JPS6073148A - Vibration-suppressing stratified body - Google Patents

Abstract

PURPOSE:To provide a vibration-suppressing stratified body which has a sufficient vibration-suppressing property in a wide range of temperature, by preparing plural kinds of vibration-suppressing paints containing a resin and a scale- like inorganic substance as the main constituents at different composition ratios, to make plural kinds of paint films on a steel plate. CONSTITUTION:Plural kinds of vibration-suppressing paints, which contain 100pts.wt. of a resin consisting of 10pts.wt. of an epoxy resin and 1-100pts.wt. of a urethane-denatured epoxy resin having a urethane bond in the molecule and contain 10-200pts.wt. of a scale-like inorganic substance such as mica, graphite and glass flakes, as the main constituents, and have different composition ratios for the main constituents, are prepared, or the paints and another vibration-suppressing paint containing 100pts.wt. of an epoxy resin and 10- 200pts.wt. of a scale-like inorganic substance as the main constituents are prepared, so that plural kinds of paint films are made on a steel plate which undergoes vibration. At that time, the content of the urethane-denatured epoxy resin of the paint film nearer the steel plate is made larger. A vibration-suppressing stratified body is thus formed.

Description

【発明の詳細な説明】 〔産業上の利用分野〕 本発明は自動車、その他の車両、農業機械、建設機械、
船舶等の鋼板上に形成されて、これら鋼板の振動による
騒音を防止するための制振積層体に関する。[Detailed Description of the Invention] [Industrial Application Field] The present invention is applicable to automobiles, other vehicles, agricultural machinery, construction machinery,
The present invention relates to a vibration damping laminate that is formed on steel plates of ships and the like to prevent noise caused by vibrations of these steel plates.

〔従来技術〕[Prior art]

この種の鋼板の振動による騒音を防止する制振材として
は、アスファルト系の制振材や各種の合成樹脂にマイカ
等の鱗片状無機物質を添加してなる制振材が開発されて
お９、丑た鋼板にこれらの制振材を複数層に積層してな
る制振積層体も開発されている。しかしながら、これら
のいずれの制振材、制据＠層体においても、広範囲の１
ｍ度領域においてはかならずしも十分な制保性能を発揮
するとはいえず、またこれらの制振性能の最高値もかな
らずしも高いとはいえない。As damping materials for preventing noise caused by vibrations of this type of steel plate, damping materials made by adding scale-like inorganic substances such as mica to asphalt-based damping materials and various synthetic resins have been developed. A vibration damping laminate has also been developed in which multiple layers of these damping materials are laminated on a scrap steel plate. However, in any of these damping materials and damping layers, a wide range of 1
It cannot be said that sufficient damping performance is necessarily exhibited in the m degree range, and the maximum value of these vibration damping performances cannot necessarily be said to be high.

本発明者等はかかる突状に着目し、広範囲のｒ／ｉＡ度
領域において十分な制振性能を発揮し得るシート状塗膜
を形成できる制振塗料を開発し、当該制振塗料について
本出願と同日付で特許出願している。当該制振塗料は、
エポキシ樹脂１０重量部と分子内にウレタン結合を有す
るウレタン変性エポキシ樹脂１〜１００重量部を樹脂成
分とし、当該樹脂成分ｉｏｏ重量部と鱗片状無機物質１
０〜２００重量部を主成分とするものである。The present inventors focused on such protrusions and developed a vibration damping paint that can form a sheet-like coating that can exhibit sufficient vibration damping performance in a wide range of r/iA degrees, and this application is based on this vibration damping paint. A patent application was filed on the same date. The vibration damping paint is
The resin components are 10 parts by weight of an epoxy resin and 1 to 100 parts by weight of a urethane-modified epoxy resin having urethane bonds in the molecule, and ioo parts by weight of the resin component and 1 part by weight of a scaly inorganic substance.
The main component is 0 to 200 parts by weight.

