率(ΔV1mA)、パルス寿命によ
るバリスタ電圧の変化率(ΔV1mA)の各電気特性につ
いて測定し、その結果を表1に示した。
With respect to each of the voltage non-linear resistance compositions having electrodes on the front and back surfaces thus prepared, the varistor voltage per unit (V1mA / mm), the voltage non-linear coefficient (α), the high temperature DC load The electrical characteristics of the varistor voltage change rate (ΔV1mA) due to life and high temperature AC load life and the varistor voltage change rate due to pulse life (ΔV1mA) were measured, and the results are shown in Table 1.

【0016】尚、バリスタ電圧は定電流電源装置により
測定し、また、電圧非直線係数は
The varistor voltage is measured by a constant current power supply, and the voltage nonlinear coefficient is

【0017】[0017]

【数1】 [Equation 1]

【0018】により測定し、また、高温直流負荷寿命並
びに高温交流負荷寿命は周囲温度70℃において直流電
力0.6W、或いは交流電力0.6Wを1000時間印
加して測定し、また、パルス寿命は(8×20)マイク
ロ秒の波形の200Aの電流を103回繰り返し印加し
て測定した。
The high temperature DC load life and the high temperature AC load life were measured by applying a DC power of 0.6 W or an AC power of 0.6 W for 1000 hours at an ambient temperature of 70 ° C. and a pulse life. A current of 200 A having a waveform of (8 × 20) microseconds was repeatedly applied 10 3 times for measurement.

【0019】[0019]

【表1】 [Table 1]

【0020】尚、表1中で※印を付けたものは本発明の
範囲外のものであり、その他は本発明の範囲内のもので
ある。
Those marked with * in Table 1 are outside the scope of the present invention, and others are within the scope of the present invention.

【0021】表1から明らかなように、ホウケイ酸ビス
マスガラスフリット中に含まれる酸化マンガン量は1〜
10重量%の範囲で各電気特性に優れていることが確認
された。ホウケイ酸ビスマスガラスフリット中の酸化マ
ンガン量が1重量%未満の場合は電圧非直線係数は優れ
ているが、パルス寿命特性の向上がみられず、また、ホ
ウケイ酸ビスマスガラスフリット中の酸化マンガン量が
10重量%を超えると電圧非直線係数が低下し、高温負
荷寿命特性、パルス寿命の劣化が大きくなって、希望す
る電気特性が得られない。
As is clear from Table 1, the amount of manganese oxide contained in the bismuth borosilicate glass frit is 1 to
It was confirmed that each electric property was excellent in the range of 10% by weight. When the amount of manganese oxide in the bismuth borosilicate glass frit is less than 1% by weight, the voltage non-linearity coefficient is excellent, but the pulse life characteristics are not improved, and the amount of manganese oxide in the bismuth borosilicate glass frit is not improved. If more than 10% by weight, the voltage non-linearity coefficient decreases, the high temperature load life characteristics and the pulse life deteriorate greatly, and desired electrical characteristics cannot be obtained.

【0022】実験例2 前記実験例1に準じて、酸化ビスマス、酸化アンチモ
ン、酸化コバルト、酸化マンガン、酸化ニッケル、酸化
チタン、酸化ケイ素、酸化アルミニウムについても組成
比を種々変え,更に酸化マンガンを含むホウケイ酸ビス
マスガラスフリットを酸化亜鉛に対して0.5重量%添
加し、前記実験例1と同様にして各電圧非直線抵抗組成
物を作成した。
Experimental Example 2 In accordance with Experimental Example 1, the composition ratios of bismuth oxide, antimony oxide, cobalt oxide, manganese oxide, nickel oxide, titanium oxide, silicon oxide and aluminum oxide are variously changed, and manganese oxide is further contained. 0.5% by weight of bismuth borosilicate glass frit was added to zinc oxide, and each voltage nonlinear resistance composition was prepared in the same manner as in Experimental Example 1.

