The Science of Brighter Whites: Optical Brightener
Optical Brightener, also known as Fluorescent Whitening Agents (FWAs), are specialized chemical compounds designed to enhance the appearance of color in fabrics, plásticos, and paper. Unlike bleaches—which chemically remove stains—optical brighteners work through a clever “optical illusion” that makes materials appear whiter, cleaner, and more brilliant than they actually are.
How optical brightener Work: The “Blue Shift”
Most natural materials (like cotton or recycled plastic) have a slight yellow tint because they absorb a small amount of blue light from the visible spectrum. Optical brighteners fix this using fluorescence:
- UV Absorption: The molecules absorb invisible ultraviolet (Uv) light from the sun or overhead lighting.
- Re-emission: They convert that energy and re-emit it as visible blue light.
- The Result: The extra blue light masks the natural yellowness of the material. This creates a “whiter-than-white” effect that the human eye perceives as extreme cleanliness or high-end quality.
Key Features & Benefits for Optical brightener
Neutralizing Yellowing: Essential for maintaining the “new” look of white textiles and preventing the aging look of clear plastics.
- Low Dosage, High Impact: These agents are incredibly potent; even a tiny amount (often less than 0.05%) can drastically change the visual brightness of a product.
- Heat Stability: High-grade industrial brighteners (like OB-1) can withstand temperatures up to 360°C, making them perfect for high-heat plastic injection molding.
- Lightfastness: Quality brighteners are engineered to resist degradation from sunlight, ensuring the “bright” effect lasts for the life of the product.
Common Industrial Grades
In the manufacturing world, optical brighteners are categorized by their specific strengths:
| Grade | Primary Use Case | Best Feature |
| OB | Paints, inks, and soft plastics (PVC/EVA). | Excellent solubility and light resistance. |
| OB-1 | Engineering plastics (ANIMAL DE ESTIMAÇÃO, PA, PC) and polyester fiber. | Extreme heat stability for high-temp molding. |
| KCB | Synthetic leather and shoe soles. | Vivid blue-violet tone; great for “icy” finishes. |
| KSB | Coatings and transparent films. | Superior compatibility with various polymers. |
Popular Applications
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Consumer Detergents: The “blue specks” or liquid additives in laundry soap that keep your white shirts looking crisp after dozens of washes.
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Plastics & Packaging: Used in everything from white milk jugs to clear cosmetic bottles to ensure the plastic looks “clean” rather than recycled or dull.
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Paper Manufacturing: High-quality printer paper uses these agents to achieve high ISO brightness levels for sharper text contrast.
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Textiles: Essential for the production of synthetic fibers like polyester and nylon to achieve a “bleached” aesthetic without damaging the fiber’s integrity.
Nome Químico:
2,5-Tiofenediylbis(5-tert-butyl-1,3-benzoxazole)
Nome do Sinônimo:
Uvitex Ob, Tinopal OB, Iluminador fluorescente 184 (Fb 184) , c.i.184, Brilhante fluorescente OB
Especificação:
| Aparência | Pó amarelo ligeiro esverdeado |
| Dosagem | 0.01-0.05% |
| Ponto de fusão | 196-200° c |
| Pureza | ≥99% |
| Solubilidade | (solução g/100 g) a 20° C: |
| Acetona | 0.5 |
| Clorofórmio | 14 |
| Dimetilformamida | 0.8 |
| Dioxano | 2 |
| n-Hexane | 0.2 |
| Metanol | <0.1 |
| Metiltilkeona | 1.3 |
| Tricresylphosphate | 0.8 |
| Xileno | 5 |
Aplicação:
>Características:Brilhantes efeitos de clareamento azulado; excelente resistência ao calor; alta estabilidade química; boa compatibilidade em uma ampla gama de resina.
>O Optical Brightener OB é usado como um iluminador e para compensar o amarelamento de um polímero e produzir uma aparência mais branca. Usado principalmente como termoplástico (PVC, PS, PE, PP, ABS) iluminador óptico. Também para revestimentos, tintas de impressão, Tintas, Corantes, fibras fabricadas, couro sintético, Ceras, Gorduras, e óleos. Recomendo apenas o uso interno.
>Se OB deve ser usado em combinação com um absorvedor UV, o espectro de absorção deste último deve deixar uma janela aberta na UVA próxima para o ob iluminador óptico.
>Concentrações recomendadas:0.02-5% dependem da aplicação e grau de brancura desejada.
Entrega e Segurança:
>FDA aprovado para uso em polímeros sujeitos às limitações em 21 CFR §176.170(C).
>Para obter informações adicionais sobre entrega e toxicológicas, por favor, consulte-nos para Folha de data de segurança materna.
Pacote:
25kg por tambor de fibra, 6*2 Camada 12 tambor por palete, 5CBM por tonelada,ou de acordo com as exigências dos clientes.
