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太陽電池パッケージ用フィルム添加剤

モデル番号: R1020

はじめに

高透明・低結晶点シラン変性オレフィン系共重合体太陽電池封止フィルムガラス用接着剤
パフォーマンス 価値 試験方法
密度 0.87g/㎤ ASTM D792
融点(DSC)  72℃(161.6℉) COACEメソッド
MFR(190℃、2.16kg)  10~20g/10分 ASTM D1238
シラン含有量  高い COACEメソッド¹。
商品説明

 

Advanced and specialized goods, Silane Modified Olefin solar Encapsulation Film Additives are made to improve the durability and performance of solar encapsulation films. These additives have remarkable properties and benefits that make them perfect for a range of uses in the solar energy sector by integrating silane technology into olefin-based films. Coace® R1020 is an olefin copolymer that has been silane-treated. It is mostly used in sun encapsulation films. Low crystal point, high transparency, and high concentration of silane are some of its characteristics. They contribute to longer module lifespans, higher energy conversion efficiency, lower costs, and greater adhesion, moisture resistance, UV stability, optical qualities, and thermal stability. These additives are essential parts of high-quality photovoltaic module production, increasing the sustainability and efficiency of solar energy systems with their wide range of applications.

 

高度な設備!

先進的な生産ラインと実験試験センターを備え、製品の品質を保証する。

強力な技術力!

10人以上の経験豊富な技術研究開発スタッフが、絶え間ない技術革新を推進しています。

 

特徴

 

パフォーマンス 価値 試験方法
密度 0.87g/㎤ ASTM D792
融点(DSC)  72℃(161.6℉) COACEメソッド
MFR(190℃、2.16kg)  10~20g/10分 ASTM D1238
シラン含有量  高い COACEメソッド¹。

:上記のデータは代表的な試験値であり、仕様として解釈されるべきものではありません。

推奨用量実際の用途に応じて、コストを考慮し、適切な増減を行う。

 

Silane-modified olefin copolymer, mainly used in photovoltaic encapsulation film, with high silane content, high transparency, low crystal point and other characteristics.

  • Enhanced adhesive: Olefin-based encapsulation films’ adhesive qualities are intended to be improved by the Silane Modified Olefin Photovoltaic Encapsulation Film Additives. Silane technology is incorporated to improve interlayer bonding, which leads to superior adhesion between various film layers and the enclosed components, like substrates and solar cells.
  • Moisture Resistance: By strengthening the encapsulating layers’ resistance to moisture, these additives shield the solar cells from moisture intrusion. By creating a moisture barrier, silane technology reduces the chance of moisture-induced film breakdown or delamination by stopping water from penetrating.
  • UV Stability: The encapsulation films’ UV stability is improved by the Silane Modified Olefin Photovoltaic Encapsulation Film Additives. By acting as a protective layer, silane technology prolongs the life of solar cells and lessens the deterioration brought on by UV light.
  • Better Optical Properties: By improving the encapsulation films’ optical characteristics, these additives enable greater light transmission and less light scattering. Through reduction of light loss and enhancement of light capture, the additives help the solar cells achieve higher energy conversion efficiency.
  • Thermal Stability: The encapsulation films’ thermal stability is enhanced by the Silane Modified Olefin Photovoltaic Encapsulation Film Additives. Even in difficult operating conditions, the solar cells’ integrity and functioning are guaranteed by their increased resilience to high temperatures.
メリット

 

Enhanced Module Reliability: This is the outcome of the encapsulating coatings’ increased adhesive qualities. The additives reduce the possibility of film layer delamination or separation, guaranteeing the solar module’s long-term structural integrity and performance stability.

Extended Lifespan: The encapsulating films’ longer lifespan is facilitated by these additives’ moisture resistance and UV stability. The increased resilience extends the operating life of the solar cells by shielding them from external elements like moisture and UV rays.

Enhanced Energy Conversion Efficiency: The Silane Modified Olefin Photovoltaic Encapsulation Film Additives improve the optical characteristics and lower light loss, which raises the solar cells’ energy conversion efficiency. Higher energy yields and better system performance are the results of this.

Cost Savings: Manufacturers and operators of solar energy systems can save money thanks to the photovoltaic module’s increased longevity and increased dependability. A higher return on investment is a result of improved energy conversion efficiency and decreased maintenance and replacement expenses.

 

当社の強み

グローバル・サプライチェーン

健全な保管・物流サプライチェーンシステム
テクニカルサポート
アフターサービス

フォーカス - アチーブメント - エクセレンス!

カスタマイズ製品
研究開発に注力
グローバルサービス

コエース認証!

ISO9001:2015認証
ISO14001:2015認証
EUのREACH登録

韓国K-REACH事前登録

企業の利点!

国内外でのレイアウト、ミキシングに最適
国内マーケティング・レイアウト
海外マーケティング・レイアウト

 

申し込み

 

代表的なアプリケーション

1.太陽電池封止フィルム
2.ガラス接着剤

Polyethylene (PE) and polypropylene (PP) films are two examples of olefin-based encapsulation films that work well with the Silane Modified Olefin Photovoltaic Encapsulation Film Additives. These additives are excellent for large-scale production since they are simple to include into the film manufacturing process without requiring significant modifications or new equipment.

In the solar energy sector, Silane Modified Olefin Photovoltaic Encapsulation Film Additives are widely used, particularly in the production of photovoltaic modules. They work well with both thin-film and crystalline silicon solar cell technologies. The encapsulation films used in solar panels for residential, commercial, and utility-scale applications perform better and last longer thanks to these additives.

 

 

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