【0023】作成された各電圧非直線抵抗組成物の夫々
について、前記実施例1と同一条件でバリスタ電圧、電
圧非直線係数、高温直流負荷寿命、高温交流負荷寿命、
パルス寿命の各電気特性について測定したところ、酸化
亜鉛に添加するホウケイ酸ビスマスガラスフリット中の
各組成が本発明の範囲内、即ち、酸化ビスマスを0.0
5〜2.0モル%、酸化アンチモンを0.05〜2.0
モル%、酸化コバルトを0.1〜2.0モル%、酸化マ
ンガンを0.1〜3.0モル%、酸化ニッケルを0.0
5〜2.0モル%、酸化チタンを0.05〜2.0モル
%、酸化ケイ素を0.05〜3.0モル%、酸化アルミ
ニウムを0.001〜0.5モル%の範囲内とし、これ
に酸化マンガンを1〜10重量%の範囲内で含有させた
ホウケイ酸ビスマスガラスフリットを用いた電圧非直線
抵抗組成物が優れた電圧非直線係数、パルス寿命特性、
並びに高温負荷寿命特性を示した。
For each of the prepared voltage non-linear resistance compositions, the varistor voltage, the voltage non-linearity coefficient, the high temperature DC load life, the high temperature AC load life, and the same conditions as in Example 1 were used.
When the electrical characteristics of the pulse life were measured, each composition in the bismuth borosilicate glass frit added to zinc oxide was within the range of the present invention, that is, bismuth oxide was 0.0
5-2.0 mol%, antimony oxide 0.05-2.0
Mol%, cobalt oxide 0.1 to 2.0 mol%, manganese oxide 0.1 to 3.0 mol%, nickel oxide 0.0.
5 to 2.0 mol%, titanium oxide to 0.05 to 2.0 mol%, silicon oxide to 0.05 to 3.0 mol%, and aluminum oxide to 0.001 to 0.5 mol%. A voltage non-linear resistance composition using a bismuth borosilicate glass frit containing manganese oxide in the range of 1 to 10 wt% has excellent voltage non-linear coefficient, pulse life characteristics,
It also showed high temperature load life characteristics.

【0024】このように、上記各組成が本発明の組成範
囲外となると、電圧非直線係数、高温直流負荷寿命、高
温交流負荷寿命、パルス寿命のいずれかが低下したり、
或いは劣化したりして希望する電気特性が得られない。
As described above, when each of the above compositions is out of the composition range of the present invention, any of the voltage non-linearity coefficient, high temperature DC load life, high temperature AC load life, and pulse life is reduced,
Alternatively, the desired electrical characteristics cannot be obtained due to deterioration.

【0025】実験例3 先ず、原料として、高純度の酸化亜鉛(ZnO)、酸化
ビスマス(Bi23)、酸化アンチモン(Sb23)、
酸化コバルト(CoO)、酸化マンガン(MnO)、酸
化ニッケル(NiO)、酸化チタン(TiO2)、酸化
ケイ素(SiO2)、酸化アルミニウム(Al23)を
夫々用意した。
Experimental Example 3 First, as raw materials, high-purity zinc oxide (ZnO), bismuth oxide (Bi 2 O 3 ), antimony oxide (Sb 2 O 3 ),
Cobalt oxide (CoO), manganese oxide (MnO), nickel oxide (NiO), titanium oxide (TiO 2 ), silicon oxide (SiO 2 ), and aluminum oxide (Al 2 O 3 ) were prepared.

【0026】次に、酸化亜鉛に対して酸化ビスマス0.
5モル%、酸化アンチモン0.5モル%、酸化コバルト
0.5モル%、酸化マンガン0.5モル%、酸化ニッケ
ル0.5モル%、酸化チタン0.5モル%、酸化ケイ素
0.1モル%、酸化アルミニウム0.05モル%並びに
ホウケイ酸ビスマスガラスフリット中の酸化マンガンの
含有量が10重量%となるように秤量した。
Next, with respect to zinc oxide, bismuth oxide 0.
5 mol%, antimony oxide 0.5 mol%, cobalt oxide 0.5 mol%, manganese oxide 0.5 mol%, nickel oxide 0.5 mol%, titanium oxide 0.5 mol%, silicon oxide 0.1 mol %, Aluminum oxide 0.05 mol%, and manganese oxide content in the bismuth borosilicate glass frit were weighed so as to be 10 wt%.

