Aluminum chlorohydrate combines advanced engineering with a formulation that ensures excellent thermal stability, even under extreme operating conditions.

Aluminum chlorohydrate is a complex inorganic salt that consists of complex basic aluminium chloride, and is believed to act as an antiperspirant by precipitating inside the eccrine sweat glands to produce insoluble aluminium hydroxide.

Aluminum chlorohydrate is used in cosmetics as an antiperspirant and as a coagulant in water purification, preferred in some cases because of its high charge, which makes it more effective at destabilizing and removing suspended materials than other aluminum salts.

CAS Number: 12042-91-0

EC Number: 234-933-1

Molecular Formula: AlClH5O-

Molecular Weight: 83.47

Synonyms: Aluminum chloride, basic, ALUMINUM CHLORHYDROXIDE (AL2(OH)5CL), ALUMINUM CHLOROHYDRATE (AL2(OH)5CL), ALUMINUM CHLOROHYDRATE ANHYDROUS, ALUMINUM CHLOROHYDROXIDE, BASIC ALUMINUM CHLORIDE (AL2(OH)5CL), DTXSID8050449, Every Man Jack Cedarwood Antiperspirant, Every Man Jack Sandalwood Antiperspirant, Every Man Jack Sea Salt Antiperspirant, ICEKING Refresh Armpit, 12042-91-0, 1327-41-9, 407PSC3OC7, ALUMINUM CHLORHYDRATE (AL2(OH)5CL), ALUMINUM CHLORIDE HYDROXIDE, BASIC ALUMINUM CHLORIDE, ALUMINUM CHLOROHYDROXIDE,ALUMINUM CHLOROHYDROXIDE, DIHYDRATE,ALUMINUM HYDROXYCHLORIDE, DIHYDRATE, MACROSPHERICAL(R) 95, BASIC ALUMINUM CHLORIDE, CHLORHYDROL(R), POLYALUMINUM CHLORIDE, aluminum chloride oxide

Aluminum chlorohydrate is a high-performance polymer designed for use in various industrial applications, offering superior properties in the realm of lubricants, coatings, and additives.

Aluminum chlorohydrate is known for its exceptional friction-reducing capabilities, making it ideal for applications where wear and tear resistance is critical.

Aluminum chlorohydrate combines advanced engineering with a formulation that ensures excellent thermal stability, even under extreme operating conditions.

This material provides long-lasting performance, contributing to increased efficiency, reduced maintenance needs, and prolonged equipment lifespan.

Aluminum chlorohydrate is often utilized in machinery, automotive parts, and other high-stress environments due to its ability to withstand high temperatures and pressures.

The unique formulation of Aluminum chlorohydrate incorporates specific additives that enhance its overall functionality, providing a protective layer that reduces friction and minimizes the formation of harmful deposits.

This makes Aluminum chlorohydrate especially suitable for high-performance machinery where traditional lubricants may fail or degrade over time.

Additionally, Aluminum chlorohydrate exhibits excellent compatibility with other lubricants and is known for its low volatility and high oxidative stability, which further contributes to its long-term effectiveness.

Whether in automotive applications, industrial manufacturing, or precision machinery, Aluminum chlorohydrate stands as a top-tier solution for demanding performance requirements.

Aluminum chlorohydrate is an antiperspirant agent for the cosmetic industry. 

Aluminum chlorohydrate is suitable for several types of perspiration-reducing preparations, such as roll-on, pump-spray, emulsions, and aqueous gels.

Aluminum chlorohydrate can also be incorporated in skin lotions, skin creams, and shaving lotions to achieve a slight astringent effect.

Aluminum chlorohydrate, specifically, has been formulated to provide a clear solution with reduced iron content compared to other Locron variants, which helps minimize issues such as yellowing of clothes. 

Aluminum chlorohydrate is generally well-tolerated, though dermatological testing is recommended to ensure skin compatibility when used in final formulations​

Aluminum chlorohydrate is a complex inorganic salt that consists of complex basic aluminium chloride. 

Aluminum chlorohydrate is a soluble aluminum complex. 

Aluminum chlorohydrate is believed that ACH acts as an antiperspirant by precipitating inside the eccrine sweat glands to produce insoluble aluminium hydroxide, which then plugs the gland. 

