商品説明
For the purpose of improving the efficiency and longevity of photovoltaic modules, the Silane Functional Additive for Photovoltaic POE Film provides a solution that is both dependable and efficient. Because of its one-of-a-kind characteristics, such as silane modification, better UV resistance, moisture barrier capabilities, and temperature stability, it offers considerable benefits in terms of greater longevity, higher performance, and enhanced safety. As a result of its use in the production of solar panels, building-integrated photovoltaics, and a variety of solar energy systems, this additive contributes to the development of environmentally friendly and renewable energy solutions.
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) | 46℃(115℉) | ASTM D3418 |
MFR(190℃ 2.16kg) | 8~15g/10分 | ASTM D1238 |
シラン含有量 | 高い | 内部メソッド |
注: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。
梱包と輸送:梱包と輸送20キロビニール袋、非危険物によると、日光、雨を避ける。
Product Characteristics The Silane Functional Additive for Photovoltaic POE Film possesses a number of characteristics that render it very well-suited for applications involving PV modules, including the following:
- First, the additive is infused with silane molecules, which enables it to make covalent connections with the POE matrix. This is referred to as the silane modification strategy. Because of this functionalization, the compatibility and adhesion between the additive and the film are improved, which in turn ensures that the film’s transparency is enhanced.
- Improved resilience to UV Radiation: The silane functional addition provides the POE film with unparalleled resilience to ultraviolet radiation, shielding it from the potentially damaging effects of prolonged exposure to sun radiation. This characteristic contributes to the fact that the film’s optical qualities and mechanical strength are preserved over an extended length of time.
- Moisture Barrier: The silane functionalization provides a moisture-resistant barrier inside the POE film, which reduces the amount of water that is able to penetrate the film and prevents any possible deterioration that could be caused by moisture-induced effects such as corrosion, delamination, or the breakdown of electrical insulation.
メリット
(a) Increased Longevity Due to: The film’s resistance to mechanical stress, ultraviolet radiation, and moisture ingress is greatly improved as a result of the silane functionalization, which features improved compatibility and adhesion and provides these benefits. As a consequence, the durability of PV modules is considerably improved, and their lifespan is extended.
b) Improved Performance: The silane functional additive’s resistance to ultraviolet light and temperature stability ensure that the photovoltaic modules continue to perform at their highest level, even when subjected to difficult environmental circumstances. This results in a higher energy output as well as an increase in the overall efficiency of the system.
c) Increased Safety: The silane functional additive has features that act as a moisture barrier, which are beneficial in protecting the electrical components that are included within the PV module. This helps to reduce the chance of electrical insulation breaking down, which in turn ensures a safer operation.
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
Application Industries: The Silane Functional Additive for Photovoltaic POE Film finds application in various industries within the photovoltaic sector, including:
a) Solar Panel Manufacturing: This functional additive is widely used in the production of PV modules, where it enhances the durability and performance of the POE films used as encapsulation materials and backsheet layers.
b) Building-Integrated Photovoltaics (BIPV): The silane functional additive has the potential to be utilized in BIPV applications, which involve the incorporation of photovoltaic modules into building materials such as roof tiles or glass facades. This additive ensures that the performance in architectural settings will persist for a long time because it provides greater durability and resistance to ultraviolet light.
c) Solar Energy Systems: Additional applications for the silane functional additive include freestanding solar power systems, solar street lighting, and solar water pumping systems. These applications are all examples of solar energy systems. The lifetime and dependability of the POE films that are utilized in these applications are both improved as a result of this.