【0027】そして、酸化亜鉛に対してホウケイ酸ビス
マスガラスフリットを表2に示す添加量で添加し、充分
に混合した後、PVA5%溶液をバインダーとして加え
て造粒した。次いで、得られた混合物を直径14.0m
mの円板状に形成し、得られた成形物を空気中で125
0℃で、2時間の焼成を施して、焼結体の抵抗組成物試
料を作成した。作成された夫々の抵抗組成物試料の表裏
面に銀を含む電極材料ペーストを塗布した後、温度85
0℃で焼き付けて電極を形成し、該電極上に銀入りハン
ダにてリード線付けを行って、電圧非直線抵抗組成物を
作成した。
Then, bismuth borosilicate glass frit was added to zinc oxide in an addition amount shown in Table 2, and after sufficiently mixing, a 5% PVA solution was added as a binder for granulation. The resulting mixture is then 14.0 m in diameter.
m in the shape of a disk, and the molded product obtained is 125
By firing at 0 ° C. for 2 hours, a resistance composition sample of a sintered body was prepared. After applying the electrode material paste containing silver to the front and back surfaces of each of the prepared resistance composition samples, the temperature was adjusted to 85
An electrode was formed by baking at 0 ° C., and a lead wire was attached on the electrode with silver-containing solder to prepare a voltage nonlinear resistance composition.

【0028】このようにして作成された表裏面に電極を
備えた各電圧非直線抵抗組成物の夫々について、前記実
験例1と同一条件でバリスタ電圧、電圧非直線係数、高
温直流負荷寿命、高温交流負荷寿命、パルス寿命の各特
性について測定し、その結果を表2に示した。
With respect to each of the voltage non-linear resistance compositions having electrodes on the front and back surfaces thus prepared, the varistor voltage, the voltage non-linear coefficient, the high temperature DC load life, the high temperature under the same conditions as in Experimental Example 1 above. Each characteristic of AC load life and pulse life was measured, and the results are shown in Table 2.

【0029】[0029]

【表2】 [Table 2]

【0030】尚、表2中で※印を付けたものは本発明の
範囲外のものであり、その他は本発明の範囲内のもので
ある。
Those marked with * in Table 2 are outside the scope of the present invention, and others are within the scope of the present invention.

【0031】表2から明らかなように、酸化亜鉛へのホ
ウケイ酸ビスマスガラスフリットの添加量は0.2〜
1.0重量%の範囲で各電気特性に優れていることが確
認された。酸化亜鉛に添加するホウケイ酸ビスマスガラ
スフリット量が0.2重量%未満の場合はパルス寿命特
性は優れているが、高温負荷寿命特性の向上がみられ
ず、また、酸化亜鉛に添加するホウケイ酸ビスマスガラ
スフリット量が1.0重量%を超えると高温負荷寿命特
性の向上がみられるが、その反面、電圧非直線係数が低
下し、パルス寿命の劣化が大きくなって、希望する特性
が得られない。
As is clear from Table 2, the addition amount of bismuth borosilicate glass frit to zinc oxide is 0.2-.
It was confirmed that each electric property was excellent in the range of 1.0% by weight. When the amount of the bismuth borosilicate glass frit added to zinc oxide is less than 0.2% by weight, the pulse life characteristics are excellent, but the high temperature load life characteristics are not improved, and the borosilicate added to zinc oxide. When the bismuth glass frit amount exceeds 1.0% by weight, the high temperature load life characteristics are improved, but on the other hand, the voltage non-linearity coefficient is lowered and the deterioration of the pulse life is increased to obtain the desired characteristics. Absent.