There are many soluble aluminium salts that can be used as antiperspirants, but they differ only in the relative amounts of aluminium, chloride, and zirconium. 

Only Aluminum chlorohydrate may be used in aerosol formulations. 

Aluminum chlorohydrate is also desirable because it has a pH of about 4.5, which is less acidic than other aluminum salts and, therefore, does not irritate the skin or damage clothing as much as plain aluminum chloride. 

The empirical formula for Aluminum chlorohydrate is Al2(OH)5Cl·2H2O. 

However, when dissolved, the basic unit of ACH is more closely given by Al13O4(OH)24(H2O) with seven disassociated Cl ions.

Aluminum chlorohydrate is an antiperspirant agent for the cosmetic industry. 

Aluminum chlorohydrate is a mild astringent that has a slight deodorizing eect.

Aluminum chlorohydrate used in a wide range of antiperspirant and deodorant formulations.

Aluminum chlorohydrate is an antiperspirant active especially for roll-on and pump spray. 

Aluminum chlorohydrate acts as a long-term perspir agent for all common deodorants. 

Aluminum chlorohydrate is also used in creams, lotions and aftershave formulations.

Aluminum chlorohydrate is a mild astringent that reduces perspiration and has a slight deodorising eect. 

Aluminum chlorohydrate is therefore used in a wide range of antiperspirant and deodorant formula-tions.

Aluminum chlorohydrate has been used on a growing scale for many years throughout the world as an active ingredient in antiperspirant products. 

Aluminum chlorohydrate is generally well tolerated also on long-term use.

Although Aluminum chlorohydrate is beeing well tolerated, dermatologi-cal trials should be carried with the nal antiperspirant/deodorant formulation to establish beyond doubt that no skin irritation is caused by the combination of products, each of which is in itself non-irritant.

Aluminum chlorohydrate is a group of specic aluminum salts having the general formula AlnCl(3n-m)(OH)m. 

Aluminum chlorohydrate is used in cosmetics as an antiperspirant and as a coagulant in water purication.

In water purication, Aluminum chlorohydrate is preferred in some cases because of its high charge, which makes it more eective at destabilizing and removing suspended materials than other aluminum salts such as aluminium sulfate, aluminium chloride and various forms of polyaluminium chloride (PAC) and polyaluminium chlorisulfate, in which the aluminum structure results in a lower net charge than aluminium chlorohydrate.

Further, the high degree of neutralization of the HCl results in minimal impact on treated water pH when compared to other aluminium and iron salts.

Aluminum chlorohydrate is a group of specic aluminium salts having the general formula AlnCl(3n-m)(OH)m. 

Aluminum chlorohydrate is used in deodorants and antiperspirants and as a coagulant in water purication.

In water purication, Aluminum chlorohydrate is preferred in some cases because of its high charge, which makes it more eective at destabilizing and removing suspended materials than other aluminium salts such as aluminium sulfate, aluminium chloride and various forms of polyaluminium chloride and polyaluminium chlorisulfate, in which the aluminium structure results in a lower net charge than aluminium chlorohydrate.

Further, the high degree of neutralization of the HCl results in minimal impact on treated water pH when compared to other aluminium and iron salts.

The Aluminum chlorohydrate grades are aluminum hydroxychlorides in solid form (Locron S, Locron P) or as a 50 % aqueous solutions (Locron L, LIC, LIF).

Aluminum chlorohydrate is a mild astringent that reduces perspiration and has a slight deodorising eect. 

Aluminum chlorohydrate is therefore used in a wide range of antiperspirant and deodorant formulations.

Aluminum chlorohydrate has been used on a growing scale for many years throughout the world as an active ingredient in antiperspirant products. 

Aluminum chlorohydrate is generally well tolerated also on long-term use.

Although Aluminum chlorohydrate is beeing well tolerated, dermatological trials should be carried with the nal antiperspirant/deodorant formulation to establish beyond doubt that no skin irritation is caused by the combination of products, each of which is in itself non-irritant.

Water treatment chemical Aluminum chlorohydrate, Inorganic macromolecular compound; colorless or light yellow solid powder, compeletely dissolved in water with corrosion.

