Anti Sedimentation Agent

Anti Sedimentation Agent is used to prevent the settling of solid particles within a liquid medium. Sedimentation occurs when the gravitational force acting on the particles exceeds the stabilizing forces present in the system, leading to the particles sinking to the bottom. This can be particularly problematic in applications where uniform distribution and long-term stability of suspended materials are essential.

Anti Sedimentation Agent

Organophilic Clay For Oil Drilling Mud

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Organoclay For Solvent Based Paint

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Organoclay For Water Based Paint

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Organo Bentonite For Grease

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Organoclay For Cosmetics

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Organoclay For Inks

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Wax Emulsion for Drilling Fluid

Wax emulsion can not only be used in drilling mud, but also widely used in the fields of coatings and inks, paper and packaging, and plastics.

In the textile and leather industries, it is used as a wear-resistant agent, lubricant, and matting agent, while the use of wax emulsion in leather can give it a better feel and can prevent stains and protect it.

It can be said that the application of wax emulsion is extremely wide.

In addition to the applications we mentioned above, it can also be applied to the ceramic industry, concrete maintenance and sealing industry, as well as adhesives, sealants, and cosmetics.

Wax Emulsion for Drilling Mud

Wax emulsion is used in drilling mud. The first role it plays is to protect the stability of the well wall, and to play a role in lubrication and reducing resistance. At the same time, it can effectively reduce its filtration loss and protect the reservoir.

The reduction of filtration loss is mainly because drilling fluid is more likely to lose drilling fluid, which affects the stability of the well body.

Therefore, we use wax emulsion to seal the gaps in the formation and form a more resilient membrane, so that the pressure membrane of the well wall is not easy to be broken.

ORGANOCLAY:

Our Five-Star Treatment Media

Your first choice for removing organic contaminants from water or sediment, the ORGANOCLAY product range provides formulations to meet almost any adsorption application.

Used and trusted worldwide, it’s proven to work efficiently and effectively.

A little goes a long way – and reduces costs

ORGANOCLAY’s substantial adsorption capacity not only reduces necessary cap thickness compared to a conventional sand cap but can also extend cap life—in some circumstances, for years—and reduce overall costs.

Because ORGANOCLAY can be used as a pre-treatment to Granular Activated Carbon (GAC), ORGANOCLAY can increase overall efficiency by preventing surface pores in GAC from blinding.

The ORGANOCLAY Product Range

Powerfully adsorbant ORGANOCLAY is available in multiple formulations to best mitigate water and sediment contamination in a variety of specific conditions:

ORGANOCLAY: Our coarsest grain media, ORGANOCLAY is a larger and denser version of ORGANOCLAY CP-200 to aid in settling through the water column. When used for sediment capping, ORGANOCLAY can be placed hydraulically or mechanically.

Applications:

Sediment Capping

Organoclay_Sample_Shot

ORGANOCLAY : A proprietary granular filtration media that reliably adsorbs oils and similar organics from water. It is a brown and black mixture of 30% active ORGANOCLAY and 70% anthracite filter media, which allows for maximum utilization of the large sorption capacity of ORGANOCLAY without excessive pressure build-up in the column. When used as an in-series filtration media prior to an activated carbon vessel, ORGANOCLAY extends the life and adsorbency of the activated carbon by removing larger molecular organics before they reach it. It also lowers the overall operating cost relative to using activated carbon alone. ORGANOCLAY can also be used in standalone mode to treat oil-contaminated water and stream condensates.

Applications:

Groundwater Pump-and-Treat

Sediment Dewatering Treatment

Organoclay

ORGANOCLAY: In addition to adsorbing non-aqueous phase liquids and dissolved low-solubility organics, specially-formulated, sulfur-impregnated ORGANOCLAY sequesters mercury (Hg0, Hg+1 and Hg+2) and arsenic (As+5) from water. Ideal for groundwater pump-and-treat or sediment dewatering treatment, ORGANOCLAY can also be used in soil or sediment solidification/stabilization or as an additive to Portland Cement.