〔発明の目的〕[Purpose of the invention]

本発明は、本発明者等が開発した上記制振塗料を利用し
て、鋼板等のけ拐の一側に形成されて広範囲の温度領域
において十分な制振性能を発揮し得る制振積層体を提供
することを目的とする。The present invention utilizes the above-mentioned vibration damping paint developed by the present inventors to produce a vibration damping laminate that is formed on one side of a steel plate or the like and can exhibit sufficient damping performance in a wide temperature range. The purpose is to provide

〔発明の（画成〕[definition of invention]

本発明はかかる目的を達成すべく、エポキシ樹脂１０重
量部と分子内にウレタン結合を有するウレタン液１〈１
．エポキシ樹脂１〜１００重量部とからなる樹脂成分１
００重量部と鱗Ｊ”ｉ伏無機物質１０〜２００市ｉ＋ｉ
だ１≦を主成分としかつ前記樹脂成分の割合を異にする
複数種の制振塗料、または当該制振塗料およびエポキシ
樹脂１００重足部と鱗片状無機物質１０〜２００重量部
を主成分とする制振塗料を母相の一側に積層状に塗布し
て複数種のシート状塗膜を形成してなシ、かつこれらシ
ート状塗膜のうちｂｉＪ記は相似のシート状塗膜におけ
るウレタン液性エポキシ樹脂の割合をその他のシート状
塗膜における同樹脂の割合に比して高くしてなる制振積
層体にその要旨がある。In order to achieve this object, the present invention consists of 10 parts by weight of an epoxy resin and a urethane liquid having urethane bonds in the molecule.
．． Resin component 1 consisting of 1 to 100 parts by weight of epoxy resin
00 parts by weight and scales J"i and inorganic substances 10-200 parts i+i
A plurality of types of vibration damping paints whose main components are 1≦ and different proportions of the resin components, or the vibration damping paints and the main components are 100 parts by weight of epoxy resin and 10 to 200 parts by weight of a scale-like inorganic substance. The damping paint is applied to one side of the matrix layer in a laminated manner to form multiple types of sheet-like paint films, and among these sheet-like paint films, biJ indicates urethane in similar sheet-like paint films. The gist of this is a vibration damping laminate made of a liquid epoxy resin in a higher proportion than the proportion of the same resin in other sheet-like coatings.

しかして、本発明において、ウレタン変１１ユエポキシ
樹脂とは分子内にウレタン結合を有するもので、ポリイ
ソシアネ−１・化合物とポリオキシ化合物トによって生
成したウレタンプレポリマーをエポキシ化合物に付加し
て得られる。In the present invention, the urethane-modified epoxy resin has a urethane bond in its molecule and is obtained by adding a urethane prepolymer produced from a polyisocyanate-1 compound and a polyoxy compound to an epoxy compound.

ポリイソシアネート化合物としては、具体的にはペンタ
ンジイソシアネート、ヘキサンシイソシアネ−１−、シ
プロピル工＝テルシイソシアネ−１−等の脂肪族シイソ
シアネー１−１１−リレンジイソシアネート、フエニレ
ンシイソシアイｋ　−１−、ビフェニルジイソシアネー
１−等の芳香族ジイソシアネート、ジイソシアネートジ
メチルベンゾール、シイソシアネートメチルシクロヘキ
サン等の環状脂肪族ジイソシアネートが使用される。Specific examples of the polyisocyanate compound include pentane diisocyanate, hexane diisocyanate-1-, aliphatic diisocyanate 1-11-lylene diisocyanate such as cypropyl-tercyisocyanate-1-, phenylene diisocyanate k-1-, Aromatic diisocyanates such as biphenyl diisocyanate 1-, cycloaliphatic diisocyanates such as diisocyanate dimethylbenzole, and cyisocyanate methylcyclohexane are used.

また、ポリオキシ化合物として（ま、具体ｇ４’ｊには
エチレングリコール、ジエチレンクリコール、トリエチ
レングリコール、プロピレングリコール等のジオール、
１−リメチロールプロパン、トリメチロールエタン、ヘ
キサン１゛リオール、グリセリン等のトリオール リブチレンクリコール等のポリオキジアルキレンゲ　リ
　コ　ー　ル’Ｍ　多（曲ア　ル　コ　ール、こレラ　
多価ア　ル　コールとアジピン酸、セバシン酸等の飽和
脂肪酸、マレイン酸、フタール酸等の不飽和脂肪酸との
ポリエステルが使用される。In addition, as polyoxy compounds (well, specifically g4'j includes diols such as ethylene glycol, diethylene glycol, triethylene glycol, propylene glycol,
Triols such as 1-limethylolpropane, trimethylolethane, hexane 1-liol, and glycerin Polyoxydialkylene glycols such as butylene glycol
Polyesters of polyhydric alcohols and saturated fatty acids such as adipic acid and sebacic acid, and unsaturated fatty acids such as maleic acid and phthalic acid are used.