Aluminum chlorohydrate is a mild astringent that reduces perspiration and has a slight deodorising eect. 

Aluminum chlorohydrate is therefore used of antiperspirant and deodorant formula-tions.

Aluminum chlorohydrate has been used on a growing scale for many years throughout the world as an active ingredient in a products. 

Aluminum chlorohydrate is generally well tolerated also on long-term use.

Although Aluminum chlorohydrate is beeing well tolerated, dermatologi-cal trials should be carried with the nal antiperspirant/deodorant form establish beyond doubt that no skin irritation is caused by the combination of products, each of which is in itself non-irritant.

Aluminum chlorohydrate is a group of specic aluminum salts having the general formula AlnCl(3n-m)(OH)m. 

Aluminum chlorohydrate is used in cos antiperspirant and as a coagulant in water purication.

In water purication, Aluminum chlorohydrate is preferred in some cases because of its high charge, which makes it more eective at dremoving suspended materials than other aluminum salts such as aluminium sulfate, aluminium chloride and various forms ochloride (PAC) and polyaluminium chlorisulfate, in which the aluminum structure results in a lower net charge than aluminium Further, the high degree of neutralization of the HCl results in minimal impact on treated water pH when compared to other a iron salts.

Aluminum chlorohydrate is an antiperspirant agent for the cosmetic industry. 

Aluminum chlorohydrate is suitable for several types of perspiration-reducing preparations, such as roll-on, pump-spray, emulsions, and aqueous gels. 

Aluminum chlorohydrate can also be incorporated in skin lotions, skin creams, and shaving lotions to achieve a slight astringent effect.

Aluminum chlorohydrate is a group of specic aluminium salts having the general formula AlnCl(3n-m)(OH)m. 

Aluminum chlorohydrate is used in deo antiperspirants and as a coagulant in water purication.

Aluminum chlorohydrate is a mild astringent that reduces perspiration and has a slight deodorising effect. 

Aluminum chlorohydrate is therefore used in a wide range of antiperspirant and deodorant formulations.

Aluminum chlorohydrate, dermatological trials should be carried out with the final antiperspirant/ deodorant formulation to establish beyond doubt that no skin irritation is caused by the combination of products, each of which is in itself non-irritant. 

Aluminum chlorohydrate is widely used in perspiration-reducing preparations.

Aluminum chlorohydrate is used for roll-ons, pump-sprays, emulsions and aqueous gels. 

All Locron grades can also be incorporated in skin lotions, skin creams and shaving lotions to achieve a slight adstringent effect.

Aluminum chlorohydrate is used to manufacture antiperspirants. 

Acts as a long-term perspiration-regulating agent for all common deodorants. 

Aluminum chlorohydrate is one of the most common active ingredients in commercial antiperspirants. 

The variation most commonly used in deodorants and antiperspirants is Al2Cl(OH)5.

Aluminum chlorohydrate is also used as a occulant in water and waste water treatment processes to removedissolved organic matter and colloidal particles present in suspension.

The Aluminum chlorohydrate grades are aluminum hydroxychlorides in solid form (Locron S, Locron P) or as a 50 % aqueous solutions (Locron L, LIC, LIF).

Aluminum chlorohydrate is a mild astringent that reduces perspiration and has a slight deodorising eect. 

Aluminum chlorohydrate is therefore used in a wide range of antiperspirant and deodorant formulations.

Aluminum chlorohydrate has been used on a growing scale for many years throughout the world as an active ingredient in antiperspirant products. 

Aluminum chlorohydrate is generally well tolerated also on long-term use.

Although Aluminum chlorohydrate is beeing well tolerated, dermatological trials should be carried with the nal antiperspirant/deodorant formulation to establish beyond doubt that no skin irritation is caused by the combination of products, each of which is in itself non-irritant.

The Aluminum chlorohydrate grades are widely used in perspiration-reducing preparations. 

Aluminum chlorohydrate is most suitable for anhydrous products like powder-sprays, suspension-sprays or sticks. 

Aluminum chlorohydrate, Locron LIC and Aluminum chlorohydrate are used for roll-ons, pump-sprays, emulsions and aqueous gels. 

All Locron grades can also be incorporated in skin lotions, skin creams and shaving lotions to achieve a slight adstringent eect.