Applications:

Groundwater pump-and-treat

Sediment dewatering treatment

Solidification/stabilization

ORGANOCLAY CP-199: Our second finest grain media, ORGANOCLAY CP-199 features high adsorption capacity of oils, greases, and other NAPL. When used as an in-series filtration media prior to an activated carbon vessel, ORGANOCLAY CP-199 extends the life and adsorbency of the activated carbon by removing larger molecular organics that can cause fouling. ORGANOCLAY CP-199 also works as a standalone treatment media to treat oil-contaminated water and stream condensates.

Applications:

Organophilic Filtration Media

Bulk Sediment Capping

Solidification/Stabilization additive

Organoclay_Sample_Shot

ORGANOCLAY CP-200: Our second coarsest grain media, ORGANOCLAY CP-200’s particle size aids in settling through the water column when placing a bulk active in-situ sediment cap. ORGANOCLAY CP-200 is also your best match for intermixing with coarse inert soil for use of a Permeable Reactive Barrier (PRB).

Applications:

Bulk Sediment Capping

Permeable Reactive Barrier (PRB)

Organoclay_Sample_Shot

ORGANOCLAY 199: Our finest-grain media, ORGANOCLAY 199 features medium adsorption of oils, greases, and helps stabilize organics for increased solidification of treated soils and sediment. ORGANOCLAY 199 is for use in soil or sediment solidification/stabilization or as an additive to Portland Cement.

Applications:

In Situ Solidification

How it does it

The ORGANOCLAY product line is a range of proprietary adsorption media that is highly effective in removing oils, greases and other high molecular weight, low solubility organic compounds from aqueous streams. ORGANOCLAY products are specialty sorbents, altered to an organophilic state making them attractive to organic molecules.

Camp Shinning – Pioneer and leader in environmental remediation

Camp Shinning is the leader and pioneer in cutting-edge environmental remediation solutions. Around the globe, our innovative teams of clay mineralogists, chemists, and polymer scientists transform ordinary minerals into extraordinary technology to solve day-to-day problems worldwide.

Organoclay is an organically modified phyllosilicate, derived from a naturally occurring clay mineral. By exchanging the original interlayer cations for organocations (typically quaternary alkylammonium ions) an organophilic surface is generated, consisting of covalently linked organic moieties. The lamellar structure remains analogous to the parent phyllosilicate.

Separation of the layers due to ion exchange, from the initial interlayer spacing of as little as 3 Å in the case of Na+ cations to the distances in the range of 10–40 Å as well as the change of chemical character of the clay surface, allows the in-situ polymerization or mixing with certain polymers to obtain what is known as nanocomposite. When ordered aluminosilicate sheets are lying parallel to each other, separated with polymer chains of certain type, the system is classified as intercalated nanocomposite. If separation of the layers is so significant, that they are no longer lying opposite to one another, but randomly ordered, then one get the exfoliated nanocomposite.

Applications

Owing to its large surface area together with hydrophobic chains emerging from the clay surface, organoclay can be used to remove oil from water. It is also applied as a component in paint formulations or as a viscosifier for oil-based drilling fluids.

It can be used in polymer chemistry as a nucleating agent.

What is Organoclay?

How Organoclay is Used and the Benefits

Organoclay is a naturally occurring material that is commonly used in water treatment. Organoclays are well known for their high removal rate of oils and other hydrophobic compounds in water. The media is a naturally occurring mineral (commonly zeolite, bentonite clay, or a smectite mineral) which is chemically alternated to create a unique surface on the mineral. Camp Shinning’s organoclay is a zeolite based organoclay which has does not swell upon exposure to water.

How does Organoclay Work?

Camp Shinning alters zeolite with a surfactant bilayer that enhances the media’s ability to remove pollutants. The surfactant bilayer is created when a quaternary amine or surfactants is added to the mineral to modify the surface commonly referred to as surface-modified-zeolites (SMZ). By modifying the surface, we create a strong affinity with either cations (positively charged ions, i.e. dissolved metals) or anions (negatively charged ions, i.e. phosphate, nitrate). The bilayer that contains hydrophobic chains will capture non-polar organics such as benzene.

Illustration of How Organoclay Works

How is Organoclay Used?