また、エポキシ化合物としては、具体的にはグチ　ル　
り　リ　シ　シ　ルエ　ー　テ　ル、ア　リ　ル　グ　
リ　シ　ジ　ル　エ　ーチル、ビスフェノ−／Ｉ／Ａン
グリシジルエーテル、ポリグリコールシグリシシルエー
テル等のグリシジル化合物が使用される。In addition, as an epoxy compound, specifically glutyl
ri ri shi si rue teru, ali rug
Glycidyl compounds such as lysidyl ethyl, bispheno-/I/A glycidyl ether, and polyglycol siglycidyl ether are used.

さらに、本発明において、鱗〕−１状無機物質としては
マイカ、クツファイト、ガフメツレーク等が使用され、
それらの大きさはタイラー篩で６０〜１００メツシユ全
中・しにしだれ′１度分布のものが望ましい。Furthermore, in the present invention, as the scale-1 inorganic substance, mica, kutuphite, gafmetslake, etc. are used,
Their size is preferably 60 to 100 mesh on a Tyler sieve, with a weeping distribution of 1 degree.

なお、本発明で使用する制振塗料は上記した樹脂成分と
鱗片状無機物質を主成分とするものであるが、その他に
希釈剤、硬化剤等を添加してよいことは当然である。希
釈剤としてはキジロールが好適であり、また硬化剤とし
てはエポキシ樹脂の硬化剤として使用されるポリアミン
、ポリアミドアミン、変性脂肪族ポリアミン、変性芳香
族ポリアミン等が好適である。The vibration damping paint used in the present invention is mainly composed of the above-mentioned resin component and scaly inorganic substance, but it goes without saying that other diluents, curing agents, etc. may be added. As the diluent, Kijiroru is suitable, and as the curing agent, polyamines, polyamidoamines, modified aliphatic polyamines, modified aromatic polyamines, etc., which are used as curing agents for epoxy resins, are suitable.

〔発明の作用・効果〕[Action/effect of the invention]

第２図〜第６図から明らかなように、本発明に係る各制
振積層体（イ）〜（す）はけ相似のシート状塗膜におけ
るウレタン変性エポキシ樹脂の割合が零〇制振積層体い
）〜０つに力しても、また同樹脂の割合が他のシート状
塗膜のそれに比して低い制振積層体（ワ）〜（ヨ）に対
しても、広範囲の温度領域において高い損失係数ηを示
している。従って、本発明に係る制振積層体（イ）〜（
１刀は広範囲の温度領域において優れた制振性能を備え
ていることがわかる。As is clear from FIGS. 2 to 6, the proportion of urethane-modified epoxy resin in each of the damping laminates (A) to (S) according to the present invention is similar to that of the sheet-like coating film, which is zero in the damping laminate. Even if the pressure is applied to 0 (body) ~ 0, and even for vibration damping laminates (wa) ~ (yo) in which the proportion of the same resin is lower than that of other sheet-like coatings, it can be applied over a wide temperature range. shows a high loss coefficient η. Therefore, damping laminates (a) to (a) according to the present invention
It can be seen that 1 sword has excellent vibration damping performance in a wide temperature range.

〔実施例〕〔Example〕

以下、本発明の実施例を示すが、本実施例においては制
振性能の目安となる損失係数ηを第１図に示す測定装置
を使用して次の通シ算出した。すなわち、鉄製の支持板
１１の上面に種々の制振塗料を顔部して所定厚みの２枚
のシー１・状塗膜１２（第１層）、１３（第２Ｊ曹）か
らなる制振積層体を形成し、これら支持板１１と制振積
層体の一端を強固な定盤」二に支持する。次いで、これ
ら両者を加振器２１によって固有振動数にて共振させた
後瞬時に加振力を零にして白山Ｊ辰動させ、この自由振
動の減衷をピックアップ２２、増幅器２３、実時間分析
器２４およびレベルコーダ２５を用いて測定して減衰度
Ｄ（ｄｂ／ｓ）をめる。この減衰度りから、下記式にょ
ｐ損失係数ηを算出した。Examples of the present invention will be described below. In this example, the loss coefficient η, which is a measure of vibration damping performance, was calculated as follows using the measuring device shown in FIG. That is, a vibration damping layer is formed by applying various damping paints on the upper surface of an iron support plate 11 and comprising two sheet 1-shaped coating films 12 (first layer) and 13 (second layer) having a predetermined thickness. The supporting plate 11 and one end of the damping laminate are supported on a strong surface plate. Next, after making both of them resonate at their natural frequency using the vibrator 21, the excitation force is instantly reduced to zero and the Hakusan J is made to vibrate, and the reduction of this free vibration is detected by the pickup 22, the amplifier 23, and the real-time analysis. The attenuation degree D (db/s) is determined by measuring using the detector 24 and the level coder 25. From this degree of attenuation, the loss coefficient η was calculated using the following formula.

