An acid thickener is a type of chemical additive used to increase the viscosity or thickness of acidic cleaning solutions or products. It is commonly used in formulations where a thicker consistency is desired, such as toilet cleaners, descaling agents, and other acidic cleaning products.
The primary function of an acid thickener is to improve the cling and dwell time of the cleaning solution on vertical or inclined surfaces, allowing it to effectively remove stains, mineral deposits, and other residues. By increasing the viscosity of the solution, the acid thickener helps prevent the cleaner from running off surfaces too quickly, ensuring better coverage and prolonged contact time for more effective cleaning.
Various chemical compounds can serve as acid thickeners, including polymers, gums, and surfactants, which are specifically selected and formulated to work in acidic environments. These additives are typically added to the cleaning solution during the manufacturing process to achieve the desired viscosity and rheological properties.
In summary, an acid thickener is an additive used to increase the thickness and cling of acidic cleaning solutions, enhancing their effectiveness in removing stains and deposits from surfaces.
Product Details:
Minimum Order Quantity | 10 Kg |
Packaging Size | 25 kg |
Brand | Big ideas global |
Form | Liquid Based |
Grade | Commerial Grade |
Usage/Application | Used in Toilet Cleaners |
Feature | Makes Toilet Cleaners Thick |
Packaging Type | Carbay, Drums |
Physical Form | Liquid Form |
Chemical Formula | Concentrated |
Water Soluble | No |
CAS Number | 88893821 |
Density | Solutions |
Melting Point | Low point |
Boiling Point | High point |
Appearance | Liquid Solution |
Refractive Index | 77 percentage |
Storage Condition | room temperature |
Chemical Characteristics | Formulated and Concentrated |
Country of Origin | Made in India |
Acid Thickener, also known as a thickening agent or rheology modifier, is a substance added to a liquid to increase its viscosity or thickness. Acid thickeners are specifically designed to work in acidic environments, which makes them suitable for formulations such as toilet bowl cleaners, descaling agents, and other acidic cleaning products.
These thickeners can improve the clinginess and overall effectiveness of acidic cleaning solutions by preventing them from quickly running off surfaces. Common types of acid thickeners include various polymers and surfactants that interact with the acidic solution to form a thicker consistency. This thicker consistency helps the cleaning product adhere to vertical or inclined surfaces, allowing for better cleaning action and longer contact time.
It's important to note that the selection of an acid thickener depends on factors such as the specific application, desired viscosity, compatibility with other ingredients, and environmental considerations. Additionally, manufacturers must ensure that the acid thickener chosen is safe and effective for its intended use.
Why to use Acid Thickener-
Additional Information:
Product Details:
Packaging Size | 50 kg |
Brand | Big ideas global |
Purity | 99% |
Grade | A+ |
Usage/Application | Toilet cleaner |
Packaging Type | drum |
Physical Form | liquid |
or toilet cleaners, which typically require a thickened acidic solution to effectively clean and cling to surfaces, various acid thickeners can be used. Here are some common options:
Surfactants: Certain surfactants, such as alkyl polyglucosides or ethoxylated fatty alcohols, can serve as acid thickeners in toilet cleaners. These surfactants can help increase viscosity and improve the cleaning properties of the solution.
Polymers: Synthetic polymers like polyacrylic acid or natural polymers like xanthan gum or guar gum can be utilized as acid thickeners in toilet cleaner formulations. These polymers can effectively increase viscosity and provide better adherence to toilet surfaces.
Cellulose derivatives: Carboxymethyl cellulose (CMC) or hydroxyethyl cellulose (HEC) are commonly used as acid thickeners in toilet cleaners. These cellulose derivatives can significantly enhance the viscosity of the acidic solution, ensuring better coverage and cleaning performance.
Inorganic thickeners: Inorganic compounds such as bentonite clay or silica gel can also be employed as acid thickeners in toilet cleaner formulations. These materials can physically interact with the acidic solution to increase viscosity and improve cleaning efficacy.
When selecting an acid thickener for toilet cleaner formulations, it's essential to consider factors such as compatibility with other ingredients, stability, desired viscosity levels, and cleaning performance. Conducting compatibility tests and optimizing formulations are crucial steps to ensure the desired thickening effect and overall effectiveness of the toilet cleaner product.
Product Details:
Packaging Size | 25 kg |
Brand | Big ideas global |
Purity | 99% |
Grade | A+ |
Usage/Application | Use |
Packaging Type | Drum |
Physical Form | LIquid |
or toilet cleaners, which typically require a thickened acidic solution to effectively clean and cling to surfaces, various acid thickeners can be used. Here are some common options:
Surfactants: Certain surfactants, such as alkyl polyglucosides or ethoxylated fatty alcohols, can serve as acid thickeners in toilet cleaners. These surfactants can help increase viscosity and improve the cleaning properties of the solution.
Polymers: Synthetic polymers like polyacrylic acid or natural polymers like xanthan gum or guar gum can be utilized as acid thickeners in toilet cleaner formulations. These polymers can effectively increase viscosity and provide better adherence to toilet surfaces.
Cellulose derivatives: Carboxymethyl cellulose (CMC) or hydroxyethyl cellulose (HEC) are commonly used as acid thickeners in toilet cleaners. These cellulose derivatives can significantly enhance the viscosity of the acidic solution, ensuring better coverage and cleaning performance.
Inorganic thickeners: Inorganic compounds such as bentonite clay or silica gel can also be employed as acid thickeners in toilet cleaner formulations. These materials can physically interact with the acidic solution to increase viscosity and improve cleaning efficacy.
When selecting an acid thickener for toilet cleaner formulations, it's essential to consider factors such as compatibility with other ingredients, stability, desired viscosity levels, and cleaning performance. Conducting compatibility tests and optimizing formulations are crucial steps to ensure the desired thickening effect and overall effectiveness of the toilet cleaner product.
or toilet cleaners, which typically require a thickened acidic solution to effectively clean and cling to surfaces, various acid thickeners can be used. Here are some common options:
Surfactants: Certain surfactants, such as alkyl polyglucosides or ethoxylated fatty alcohols, can serve as acid thickeners in toilet cleaners. These surfactants can help increase viscosity and improve the cleaning properties of the solution.
Polymers: Synthetic polymers like polyacrylic acid or natural polymers like xanthan gum or guar gum can be utilized as acid thickeners in toilet cleaner formulations. These polymers can effectively increase viscosity and provide better adherence to toilet surfaces.
Cellulose derivatives: Carboxymethyl cellulose (CMC) or hydroxyethyl cellulose (HEC) are commonly used as acid thickeners in toilet cleaners. These cellulose derivatives can significantly enhance the viscosity of the acidic solution, ensuring better coverage and cleaning performance.
Inorganic thickeners: Inorganic compounds such as bentonite clay or silica gel can also be employed as acid thickeners in toilet cleaner formulations. These materials can physically interact with the acidic solution to increase viscosity and improve cleaning efficacy.
When selecting an acid thickener for toilet cleaner formulations, it's essential to consider factors such as compatibility with other ingredients, stability, desired viscosity levels, and cleaning performance. Conducting compatibility tests and optimizing formulations are crucial steps to ensure the desired thickening effect and overall effectiveness of the toilet cleaner product.