Organoclays are used in various industries including remediation, water treatment, soil treatment, in polymer chemistry, in paints as a thickening agent, grease, inks, oil drilling fluids, rheological products, cosmetics, and many more commercial and industrial applications.

What are the Benefits of Using Organoclay?

Versatile installation — Load the media in standalone units, post-treatment, or pre-treatment units. To learn more about these systems on our Water Filtration Systems Page.

Cost Savings — Organoclay is an economical alternative to other treatment technologies such as resins or Granular Activated Carbon (GAC).

Increase Efficiency — Organoclays will decrease the loading on other treatment systems and increase the life of capital equipment.

Storage — Organoclays have a long shelf life and require dry ambient environments.

Handling — Organoclays are safe and easy to use.

How is Organoclay Used in Water Treatment?

CP-200 Liquid Phase, Pure Organoclay

Organoclays are used in industrial and commercial water treatment such as:

Condensate Treatment Systems: Condensate treatment is part of every power plant, refinery, chemical manufacturer, and any facility that uses stream. Typically, the condensate is recycled back into the boiler feed water where it is routed through boiler tubes for continued boiler use.

Recycling condensate is a common practice which decreases the amount of water disposal but can be costly if not designed correctly. By not treating the condensate that goes back into your boiler feed water you are introducing high concentrations of pollutants that came off leaking pumps, valves, and piping to your boiler tubes. When these pollutants (hydrocarbons and minerals) are introduced to the boiler tubes they will deposit on the surface which will reduce the heat transfer and overall reducing the boiler efficiency.

Camp Shinning’s works with condensate treatment manufacturers and users on providing a specialty blend of filter material for treating the pollutants that are commonly found in condensate. The condensate treatment blend of filter media uses organoclay and activated carbon to trap the contaminates in its’ pore structure.

Process Water Reuse Systems: Leaking pipes, valves, vessels, or inefficient processes can leave process water tainted with low concentrations of pollutants. These pollutants over time can lead to hazardous water that needs to be hauled off site for treatment. A common use of organoclay is to treat process water onsite in a vessel to reuse the water instead of discharge it or accumulate it and haul it off-site as hazardous waste. Tainted water can lead to downtime of capital equipment and hefty bills for hazardous waste disposal. Examples of process water treatment systems might include the wash water that is used in a metal plating facility, or batch water that has low concentrations of acrylic paint thinner. Simply installing a vessel of organoclay in a process water loop can significantly reduce planned and unplanned downtime.

Organoclays are used in remediation projects such as:

Groundwater Treatment: Pump-and-Treat Systems are typically implemented when groundwater is contaminated. For pump-and-treat systems, the water is typically pumped out of the ground into a large vessel. The large vessel or series of vessels is filled with a filter media (i.e. granular activated carbon, organoclay, resin) that removes any pollutants of concern such as heavy metals or oil. The water is then put back into the ground. Pump-and-treat are cost-effective designs for treating water if you select the most appropriate filter media to target your pollutants.

Sediment Capping: Capping, also known as permeable reactive barrier , is an in-situ remediation technology that typically follows dredging operations. Organoclay is used in sediment capping due to its’ ability to isolate contaminated sediment from a surrounding aquafer or aquatic system. It is a cost-effective material for capping as it has strong affinity for removing high molecular weight polycyclic aromatic hydrocarbons (PAHs), polychlorinated biphenyls (PCBs), and heavy metals.

Stormwater Treatment: Organoclay is used to improve water quality in stormwater runoff. Typically, pollutants found in stormwater are monitored by state regulators to ensure we have clean lakes, rivers, oceans and wetlands

Learn more about how Organoclay is used in water treatment.

Rheological Additive for Solvent Base System

CP-200 is an organic derivative of bentonite clay act as Rheological additive in low to high polarity systems. Such as Ketones, Glycol, Alcohol, Esters and Ethers, includes Polar System with some Aromatic Solvents.

Properties & Markets

Paints & Coatings : A small addition of ORGANOCLAY can greatly enhance the rheological properties of the paint system. These properties prevent pigment settling and sagging on vertical surface to ensure the proper thickness of the coating is applied. They also ensure good leveling for the removal of brush marks.