丑だ、本笑施例においてはη≧０．０５を測微効果あり
とした。なお、第１図において１４号２６は発娠器全示
す。In this example, η≧0.05 was considered to be a micrometric effect. In FIG. 1, numeral 14 and 26 indicate the entire gestational device.

一方、本実施例および比較例で使用する制儂塗料を第１
表および第２表に示す成分に調製した。On the other hand, the anti-inflammatory paint used in this example and comparative example was
The ingredients shown in Table and Table 2 were prepared.

）ズ丁途臼 第１表　各制振塗料の成分割合 注（１）：各成分の割合はいずれも重量部である。) Zucho mill Table 1 Component ratio of each vibration damping paint Note (1): All proportions of each component are parts by weight.

１（２１：エピタンＥ　１９５ｉＩ′ｊ：大日本インキ
化学工業株式会社製のウレタン変性エポキシ樹脂の商標
である。1 (21: Epithane E 195iI'j: A trademark of a urethane-modified epoxy resin manufactured by Dainippon Ink and Chemicals Co., Ltd.

注（３）ニラツカマイトＷＨ０３６Ｓは大日本インキ化
学工業株式会社製の硬化剤の商標である。Note (3) Niratsukamite WH036S is a trademark of a curing agent manufactured by Dainippon Ink and Chemicals.

注（４）ニラツカマイトＷＨ０，５１は大日本インキ化
学工業株式会社製の硬化剤の商標である。Note (4) Niratsukamite WH0,51 is a trademark of a curing agent manufactured by Dainippon Ink and Chemicals.

第２表　各制振塗料の成分割合 （実施例１） Ｈ月の」二面に制振塗料Ａを塗布して厚さ１朋の第１層
を形成するとともに、この第１層の上面に各制振塗料■
〜■を塗布して厚さ１ｍｍの第２層をそれぞれ形成して
各制４辰積層体（イ）〜（ハ）となし、これら各測微積
層体（イ）〜（ハ）について損失係数ηを算出した。得
られた結果を第６表および第２図に示す。この結果から
、本発明に係る制振積層体（イ）〜（ハ）は広範囲の６
＃ｉ度領域において高い損失係数ηを示しており、広範
囲の温度領域において高い制振性能を備えていることが
わかる。Table 2 Component ratio of each damping paint (Example 1) Damping paint A was applied to two sides of the moon to form a first layer with a thickness of 1 mm, and the top surface of this first layer was Each vibration damping paint■
~■ is applied to form a second layer with a thickness of 1 mm to form each 4-layer laminate (A) to (C), and the loss coefficient is calculated for each of these micrometric laminates (A) to (C). η was calculated. The results obtained are shown in Table 6 and FIG. From this result, it can be seen that the damping laminates (a) to (c) according to the present invention can be applied to a wide range of 6
It shows a high loss coefficient η in the #i degree region, indicating that it has high vibration damping performance in a wide temperature range.

第６表　各制振積層体（イ）〜（ハ）のη（×１Ｏ−２
）（実施例２） 母相の上面に制振塗料Ｂを顔部して厚さ１朋の第１層を
形成するとともに、この第１層の上面に各制振塗料■〜
■を塗布して厚さ１市の第２層をそれぞれ形成して各制
振積層体に）〜（へ）となし、ξれら各制振積層体に）
〜（へ）について損失係数ηを算出した。得られた結果
を第４表および第６図に示す。この結果から、本発明に
係る制振積層体に）〜（へ）は広範囲の温度領域におい
て高い損失係数ηを示してお９、広範囲の温度領域にお
いて高い制振性能を（Ｉｉｔｉえていることがわかる。Table 6 η(×1O−2) of each damping laminate (a) to (c)
) (Example 2) A first layer with a thickness of 1 mm is formed by applying damping paint B on the upper surface of the matrix, and each damping paint ■~ is applied on the upper surface of this first layer.
■A second layer with a thickness of 1 layer is formed by coating each damping laminate with ) to (to), and ξ to each damping laminate).
The loss coefficient η was calculated for ~(to). The results obtained are shown in Table 4 and FIG. From these results, it can be seen that the vibration damping laminates according to the present invention exhibit a high loss coefficient η over a wide temperature range9, and exhibit high vibration damping performance (Iiti) over a wide temperature range. Recognize.