【0032】尚、本発明はこれに限定されるものではな
く、目的に応じて前記組成に更に酸化マグネシウム(M
gO)、酸化クローム(Cr23)、酸化鉛(PbO)
等を添加してもよい。これらを添加することにより更に
パルス寿命、高温負荷寿命等の性能を向上させることが
出来る。
The present invention is not limited to this, and magnesium oxide (M
gO), chromium oxide (Cr 2 O 3 ), lead oxide (PbO)
Etc. may be added. By adding these, performances such as pulse life and high temperature load life can be further improved.

【0033】[0033]

【発明の効果】このように本発明によるときは、サージ
に対して優れた特性を発揮する酸化亜鉛バリスタである
と共に、この特性を損なうことなく、優れた高温負荷寿
命特性並びにパルス寿命特性を有する電圧非直線抵抗組
成物を提供することが出来る効果を有する。
As described above, according to the present invention, the zinc oxide varistor exhibits excellent characteristics against surges, and has excellent high temperature load life characteristics and pulse life characteristics without impairing these characteristics. It has the effect of providing a voltage non-linear resistance composition.

Claims (1)

【特許請求の範囲】[Claims] 【請求項1】 酸化亜鉛を主成分とした焼結体自体が電
圧非直線性を有する電圧非直線抵抗組成物であって、主
成分の酸化亜鉛に対して、ビスマスをBi23の形に換
算して0.05〜2.0モル%、アンチモンをSb23
の形に換算して0.05〜2.0モル%、コバルトをC
oOの形に換算して0.1〜2.0モル%、マンガンを
MnOの形に換算して0.1〜3.0モル%、ニッケル
をNiOの形に換算して0.05〜2.0モル%、チタ
ンをTiO2の形に換算して0.05〜2.0モル%、
ケイ素をSiO2の形に換算して0.05〜3.0モル
%、アルミニウムをAl23の形に換算して0.001
〜0.5モル%および酸化マンガンを1〜10重量%含
むホウケイ酸ビスマスガラスフリットを0.2〜1.0
重量%添加したことを特徴とする電圧非直線抵抗組成
物。
1. A voltage non-linear resistance composition in which a sintered body containing zinc oxide as a main component itself has voltage non-linearity, and bismuth is formed into a form of Bi 2 O 3 with respect to zinc oxide as a main component. Converted to 0.05-2.0 mol%, antimony is added to Sb 2 O 3
Converted to the form of 0.05-2.0 mol%, cobalt to C
0.1 to 2.0 mol% in the form of oO, 0.1 to 3.0 mol% in the form of manganese in the form of MnO, and 0.05 to 2 in the form of nickel in the form of NiO. 0.0 mol%, 0.05 to 2.0 mol% in terms of titanium in the form of TiO 2 ,
0.05 to 3.0 mol% of silicon in the form of SiO 2 and 0.001 of aluminum in the form of Al 2 O 3.
Bismuth borosilicate glass frit containing 0.5 to 0.5 mol% and 1 to 10% by weight of manganese oxide is 0.2 to 1.0.
A voltage non-linear resistance composition characterized by being added by weight%.
JP04044173A 1992-02-29 1992-02-29 Voltage non-linear resistance composition Expired - Lifetime JP3089371B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP04044173A JP3089371B2 (en) 1992-02-29 1992-02-29 Voltage non-linear resistance composition

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP04044173A JP3089371B2 (en) 1992-02-29 1992-02-29 Voltage non-linear resistance composition

Publications (2)

Publication Number Publication Date
JPH05243014A true JPH05243014A (en) 1993-09-21
JP3089371B2 JP3089371B2 (en) 2000-09-18

Family

ID=12684196

Family Applications (1)

Application Number Title Priority Date Filing Date
JP04044173A Expired - Lifetime JP3089371B2 (en) 1992-02-29 1992-02-29 Voltage non-linear resistance composition

Country Status (1)

Country Link
JP (1) JP3089371B2 (en)

Also Published As

Publication number Publication date
JP3089371B2 (en) 2000-09-18

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