Storage stability is guaranteed even with high temperatures. ORGANOCLAY confer water resistance and structure reinforcement with no adverse effect on adhesion and solvent relese. Gloss is minimally affected due to the low levels of addition. ALL ORGANOCLAY are used widely in a vast range of solvent based paint systems

Architectural Paints : Undercoats, Primers, Semi-Gloss, Gloss and Wood Stains

Industrial Coatings : Air Drying, Stoving Enamels, Epoxies, Esters, Urethanes, Vinyls, Acrylics, Anti-Corrosive, Automotive, Bitumionous, Coil, Road Marking, Underbody Car Coatings, Nitro Cellulose and Chlorinated Rubber.

Printing Inks : With the correct ORGANOCLAY, is possible to adjust the consistency of printing inks to the desired values, avoiding pigment sedimentation, providing good color distribution obtaining desired film thickness, reduction in misting, control of track, water pick up and dot gain control. ORGANOCLAY are used in much letterpress, lithographic and offset ink.

Lubricating Greases : Thickening lubricating oils with ORGANOCLAY can produce specialty high temperature resistant lubricating greases. ORGANOCLAY also gives good working stability and water resistance to the greases. Such greases are typically used for lubrication in foundries, mills and on high speed conveyors. Other greases can be manufactured for other industries such as agriculture, aviation, automotive and mining.

Cosmetics : The performance of cosmetics is enhanced by the use of ORGANOCLAY and they allow good colour retention and coverage for nail lacquers, lipsticks and eye shadows. They have been tested to be non-irritant for both skin and eye contact.

Food Contact Applications : ORGANOCLAY are used as thixotropic agents in coatings that come into contact with food. They are also used as fillers in plastic food containers. They are acceptable under current EEC legislation on food contact additives.

Drilling Fluids : ORGANOCLAY are used extensively in drilling fluids throughout the world. They are used to suspend the heavy sealing agents, normally barytes and carry the cuttings back to the surface. They also play an important part in lubricating the drill. ORGANOCLAY can also be used as fracfluids, where the gelling ability of them is used to seal rock fractures in the bore hole.

Nanofiller for Plastic : Highly purified organoclays because of their particle size and chemical structure have the unique ability to be able to function in a wide range of monomers and polymers. The resulting properties of polymers, compounded with these unique organoclays include :

Increased Modular Strength without Sacrificing Impact Resistance
Improved Gas Barrier Properties
Increased Solvent and Heat Resistance
Improved Fire Retarding Properties

The combination of these improved properties, convenient processing and relative low costs, makes nano composites a tremendous commercial opportunity as they are superior alternatives to the current fillers used in polymer systems.

Hectorite and Bentonite based organoclay grades

Optimum activation of organoclays by ideal organoclay for highest effectivity

Correct activation for highest efficiency

❖ Optimum shear applied for proper delamination

❖ Correct use of polar activator for conventional grades

❖ Right order of addition for best processing result

organoclays can be optimized by improved process parameters including a review of the process temperature.

However, temperature control during organoclay dispersion in solvent based systems is not as important as with e.g.

organic thixotropes.

Various methods used in manufacturing formulations and procedures sometimes suffer in efficiency when order of addition and mixing conditions are less than optimum.Further, the effects of solvent resin temperature on process development and final results will be discussed.

organoclay materials are based on either

bentonite or Hectorite, both minerals from the smectite group. They consist of microfine platelet stacks that, due to their mineralogical structure, expand in water in their natural form. In order to make them compatible with non-aqueous media such as organic solvents, however, it is necessary to modify the surface of their silicate plates with quaternary ammonium compounds.

The choice of this modification and processing conditions also plays an important role in the practical applicability and performance capabilities of the finished end systems. The resulting organoclay will be dried and milled to achieve a powdered material.

To be most rheologically effective, the size of the individual platelets and the total combined edge length following their successful activation is decisive.

the Hectorite platelets are significantly smaller than the bentonite ones, the resulting edge length per gram of silicate in the Hectorite is much larger.