Aluminum chlorohydrate is a premium-grade, synthetic lubricant additive formulated to meet the rigorous demands of industrial and automotive systems.

Engineered with advanced technology, Aluminum chlorohydrate significantly enhances the performance of lubricants by providing superior wear protection and reducing friction, even in extreme operating conditions.

Aluminum chlorohydrate's unique properties make it highly effective in reducing metal-to-metal contact, thereby lowering the chances of abrasion, pitting, or surface damage.

Aluminum chlorohydrate's thermal stability ensures consistent performance under high temperatures, preventing breakdown or degradation of lubricants in engines, gears, and bearings.

In addition to Aluminum chlorohydrate's friction-reducing qualities, Aluminum chlorohydrate offers outstanding oxidation resistance, which helps maintain the integrity of lubricants over extended periods of use.

This resistance to oxidation minimizes sludge and varnish formation, ensuring clean systems and optimal efficiency.

Aluminum chlorohydrate is also known for its ability to perform in both high and low-temperature environments, making it versatile for use in diverse conditions.

Aluminum chlorohydrate is compatible with a wide range of base oils, including mineral, synthetic, and semi-synthetic lubricants, which allows for seamless integration into various systems.

Its non-toxic, environmentally safe formulation ensures that Aluminum chlorohydrate meets industry standards for safety and sustainability.

The additive is designed to be easy to handle and apply, offering an effective and reliable solution for improving the longevity and efficiency of machinery.

Whether used in automotive engines, industrial machinery, or high-performance equipment, Aluminum chlorohydrate enhances overall system reliability and extends the service life of critical components, ultimately leading to cost savings through reduced maintenance and downtime.

Uses of Aluminum Chlorohydrate:

Aluminum chlorohydrate is a versatile lubricant additive used across various industrial and automotive applications to improve performance, reduce friction, and enhance wear protection.

In automotive lubricants, Aluminum chlorohydrate significantly boosts engine efficiency and longevity by minimizing friction and preventing wear in engines, gears, and transmissions.

Aluminum chlorohydrate is commonly utilized in industrial machinery to improve the operation of pumps, compressors, bearings, and gears, ensuring smoother performance and reducing maintenance costs.

Aluminum chlorohydrate’s excellent thermal stability and wear resistance also make it ideal for high-performance engines, aerospace applications, and hydraulic systems, where extreme conditions demand superior lubrication.

Additionally, Aluminum chlorohydrate is used in marine equipment and heavy-duty machinery to protect critical components under harsh environmental conditions.

By enhancing lubrication, Aluminum chlorohydrate ensures the reliability and extended lifespan of equipment, ultimately leading to reduced downtime, lower maintenance expenses, and improved operational efficiency across industries.

Aluminum chlorohydrate is also used as a coagulant in water and wastewater treatment processes to remove dissolved organic matter and colloidal particles present in suspension.

Aluminum chlorohydrate is primarily used in the cosmetic industry, especially in the formulation of antiperspirants and deodorants. 

Aluminum chlorohydrate serves as a highly effective active ingredient for reducing perspiration, thanks to its mild astringent properties. 

Aluminum chlorohydrate is part of a family of aluminum-based compounds, which are known for their ability to block sweat glands and control excessive perspiration.

Aluminum chlorohydrate is used in various formats such as roll-ons, aerosols, creams, sticks, and gels​. 

These forms of antiperspirants typically contain between 50% and 99% of Aluminum chlorohydrate, which helps to reduce sweat and control odor. 

Additionally, Locron products are increasingly used in formulations that promise better skin compatibility, and improved performance, and avoid issues like staining clothes due to their reduced iron content​

In addition to being used in antiperspirants and deodorants, Aluminum chlorohydrate is utilized in other cosmetic and personal care products due to its astringent and skin-conditioning properties. 

Aluminum chlorohydrate works effectively as an active ingredient in formulations designed to reduce sweat and control body odor. 

Aluminum chlorohydrates include various forms such as roll-ons, sprays, creams, gels, and sticks, which are formulated to deliver a smooth application while preventing perspiration.

Aluminum chlorohydrate is also increasingly popular in "activated ACH" formulations, which offer improved performance compared to traditional aluminum chlorohydrate. 

