Overview of Nonionic Surfactant

Nonionic surfactants are surface-active agents that do not ionize in aqueous solutions. They are widely used in various industries, including detergents, cosmetics, and pharmaceuticals, due to their excellent solubilizing, emulsifying, and wetting properties. These surfactants are derived from alcohols, acids, or amines and are known for their versatility and compatibility with other surfactants.

Features of Nonionic Surfactant

Non-Ionic Nature: Do not form ions in water, making them less sensitive to hard water and electrolytes.

Versatility: Compatible with both anionic and cationic surfactants, allowing for broad formulation flexibility.

Solubilization: Excellent at solubilizing oils and other hydrophobic substances.

Emulsification: Effective in creating stable emulsions, which is crucial for many cosmetic and pharmaceutical formulations.

Wetting Ability: Enhances the wetting of surfaces, improving cleaning efficiency.

Low Foaming: Generally produce less foam compared to other types of surfactants, which can be advantageous in certain applications like industrial cleaning.

Temperature Stability: Maintain effectiveness over a wide range of temperatures, making them suitable for high-temperature processes.

Environmental Friendliness: Some nonionic surfactants are biodegradable, contributing to more environmentally friendly products.

(Low Molecular Weight Nonionic Silicone Polyether Surfactant)

Specifications of Low Molecular Weight Nonionic Silicone Polyether Surfactant

This product is a low molecular weight nonionic silicone polyether surfactant. It incorporates silicone and polyether groups to supply balanced surface area task. The molecular framework consists of a versatile silicone backbone with attached polyether chains. This layout boosts compatibility with both water-based and solvent-based systems. The low molecular weight allows faster dispersing and penetration.

The surfactant jobs as a wetting agent, emulsifier, and stabilizer. It decreases surface area stress efficiently in several formulas. It stays secure under heats and vast pH ranges. It resizes foam formation in applications needing minimal bubbles. The nonionic nature ensures compatibility with various other nonionic or anionic components.

Normal usages include industrial coverings, individual care products, and agricultural adjuvants. In coatings, it boosts substrate wetting and leveling. For hair shampoos or conditioners, it adds softness without leaving deposit. In agrochemicals, it helps pesticides adhere to plant surface areas much better. The product works in hard water conditions and does not shadow services.

Secret specs cover physical and chemical buildings. The molecular weight varieties between 1000 and 3000 g/mol. It looks like a clear, colorless to pale yellow liquid. The viscosity stays between 50 and 200 mPa · s at 25 ° C. The pH degree is neutral, typically 6.0 to 7.5. It liquifies easily in water and common organic solvents like ethanol. The energetic material is above 99% with low unstable contaminations.

Storage calls for keeping the product secured in an awesome, dry area. Prevent straight sunshine and temperature levels over 40 ° C. The life span is one year when saved properly. Safety standards advise utilizing handwear covers and goggles during handling. It is free from hazardous substances like APEO and heavy metals.

The surfactant fulfills market requirements for environmental and user safety and security. It biodegrades more efficiently than standard silicone additives. Checking confirms very little marine toxicity. It fits applications calling for conformity with worldwide governing frameworks.

(Low Molecular Weight Nonionic Silicone Polyether Surfactant)

Applications of Low Molecular Weight Nonionic Silicone Polyether Surfactant

Low molecular weight nonionic silicone polyether surfactants are functional additives used across lots of industries. These surfactants incorporate silicone’s adaptability with polyether’s water solubility. They function as stabilizers, emulsifiers, and wetting agents. Their small molecular dimension boosts compatibility with other ingredients. This makes them effective in solutions needing smooth mixing.

In cosmetics, these surfactants boost product texture. They lower dampness in lotions and creams. They assist distribute active ingredients evenly. They stabilize emulsions in sun blocks and make-up. Their mildness matches delicate skin. They boost spreadability without irritability.

Farming uses these surfactants to boost pesticide effectiveness. They help sprays stay with plant surface areas. They decrease bead drainage. This ensures also coverage. They assist nutrients penetrate fallen leaves much faster. They operate in difficult water problems. They stop blocking in watering systems.

Fabric manufacturing counts on them for fabric conditioners. They give materials a smooth feeling. They reduce fixed cling. They assist dyes spread out evenly. They avoid uneven coloring. They work in high-temperature dyeing procedures. They keep fabric breathability.

Coatings and paints gain from their leveling residential or commercial properties. They decrease surface defects like bubbles. They boost paint bond. They enhance water resistance. They assist pigments remain blended. They work in both water-based and solvent-based systems. They decrease drying time.

Industrial cleaners use them for grease elimination. They break down oil promptly. They protect against redepositing dirt. They work in low-concentration formulas. They rinse off easily. They leave no deposit. They are secure for steels and plastics.

Foam control is an additional vital application. They maintain foam where required. They fall down excess foam in processes. They operate in detergents and lubricating substances. They take care of high-pressure atmospheres. They carry out regularly throughout temperature levels.

Drugs utilize them in topical products. They boost drug absorption. They keep solution security. They are safe. They satisfy stringent safety and security requirements. They operate in gels and ointments.

These surfactants adapt to intricate formulations. They resolve obstacles in product development. They stabilize performance and expense. They meet regulatory needs. Their adaptability makes certain vast functionality.

Company Introduction

Welcome to Robocup, a premier global supplier of high-quality surfactants. Our extensive range includes anionic, cationic, nonionic, and amphoteric surfactants, catering to industries such as personal care, textiles, cleaning, and industrial applications. With advanced manufacturing facilities and rigorous quality control, we ensure that our products meet the highest international standards. We pride ourselves on our commitment to innovation, sustainability, and customer satisfaction. Our dedicated team provides tailored solutions to meet your specific needs. Partner with us for reliable, high-performance surfactants that drive your business forward. Explore our offerings and discover the difference today.

If you have any questions, please feel free to contact us(nanotrun@yahoo.com).

Payment Methods

T/T, Western Union, Paypal, Credit Card etc.

Shipment Methods

By air, by sea, by express, as customers request.

5 FAQs of Low Molecular Weight Nonionic Silicone Polyether Surfactant

What is Low Molecular Weight Nonionic Silicone Polyether Surfactant?
This surfactant combines silicone and polyether chains. It has a smaller molecular size. This structure helps it mix well in water-based systems. It works as a wetting agent or stabilizer. The nonionic part means no charge, making it versatile for different formulas.

Where is this surfactant used?
It fits industries needing surface activity without foam. Examples include coatings, inks, personal care products. It spreads evenly on surfaces. This makes it good for paints to avoid uneven drying. In shampoos, it adds smoothness without irritating skin.

What benefits does it offer over other surfactants?
It balances stability and performance. Low molecular weight lets it penetrate materials faster. Nonionic nature prevents reactions with charged ingredients. It works in acidic or alkaline conditions. Foam generation is minimal, ideal for processes needing clear visibility.

Is it compatible with other surfactants?
Yes. It blends with most nonionic, anionic, or cationic surfactants. This allows flexible formulation. Testing is still advised for specific mixes. Compatibility depends on concentration and pH levels. Adjust ratios if separation or cloudiness happens.

Is this surfactant safe to handle?
Standard safety steps apply. Wear gloves and eye protection. Avoid direct skin contact. Inhalation risks are low but ensure good ventilation. Check local regulations for disposal. Biodegradability varies by formula—review supplier data for environmental impact.

(Low Molecular Weight Nonionic Silicone Polyether Surfactant)