This makes Hectorite additives able to build up a much denser and more rheologically effective network. In order to be activated, organoclays must first be exposed to high shear forces over a defined swelling period.

What is organophilic clay?

Organophilic clay is a type of clay that has been chemically modified to be compatible with organic solvents and non-aqueous systems. It’s a viscosifier and gelling agent used in various applications, including drilling fluids, paints, and cosmetics.

[Drilling Fluids]

Clay minerals whose surfaces have been coated with a chemical to make them oil-dispersible. Bentonite and hectorite (plate-like clays) and attapulgite and sepiolite (rod-shaped clays) are treated with oil-wetting agents during manufacturing and are used as oil-mud additives. Quaternary fatty-acid amine is applied to the clay. Amine may be applied to dry clay during grinding or it can be applied to clay dispersed in water. The latter process is much more expensive, requiring filtering, drying and other manufacturing steps. Organophilic bentonite and hectorite, “bentones,” are used in oil muds to build rheology for cuttings lifting and solids suspension. They also contribute to low-permeability filter cake. Organophilic attapulgite and sepiolite are used in oil muds strictly to build gel structure, which may not be long lasting due to shear degradation as the mud is pumped through the bit.

CP-2 organophilic clay is a viscosifier and gelling agent used in VERSA oil-based and NOVA synthetic-based systems. This amine-treated bentonite is used to increase carrying capacity and suspension properties, providing support for weighting agents and improved cuttings removal. CP-2 viscosifier also aids in filtercake formation and filtration control.

Applications

CP-2 viscosifier is proven effective in drilling, coring, workover and completion fluids. The product is also effective in specialty applications such as casing packs, packer fluids and spotting fluids. Good agitation and sufficient shear are required to develop viscosity when using CP-2 viscosifier to build fresh mud.

Typical concentrations range from 2 to 10 lbm/bbl [5.7 to 28.5 kg/m3] for most drilling fluid applications, depending on the base fluid and system requirements. Mineral oils generally require higher concentrations than diesel oils. CP-2 viscosifier will not fully yield by the shear and temperature exposure in a mixing plant or mud pit. Care should be taken not to overtreat with CP-2 viscosifier until the fluid has actually circulated through the well. For system maintenance, CP-2 viscosifier should be added as needed to maintain the flow properties and gel strengths in the desired ranges. Specialty applications such as packer fluids and casing packs typically use concentrations in the 10 to 15 lbm/ bbl [28.5 to 43 kg/m3] range.

Advantages

Provides gel structure and viscosity for the suspension of weight materials

Increases viscosity for improved hole-cleaning capacity

Improves filter-cake quality and filtration characteristics

Effective gelling agent in casing packs and packer fluids

Toxicity and handling

Bioassay information is available upon request. Handle as an industrial chemical, wearing protective equipment and observing the precautions described in the safety data sheet.

Packaging and storage

CP-2 viscosifier is packaged in 50-lb [22.7-kg] multiwall paper sacks. Store in a dry, well-ventilated area. Keep container closed. Store away from incompatibles. Follow safe warehousing practices regarding palletizing, banding, shrink-wrapping, and stacking.

So far I’ve had no luck finding organophilic clays like CP series in China apart from one drilling company that wanted upwards of $200 for a 25Kg bag of oil drilling product. I did a trawl of online patents to see how hard the stuff is to make.

Both these chemicals are used in fabric softeners and are available as industrial chemicals. Buying the bentonite and the surfactants above might be a bit more common compared to bentone in countries that don’t drill for oil much.

Is it going to be easy to buy these industrial surfactants than Bentone?, probably is if you can find an industrial chemical supplier who’ll sell you less than a 200 litre drum.

Organophilic Clay

Organophilic clay is a wet process improved viscosifier and gelling additive, derived from a naturally occurring clay mineral.

Feature

Organophilic clay has good performance efficiency in diesel, mineral oil and synthetic Oil; It can effectively suspends weighting materials and other solids, maintains suspension over a wide temperature range.

Application

Organophilic clay is a self-activating gallant offering rapid yield development, high gel strengths, and increased efficiency.