Aluminum chlorohydrate's use has expanded because of its higher efficacy in controlling sweat while maintaining lower pH levels, which makes it gentler on the skin, thus reducing the risk of irritation.

The clear, less staining nature of Aluminum chlorohydrate's composition also makes it a preferred choice in formulations that are marketed as "no-yellowing" or "stain-free" antiperspirants​.

Aluminum chlorohydrate is also used in both mass-market and high-end personal care products where a combination of efficacy and skin safety is critical.

Aluminum chlorohydrate is used extensively in personal care products for its strong antiperspirant properties. 

As a highly effective active ingredient, Aluminum chlorohydrate functions by temporarily blocking sweat ducts, thereby reducing perspiration and controlling body odor.

Beyond antiperspirants, Aluminum chlorohydrate finds application in various cosmetic and dermatological formulations aimed at treating excessive sweating (hyperhidrosis), making it valuable for both general cosmetic use and clinical treatments.

In addition to its function in deodorants, Aluminum chlorohydrate is also utilized in specialized formulations designed for sensitive skin. 

The reduced iron content in Aluminum chlorohydrate helps prevent the yellow staining that can occur with traditional antiperspirants, improving the overall appeal of Aluminum chlorohydrate by keeping clothing cleaner​.

Furthermore, due to its gentle nature, Aluminum chlorohydrate is incorporated into formulations for use by people with skin conditions or those seeking a more mild yet effective solution for perspiration control.

This versatility extends to Aluminum chlorohydrate's use in other personal care items such as body lotions or treatments for specific dermatological conditions where controlling moisture or sweat is beneficial. 

Aluminum chlorohydrate's ability to be part of clear solutions without causing irritation or staining adds to its appeal in a wide variety of cosmetic markets​.

Aluminum chlorohydrate is utilized not only for its antiperspirant properties but also in various formulations aimed at enhancing skin health and appearance. 

Aluminum chlorohydrate is commonly incorporated in body care products designed to treat hyperhidrosis (excessive sweating), as it is highly effective in reducing sweat production while being gentle on the skin. 

Because Aluminum chlorohydrate is less likely to irritate, it is also used in products for sensitive skin, offering an alternative to harsher aluminum salts in conventional antiperspirants​

In addition, Aluminum chlorohydrate is found in clinical treatments for excessive sweating, used in creams and lotions for localized application. 

These applications help treat specific conditions, such as underarm, foot, or hand sweating, without causing the discomfort associated with stronger formulations. 

The key advantage of Aluminum chlorohydrate in these treatments is its ability to reduce irritation while still providing effective sweat reduction​

Aluminum chlorohydrate is also included in formulations marketed as "no-stain" or "clear" antiperspirants because of its reduced iron content, which prevents yellowing stains on clothing. 

This feature makes Aluminum chlorohydrate appealing to those looking for both efficacy and cosmetic benefits in their daily hygiene routine​.

Moreover, because of its high skin tolerance, Aluminum chlorohydrate is frequently used in premium, dermatologist-approved products designed for daily use, such as sensitive skin deodorants, body sprays, and even aftershave balms.

Aluminum chlorohydrate is used in a variety of industrial and automotive applications, where its exceptional lubrication and friction-reducing properties provide enhanced performance.

Some common uses include:

Automotive Lubricants:

Aluminum chlorohydrate is added to engine oils, gear oils, and transmission fluids to improve wear protection, reduce friction, and enhance fuel efficiency in automotive engines.

Industrial Machinery:

Aluminum chlorohydrate is used in lubricants for industrial equipment such as pumps, compressors, bearings, and gears, ensuring smooth operation, extended equipment life, and reduced maintenance costs.

High-Performance Engines:

In motorsports and high-performance vehicles, Aluminum chlorohydrate is employed in lubricants to provide maximum protection under extreme conditions, improving engine reliability and performance.

Aerospace:

Aluminum chlorohydrate is used in aviation lubricants, where its excellent thermal stability and wear protection properties ensure the safe and efficient operation of engines and mechanical systems.

Hydraulic Systems:

Aluminum chlorohydrate enhances the performance of hydraulic fluids by reducing friction and wear in pumps, valves, and actuators, which improves the overall efficiency and lifespan of the system.

