Comprehensive Guide to Zinc Oxide, SLES 70%, and Water-Based Resins for Industrial Applications

In today’s fast-evolving chemical industry, ingredients like Zinc Oxide, Sodium Lauryl Ether Sulfate (SLES 70%), and water-based resins play a vital role in manufacturing high-performance products. Each compound contributes unique properties, ensuring efficiency, durability, and sustainability across multiple industries.

Zinc Oxide (CAS 1314-13-2, HS Code 3812100000)

Zinc Oxide (ZnO) is a multifunctional inorganic compound known for its wide industrial usage. It appears as a fine white powder and is recognized for its excellent UV protection, antibacterial, and catalytic properties.

Key Applications of Zinc Oxide

Cosmetics and Skincare: Used in sunscreens and lotions for UV blocking.

Rubber Industry: Acts as an activator in rubber vulcanization.

Ceramics and Paints: Provides opacity, brightness, and heat resistance.

Pharmaceuticals: Used in ointments, creams, and antiseptics.

Its high thermal conductivity and chemical stability make it essential in modern formulations, offering both functionality and performance enhancement.

SLES 70% (CAS 68585-34-2, HS Code 3402390000)

Sodium Lauryl Ether Sulfate (SLES 70%) is a popular anionic surfactant widely used in cleaning and personal care products. It combines powerful cleaning ability with excellent foaming performance SLES 70% 68585-34-2 3402390000.

Main Uses of SLES 70%

Personal Care Products: Found in shampoos, body washes, and facial cleansers.

Household Cleaners: Provides effective grease and dirt removal.

Industrial Cleaners: Used in detergents and emulsifiers.

SLES 70% offers excellent solubility in water and blends easily with other surfactants. Its mildness and strong foaming make it suitable for sensitive applications without causing irritation.

Water-Based Acrylic Emulsion (HS Code 3906909090)

Water-based acrylic emulsions are eco-friendly polymers used as binders in paints, coatings, and adhesives. They deliver durability, flexibility, and weather resistance, making them a top choice for sustainable industries.

Key Benefits

Environmentally Friendly: Low VOC emissions compared to solvent-based alternatives.

Strong Adhesion: Provides excellent film formation on various substrates.

Water Resistance: Protects surfaces against moisture and abrasion.

These emulsions are widely used in construction materials, textile coatings, and industrial paints, supporting green innovation and reducing environmental impact.

Water-Based Polyurethane Resin (HS Code 3909500000)

Water-based polyurethane (PU) resins are advanced polymers that combine toughness with flexibility. They provide exceptional abrasion resistance, clarity, and chemical stability, outperforming traditional solvent-based systems.

Applications

Coatings and Finishes: Used in wood, leather, and plastic coatings.

Adhesives: Ensures strong bonding with minimal odor.

Textile Finishing: Offers softness, elasticity, and breathability.

These resins are a cornerstone of modern coatings technology, offering high performance with low environmental footprint.

Hydroxypropyl Methyl Cellulose (HPMC) (CAS 9004-65-3, HS Code 3912900000)

Hydroxypropyl Methyl Cellulose (HPMC) is a versatile non-ionic cellulose ether derived from natural polymers. It acts as a thickener, stabilizer, and film former in various industrial and consumer products.

Common Applications

Construction Materials: Improves water retention and workability in cement and plaster.

Pharmaceuticals: Used in tablet coatings and controlled-release formulations.

Food and Cosmetics: Serves as an emulsifier and stabilizer.

HPMC enhances product texture, consistency, and stability, making it indispensable across industries.

Conclusion

From Zinc Oxide to HPMC, these essential compounds serve as the backbone of countless industrial and consumer products. Their unique chemical properties, combined with eco-friendly advancements like water-based resins, drive innovation in coatings, cosmetics, pharmaceuticals, and cleaning solutions.