商品説明
BDCはエポキシ基を含むスチレン-ブタジエン共重合体で、黄色っぽい外観をしている。
BDC is actually an acronym for “Butadiene Diepoxide Coupled” and refers to a type of styrene-butadiene copolymer that contains epoxy groups. This copolymer is known for its yellowish appearance, which can be attributed to the presence of the epoxy groups.
Styrene-butadiene copolymers are commonly used in a variety of applications, including adhesives, coatings, and sealants. The addition of epoxy groups to the copolymer can improve its adhesive properties, making it more effective at bonding to a variety of surfaces.
The yellowish appearance of BDC is a result of the chemical structure of the epoxy groups. These groups contain aromatic rings that absorb light in the visible spectrum, giving the copolymer a yellowish tint. The color of BDC can vary depending on the amount of epoxy groups present in the copolymer and the specific conditions of the manufacturing process.
Overall, BDC is a valuable material for improving the adhesive properties of styrene-butadiene copolymers. Its yellowish appearance is a characteristic of its chemical structure and can be an advantage in certain applications where color is not a concern.
Products from the Coace Special Alloy Series are excellent coupling agents for mixes of ABS/PC and ABS/PBT. In the creation of high-performance materials, these coupling agents have substantial advantages due to their improved mechanical properties, enhanced compatibility, and exceptional thermal stability. For applications ranging from consumer goods to automobiles, electronics, and appliances, the Coace Special Alloy Series offers a dependable way to maximize the performance of ABS/PBT and ABS/PC blends, resulting in better qualities and longer product lifespans.
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
| Product Model | BDC |
| 外観 | Light yellow even granules |
Comparison parameters of different applications:
Styrene, butadiene copolymer and polyester alloy compatibilizer
| パフォーマンス | 数値 | 試験方法 |
| 密度 | 1.02g/cm3 | ASTM D792 |
| Melt flow rate(220ºC/5kg) | 2.0~5.0g/10分 | ASTM D1238 |
| エポキシ基含有量 | 高い | Coace Method1 |
| 水分 | ≤0.3 % | ハロゲン迅速水分測定 |
注:上記のデータは試験された典型的な値であり、仕様として解釈されるべきではない 低 0.8 wt %
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
It is epoxy functionalized Styrene copolymer.
The high content of epoxy groups offer adhesion to most polyester polymer, and the base Styrene co-polymer could have good compatibility with ABS, AS polymers.
It is designed as a kind of compatibilizers for the blends like ABS/PBT, ABS/PC, etc.
Solutions by industry:
Automotive Components: Applications involving automobiles are ideally suited for the Coace Special Alloy Series. It improves the mechanical qualities and thermal stability of the blends by strengthening the compatibility between ABS and PBT or PC. Automotive housings, electrical connectors, and external and interior components can all be made with these coupling agents.
Electronic Enclosures: ABS/PBT and ABS/PC mixes are frequently utilized in the electronics industry, where the Coace Special Alloy Series finds application. These coupling agents enhance the mechanical strength, flame retardancy, and compatibility of the mix, which makes them perfect for the manufacturing of connectors, electronic enclosures, and structural parts.
Consumer Products: High-performance materials can be developed for consumer goods thanks to the Coace Special Alloy Series. It improves the mechanical qualities and compatibility of ABS/PC and ABS/PBT mixes, making them appropriate for usage in furniture, sporting goods, and home appliances.
Industrial Equipment: Applications involving industrial equipment are another area in which the Coace Special Alloy Series excels. Blends of ABS/PBT and ABS/PC have better compatibility and mechanical strength, which makes them excellent for usage in industrial machinery, equipment housings, and structural components. These materials can survive harsh environments.