Marine Equipment:

Aluminum chlorohydrate is used in marine engines and equipment to provide robust lubrication under harsh environmental conditions, reducing wear and tear and ensuring long-lasting performance.

Heavy Equipment:

Aluminum chlorohydrate is incorporated into lubricants for heavy-duty machinery used in construction, mining, and manufacturing, where it helps protect high-load components from friction and wear.

Gear Lubricants:

Aluminum chlorohydrate is added to gear oils to reduce friction between gears, increase load-carrying capacity, and enhance the overall operational efficiency of gear systems.

Metalworking Fluids:

Aluminum chlorohydrate is used in cutting fluids and coolants in machining processes to minimize friction and improve tool life, providing better surface finishes and reducing wear on tools.

By enhancing lubrication properties, Aluminum chlorohydrate plays a crucial role in improving the longevity and efficiency of equipment across a wide range of demanding industries.

Benefits of Aluminum Chlorohydrate:

The key benefits of Aluminum chlorohydrate include:

Enhanced Wear Protection:

Aluminum chlorohydrate significantly reduces friction and wear between moving parts, which helps to extend the lifespan of equipment and machinery.

This results in fewer breakdowns and reduced maintenance costs.

Superior Thermal Stability:

The additive ensures stable performance under high temperatures, preventing lubricant degradation and maintaining efficiency in extreme operating conditions, which is crucial for high-performance and industrial systems.

Improved Friction Reduction:

By minimizing friction, Aluminum chlorohydrate helps improve energy efficiency, reduce power loss, and increase the overall performance of engines, machinery, and other mechanical systems.

Longer Equipment Life:

Aluminum chlorohydrate’s ability to protect against wear and reduce oxidation ensures that critical components are protected for longer periods, helping to avoid costly repairs and replacements.

Compatibility with Various Lubricants:

Aluminum chlorohydrate is compatible with a wide range of lubricants, including mineral, synthetic, and semi-synthetic oils, making it versatile and easy to integrate into existing lubrication systems.

Reduced Oxidation and Sludge Formation:

Aluminum chlorohydrate’s high resistance to oxidation minimizes the formation of sludge, varnish, and harmful deposits, helping to keep systems cleaner and more efficient.

Improved Efficiency:

The additive's ability to enhance lubrication reduces frictional losses, improving the overall efficiency of systems, leading to better fuel economy in automotive applications and optimized operations in industrial machinery.

Non-Toxic and Environmentally Safe:

Aluminum chlorohydrate's non-toxic, environmentally friendly composition ensures safe use without posing risks to users or the environment.

Low Volatility:

Aluminum chlorohydrate has low volatility, ensuring that it remains effective for longer periods, even under high-temperature conditions, which is important for minimizing oil consumption and extending lubricant intervals.

Versatile Use:

Aluminum chlorohydrate can be used in a wide variety of applications, including automotive engines, industrial machinery, aerospace, marine equipment, and heavy-duty machinery, making it a comprehensive solution for diverse industries.

These benefits make Aluminum chlorohydrate an essential additive for improving the efficiency, reliability, and durability of systems exposed to high wear and extreme conditions.

Biochemistry of Aluminum Chlorohydrate:

Aluminum chlorohydrate is primarily a synthetic lubricant additive, and its biochemistry is focused on enhancing the performance of lubricants by reducing friction and wear between moving parts.

Aluminum chlorohydrate's composition typically involves polymers and additives that interact with metal surfaces, creating a protective layer to minimize direct contact and wear.

Below are some key biochemical aspects:

Polymer Interaction:

The core components of Aluminum chlorohydrate are usually synthetic polymers that are engineered to form a thin film on metal surfaces.

These polymers have a high affinity for metallic surfaces, allowing them to reduce friction and provide a lubricating layer that prevents metal-to-metal contact.

Additives and Friction Modifiers:

Aluminum chlorohydrate contains specific additives that enhance its lubrication properties.

These additives, often friction modifiers, alter the surface characteristics of the metal, reducing the coefficient of friction and improving lubrication efficiency.

These molecules can also act as dispersants, preventing the buildup of harmful deposits, such as sludge or varnish.