また、第１層の形成に制振塗料Ｃ′ｆ：用いた以外上記
と全く同様に形成した各制振積層体（ト）〜（す）の損
失係数ηを第４表および第４図に示す。この結果から、
本発明に係る制振積層体（ト）〜（ワ）は広範囲の温度
領域において高い制振性能を備えていることがわかる。In addition, the loss coefficient η of each damping laminate (g) to (s) formed in exactly the same manner as above except that the damping paint C'f: was used to form the first layer is shown in Table 4 and Figure 4. show. from this result,
It can be seen that the damping laminates (g) to (w) according to the present invention have high damping performance in a wide temperature range.

第４表　各制振積層体に）〜（す）のη（ＸＩＯＪ（比
較例） 母相の上面に制振塗料■またば■を塗布して厚さ１朋の
第１層を形成するとともに、これら各第１層の上面に各
制振塗料Ａ　−Ｏｆ：塗布して厚さ１間の第２層をそれ
ぞれ形成して各制振積層体０）〜（ヨ）となし、これら
各制振積層体に）〜（ヨ）について損失係数ηを算出し
た。得られた結果を第５表、第５図および第６図に示す
。これらの結果から、本発明から外れた各制振積層体し
）〜（ヨ）は極めて低い損失係数を示しており、制振性
能が極めて低いことがわかる。Table 4 η (XIOJ (comparative example)) of (XIOJ) for each vibration damping laminate , each damping paint A-Of: is applied on the upper surface of each of these first layers to form a second layer with a thickness of 1 to form each damping laminate 0) to (Y). The loss coefficient η was calculated for () to (y) for the laminate. The results obtained are shown in Table 5, FIGS. 5 and 6. From these results, it can be seen that the vibration damping laminates () to (y) outside the scope of the present invention have extremely low loss coefficients, and have extremely low vibration damping performance.

ν／壬系白 第５表　各制振積層体シ）〜（ヨ）のη（Ｘ　１０−２
）４、図面の１７１１小な９．シご明 記１図は減表度測定装置の概略構成図、第２図〜第４図
は本発明の実施例に係る各制振積層体の各温Ｊｕに苅す
るηの関係を示すグラフ、第５図および第６図は比較例
に係る各制振積層体の各温度に刀するηの関係を示すグ
ラフである。ν/Mitsu White Table 5 η(X 10-2) of each vibration damping laminate
) 4, Drawing 1711 small 9. Note: Figure 1 is a schematic diagram of the surface reduction measuring device, and Figures 2 to 4 are graphs showing the relationship between η and each temperature Ju of each damping laminate according to the embodiments of the present invention. FIG. 5 and FIG. 6 are graphs showing the relationship of η to each temperature of each damping laminate according to a comparative example.

１で１号の説明 １１・・・支持板、１２．１ろ・・・シート状塗膜（制
振積層体）、２１・・・加振器。1 Explanation of No. 1 11... Support plate, 12.1... Sheet-like coating film (vibration damping laminate), 21... Vibrator.

第１図Figure 1

Claims (1)

【特許請求の範囲】[Claims] エポキシ樹脂１０重量部と分子内にウレタン結合を有す
るウレタン変性エポキシ樹脂１−〜１００重量部とから
なる樹脂成分１００重量部と鱗片状無機物質１０〜２０
０：ｉ置部を主成分としかつ前記樹脂成分の割合を異に
する複数種の割振塗料、または当該制振塗料およびエポ
キシ樹脂１０重量部と鱗片状無機物質１０〜２００重量
部を主成分とするｒｌＩ！Ｉ振塗料を１せ柑の一側に積
層状に塗布して複数層のシート状塗膜を形成してなり、
かつこれらシー　１・状塗膜のうち前記１母拐側のシー
ト状塗膜におけるウレタン父性エポキシ樹脂の割合をそ
の他のシー１−状塗膜における同樹脂の割合に比して高
くしてなる制振積層体。100 parts by weight of a resin component consisting of 10 parts by weight of an epoxy resin, 1 to 100 parts by weight of a urethane-modified epoxy resin having urethane bonds in the molecule, and 10 to 20 parts by weight of a scaly inorganic substance.
0: A plurality of types of distributed paints having the i-mounting part as the main component and having different ratios of the resin components, or the vibration damping paint and the main components being 10 parts by weight of epoxy resin and 10 to 200 parts by weight of a scaly inorganic substance. Do rlI! It is made by applying I-Furi paint in a layered manner to one side of a citrus fruit to form a multi-layered sheet-like coating.
and of these sheet-like coating films, the proportion of the urethane paternal epoxy resin in the sheet-like coating film on the side of the first matrix is higher than the proportion of the same resin in the other sheet-shaped coating films. Shake laminate.