商品説明
Silane-Based Modifier for Photovoltaic EPE Films is a cutting-edge solution that was developed with the intention of improving the efficiency and dependability of photovoltaic (PV) encapsulant films that are manufactured from ethylene propylene elastomer (EPE). The silane chemistry is incorporated into this modifier, which offers distinctive properties that provide a multitude of advantages, benefits, and application-specific specifics. Because of its silane chemistry, thermal stability, resistance to ultraviolet light, moisture barrier qualities, and electrical insulation, it provides a multitude of advantages, such as a longer module lifespan, greater power output, resistance to environmental conditions, enhanced safety, and cost-effectiveness.
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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
| 特徴 | 価値 | 単位 | 試験方法 |
| 密度 | 0.87 | g/cm3 | ASTM D792 |
| 溶融温度 | 46 | ℃ | DSC |
| メルトフローレート(190℃2.16kg) | 8- 15 | g/10分 | ASTM D1238 |
| 機能グループの内容 | 高い | wt% | COACEメソッド |
| 外観 | 顆粒 | / | / |
| カラー | 半透明または白 | / |
- Silane Chemistry: The modifier is formulated with silane compounds, which enables chemical bonding with the EPE matrix. This results in increased adhesion and compatibility between the two materials.
- UV Resistance: It offers improved UV resistance, which safeguards the encapsulated photovoltaic cells and the EPE films from the deterioration that is brought on by prolonged exposure to sunshine.
- Electrical Insulation: It keeps its outstanding electrical insulation capabilities, which prevents any electrical leakage or short-circuiting from occurring within the PV module.
- Moisture Barrier: The silane-based modifier improves the moisture barrier qualities of the EPE films, which stops moisture from entering the PV cells and protects them from any potential harm that could occur.
- Thermal Stability: The modifier demonstrates exceptional thermal stability, which guarantees reliable performance over extended periods of time even when subjected to the increased temperatures that are typical of PV module applications.
メリット
The silane-based modifier increases the overall durability and reliability of PV modules by boosting the performance of the encapsulant films.
Enhanced Module Durability: The silane-based modifier is responsible for this improvement. The operating lifetime of the module is increased as a result, which means that the danger of premature failure is decreased and the return on investment is increased.
Increased Power Output: The modifier does this by enhancing the adhesion between the EPE film and the PV cells. This effectively reduces the likelihood of delamination or air gaps occurring, which in turn allows the module to produce the maximum amount of power possible.
Increased Resistance to Environmental conditions: The silane-based modifier increases the resistance of the EPE films to a variety of environmental conditions, including moisture, temperature variations, and UV radiation. This ensures that the module performance remains stable and constant over time.
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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
The silane-based modifier considerably improves the adhesion between the EPE film and a variety of PV cell types, such as crystalline silicon, thin-film, and upcoming technologies.
Applications of the Product in Particular:
Photovoltaic Encapsulation Films: The silane-based modifier was designed expressly for use in PV encapsulant films, with the goal of improving the performance and reliability of these films in solar modules.
Producing of Solar Modules: It is an essential component in the process of producing photovoltaic modules, as it guarantees the durability and integrity of the encapsulating layer.
Renewable Energy Industry: The modifier helps to meet the ever-increasing demand for PV modules that are dependable and efficient in the renewable energy sector, which in turn contributes to the development of sustainable energy solutions.