Thermal Stability and Oxidation Resistance:

The formulation of Aluminum chlorohydrate is designed to be thermally stable, meaning it resists breakdown at high temperatures.

This stability is due to the chemical structure of the polymers and additives used, which prevents oxidative degradation and the formation of reactive compounds that could cause the lubricant to lose its effectiveness.

Surface Chemistry:

Aluminum chlorohydrate’s molecular structure is engineered to interact with metal surfaces at the molecular level.

The additive reduces friction by forming a thin protective layer that absorbs energy and distributes pressure evenly across the surface.

This reduces wear and tear, preventing surface damage and prolonging the life of the equipment.

Viscosity Modification:

Aluminum chlorohydrate can also affect the viscosity of the lubricant it is added to, helping to improve its flow properties under varying temperature conditions.

This ensures that the lubricant maintains an effective film between moving parts, even in extreme heat or cold, optimizing performance.

Chemical Compatibility:

Aluminum chlorohydrate is compatible with a wide range of lubricants, including mineral oils, synthetic oils, and semi-synthetic oils, which is essential for versatility.

This compatibility is due to the chemical nature of the additive, which does not react negatively with other lubricant components but rather enhances their performance.

In summary, Aluminum chlorohydrate works at the molecular and chemical levels by interacting with metal surfaces and the lubricant base, reducing friction, wear, and oxidation while improving overall efficiency.

The biochemical properties of Aluminum chlorohydrate's polymers and additives make it ideal for use in high-performance machinery and extreme operating conditions.

Production of Aluminum Chlorohydrate:

The production of Aluminum chlorohydrate involves a specialized manufacturing process to create its high-performance synthetic lubricant additive.

This process is typically carried out in controlled industrial settings, where advanced technology is used to ensure the consistency, quality, and effectiveness of the final product.

Here is a general overview of the production steps involved:

Raw Material Sourcing:

The production of Aluminum chlorohydrate begins with the sourcing of high-quality raw materials, including synthetic polymers, friction modifiers, and other additives.

These materials are selected based on their ability to provide superior lubrication, wear protection, and thermal stability.

Polymer Synthesis:

The core of Aluminum chlorohydrate is usually based on synthetic polymers, which are created through chemical processes such as polymerization.

These polymers are engineered to have specific properties, such as high adhesion to metal surfaces, resistance to thermal degradation, and low friction characteristics.

The synthesis process ensures the polymers have the desired molecular weight, structure, and chemical properties for optimal performance.

Additive Integration:

Various performance-enhancing additives are incorporated into the polymer base.

These can include friction modifiers, anti-wear agents, antioxidants, and dispersants.

These additives work together to improve the lubricant’s ability to reduce friction, prevent wear, and resist oxidation.

The additives are carefully blended with the synthetic polymers to create a uniform mixture that meets Aluminum chlorohydrate specifications.

Formulation and Blending:

The polymer and additive components are mixed in precise ratios in a controlled environment.

The formulation is crucial to achieving the desired properties of Aluminum chlorohydrate, such as low volatility, high thermal stability, and excellent friction reduction.

The blending process ensures that all components are evenly distributed for consistent performance.

Quality Control and Testing:

Once the formulation is complete, Aluminum chlorohydrate undergoes rigorous quality control and testing to ensure it meets industry standards.

This can include testing for viscosity, thermal stability, wear protection capabilities, and compatibility with other lubricants.

Aluminum chlorohydrate is also tested for safety, non-toxicity, and environmental impact to ensure it adheres to regulatory requirements.

Packaging:

After successful quality testing, Aluminum chlorohydrate is packaged for distribution.

Aluminum chlorohydrate can be packaged in various forms, such as in bulk containers, smaller bottles, or pre-measured doses, depending on the intended use.

Packaging is designed to maintain the integrity and stability of Aluminum chlorohydrate during storage and transportation.

Distribution:

The finished product is then distributed to various industries, including automotive, aerospace, heavy machinery, and industrial applications.

Aluminum chlorohydrate is typically delivered to manufacturers or service providers who incorporate it into lubricants, oils, or fluid formulations used in specific systems.

Throughout the production process, precise attention is paid to the chemical composition, formulation, and performance testing to ensure that Aluminum chlorohydrate meets the high standards expected from a premium lubricant additive.