Anti Sedimentation Agent

Organoclay offers unique advantages as an anti-sedimentation additive. It consists of clay minerals, such as montmorillonite, that have been chemically modified with organic molecules. This modification imparts special properties to the clay, enhancing its dispersibility and suspension stability.

The organic molecules in organoclay act as spacers between the clay layers, preventing them from stacking together and facilitating easy dispersion of the particles in the liquid medium. This creates a physical network within the suspension, which is strong enough to counteract the gravitational force acting on the particles.

Organoclay offers excellent compatibility with a wide range of materials. This includes pigments, fillers, and both organic and inorganic compounds. It can be incorporated into various formulations. These can be used as anti-settling additives in paints, coatings, adhesives, and sealants, to improve their storage stability and prevent issues like pigment drying and solidification during prolonged storage periods. Organoclay anti-settling additives ensures that the products remain in a usable state for an extended duration.

Sedimentation Defined

When a solid-liquid mixture is left undisturbed, the force of gravity acts upon the solid particles, causing them to gradually sink towards the bottom of the container. These sinking particles are known as sediments. Sedimentation occurs because of the disparity in density between the solid particles and the surrounding liquid.

The rate at which sedimentation takes place depends on several factors like the size, shape, and density of the solid particles. This also affects the viscosity of the liquid medium. Larger and denser particles tend to settle more rapidly than smaller and less dense particles. Higher viscosity of the liquid slows down the settling process.

Preventing Sedimentation

Organoclay acts as an anti-sedimentation agent by enhancing the rheological characteristics of the paint or ink formulation. When introduced into the liquid medium, the organoclay particles disperse and create a three-dimensional network structure. This network effectively resists the gravitational force acting on the solid particles, preventing them from settling and forming sediments.

The modification of clay minerals with organic molecules in the organoclay process plays a crucial role in enhancing its anti-sedimentation properties. The organic molecules act as spacers between the clay layers, preventing their aggregation and facilitating better dispersion in the liquid medium. This dispersion allows for a more uniform distribution of solid particles, reducing the likelihood of sedimentation during storage.

The physical network created by organoclay provides stability to the paint or ink, ensuring that the solid particles remain suspended and well-dispersed. This contributes to the overall quality and appearance of the final product. The use of organoclay as anti-settling agent for paints helps preserve the homogeneity and performance. This makes it suitable for sale even after prolonged storage periods.

Organoclay Rheology Additives |Anti Sedimentation Agent

Organoclay rheology additives has high efficiency and have the ability to impart significant changes in the rheological properties of the formulation with relatively low dosage levels. Even at low concentrations, organoclay additives can deliver substantial improvements in viscosity, thixotropy, and suspension stability.

Organoclay as Anti Sedimentation Agent contribute to the formation of gels with light color and high clarity. This is desirable in applications where visual aesthetics are important in transparent coatings or clear formulations. This creates visually appealing gels enhances the overall quality and appearance of the end product. Also, unlike some other rheology modifiers, organoclay additives do not require a pregel step. Manufacturers can directly incorporate the organoclay additive into their formulation.

Organoclay as Anti Sedimentation Agent eliminate the need for polar activators. They are commonly used to activate other rheology modifiers. Polar activators can introduce additional complexity to the formulation process and may have compatibility issues with certain systems. Organoclay as Anti Sedimentation Agent exhibit a predictable and consistent impact on the rheological properties of the formulation. This enables formulators to achieve the desired viscosity, thixotropy, and suspension stability consistently, leading to reliable and repeatable results.

It can be used for post-correction purposes. If a formulation requires adjustments to its rheological properties after initial formulation, organoclay additives can be added to achieve the desired modifications. This flexibility allows for fine-tuning and optimization of the formulation to meet specific requirements.

Anti Settling Agent Applications

Organoclay Anti Sedimentation Agent serves as an effective anti-settling agent in various applications. Its ability to form a network that suspends solid particles prevents settling and improves storage stability. This is effective in preventing the settling of solid particles in liquid systems, ensuring improved stability and performance.

Anti Settling Agent For Oil Drilling Mud
Anti Settling Agent For Solvent Based Paints
Anti Settling Agent For Oil Field Cement
Anti Settling Agent For Solvent Based Grease
Anti Settling Agent For Nail Polish
Anti Settling Agent For Solvent Based Inks
Anti Settling Agent for Water Based Paints

Improving Yield Stress in your Paint & Coating Systems

Having sufficient yield stress in paint formulations is essential for several reasons. Firstly, it helps maintain the desired consistency and prevent sagging or dripping when the paint is applied to vertical surfaces. A higher yield stress ensures that the paint adheres to the intended surface and retains its shape, resulting in a more controlled application and better overall appearance.

A paint with a high yield stress exhibits improved storage stability. The strong internal network created by the higher yield stress resists settling and sedimentation of the solid components in pigments and fillers during storage. This prevents the formation of clumps or aggregates and ensures the homogeneity of the paint. Paints with low yield stress may experience phase separation or sedimentation. It leads to quality issues and the need for additional mixing or rework.

Enhancing the yield stress in paint and coating systems can be achieved through various approaches. One common method is the addition of rheology modifiers or thickeners to the formulation. These Anti Sedimentation Agent work by increasing the viscosity and creating a more robust network structure within the paint. They help to immobilize the solid particles and enhance the yield stress, resulting in improved resistance to flow or deformation.

The choice of rheology modifiers depends on the specific requirements of the paint system. Different types of thickeners like associative thickeners or clay-based Anti Sedimentation Agent. This offers varying degrees of yield stress enhancement. Associative thickeners function by forming temporary bonds within the paint matrix, contributing to a more structured network. Clay-based Anti Sedimentation Agent create a physical network through platelet stacking, reinforcing the yield stress of the paint.

Improving Anti-Sag Without Sacrificing Leveling

In formulations with high polarity, the use of organoclay Anti Sedimentation Agent can be beneficial for improving anti-sag properties. Organoclay additives, which are modified clay minerals with organic molecules, can enhance the rheological properties of the coating or paint. They create a physical network within the formulation that helps to immobilize the pigments and prevent sagging.

Organoclay Anti Sedimentation Agent function by increasing the viscosity of the formulation. This helps in reducing sagging. They provide thixotropic behavior, meaning the viscosity decreases under shear stress during application and recovers when the stress is removed after application. This thixotropic behavior allows the coating or paint to flow smoothly during application, while maintaining stability and anti-sag properties when at rest.

As the shear rate increases during application, the elastic modulus of the formulation increases. This increase in the elastic modulus can contribute to better leveling by minimizing excessive flow and ensuring the coating remains in place on vertical surfaces. Formulators need to evaluate and adjust the amount of organoclay Anti Sedimentation Agent and other rheological modifiers based on the specific requirements of the coating or paint system.

Clay Platelets as Anti-Sedimentation and Anti-Settling |Anti Sedimentation Agent

When incorporated into a paint formulation, clay platelets work by creating a three-dimensional network or structure that helps to suspend and disperse solid particles. The platelets stack upon each other, forming interlocking layers that resist the settling caused by gravitational forces. This network acts as a barrier. This prevents the solid particles from sinking to the bottom and forming sediments.

Smectite clays like bentonite clay are known for their exceptional swelling and delamination properties. When these clays come into contact with a liquid medium, they can undergo a process called delamination, where the stacked layers separate and disperse throughout the medium. This delamination process exposes a larger surface area of the clay platelets, leading to improved interactions with the surrounding particles and enhanced anti-settling properties.

To further enhance the anti-settling and anti-sedimentation properties of clay platelets, organoclay Anti Sedimentation Agent are often utilized. These additives are created through the modification of clay platelets with organic molecules. The organic molecules act as spacers and it preventing the platelets from stacking too closely together and facilitating their dispersion within the liquid medium.

Anti Sedimentation Agent

We always deeply believe that organic bentonite is an ideal anti-sedimentation agent. When you use it in paint, whether it is solvent-based paint or water-based paint, its anti-sedimentation performance will not let you down. At the same time, the thixotropy is particularly ideal, and the rheology is also worthy of your expectation.We expect your inquiry about our Anti Sedimentation Agent.

Anti Sedimentation Agent

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