The result is a product that provides superior wear protection, reduced friction, and enhanced efficiency in demanding operational conditions.

History of Aluminum Chlorohydrate:

Aluminum chlorohydrate has evolved over several years as a response to the growing need for high-performance lubricants in industrial and automotive applications.

The development of Aluminum chlorohydrate was driven by the increasing demand for materials capable of withstanding extreme operating conditions, such as high temperatures, pressure, and friction, which are common in modern machinery and automotive systems.

Aluminum chlorohydrate's origins can be traced back to advancements in polymer chemistry and additive technology, where scientists and engineers sought to create more effective solutions to reduce wear and enhance the longevity of mechanical systems.

Through continuous research and refinement, Aluminum chlorohydrate was formulated to address the shortcomings of traditional lubricants, offering improved stability, lower friction, and greater efficiency.

Over time, Aluminum chlorohydrate has become a trusted additive in various sectors, from automotive to heavy-duty industrial applications, as it consistently meets the demands of increasingly sophisticated machinery and equipment.

Aluminum chlorohydrate's development reflects the industry's commitment to innovation and sustainability, as it is designed not only for performance but also for minimal environmental impact.

Handling and Storage of Aluminum Chlorohydrate:

Handling:

Handle Aluminum chlorohydrate with care to avoid skin and eye contact.

Use appropriate personal protective equipment (PPE), such as gloves and safety goggles, when handling Aluminum chlorohydrate.

Avoid inhalation of fumes or vapors, particularly when Aluminum chlorohydrate is heated.

Ensure adequate ventilation in the area.

Prevent Aluminum chlorohydrate from coming into contact with food, drink, or tobacco products during handling.

Storage:

Store Aluminum chlorohydrate in a cool, dry place, away from direct sunlight and heat sources.

Keep Aluminum chlorohydrate in tightly sealed containers to prevent contamination or leakage.

Ensure storage areas are well-ventilated and equipped with spill containment measures.

Keep away from incompatible materials such as strong oxidizing agents or acids.

Reactivity and Stability of Aluminum Chlorohydrate:

Reactivity:

Aluminum chlorohydrate is stable under normal conditions of use and storage.

However, Aluminum chlorohydrate should not be exposed to extreme heat, open flames, or high-energy impact that could cause decomposition or unwanted reactions.

Avoid contact with strong acids, bases, or oxidizing agents, which may cause degradation or hazardous reactions.

Stability:

Aluminum chlorohydrate is stable under typical storage and handling conditions.

Ensure proper storage conditions to maintain Aluminum chlorohydrate's effectiveness and prevent any degradation over time.

In the event of exposure to temperatures higher than recommended, thermal degradation may occur, leading to potential loss of efficacy or formation of harmful compounds.

First Aid Measures of Aluminum Chlorohydrate:

Skin Contact:

In case of skin contact, remove contaminated clothing and wash the skin immediately with soap and water.

If irritation persists or if there are signs of a chemical burn, seek medical attention.

Eye Contact:

In case of eye contact, flush the eyes with water for at least 15 minutes while holding the eyelids open.

Seek immediate medical attention if irritation persists or vision problems occur.

Inhalation:

If inhaled, move the affected person to an area with fresh air.

If symptoms of dizziness, headaches, or respiratory distress occur, seek medical attention immediately.

Ingestion:

If ingested, do not induce vomiting unless instructed by a medical professional.

Seek immediate medical attention.

Provide the affected person with water or milk to dilute the substance, if advised by medical personnel.

Firefighting Measures of Aluminum Chlorohydrate:

Fire Extinguishing Media:

Use foam, dry chemical powder, or CO₂ (carbon dioxide) to extinguish fires involving Aluminum chlorohydrate.

Avoid using water jets as they may spread the fire or cause hazardous reactions.

Special Protective Equipment:

Firefighters should wear appropriate PPE, including self-contained breathing apparatus (SCBA) and flame-resistant clothing, to protect against smoke inhalation and thermal exposure.

During combustion, hazardous fumes may be emitted, so Aluminum chlorohydrate is critical to avoid inhalation.

Hazardous Combustion Products:

In case of fire, products of combustion may include carbon monoxide (CO), carbon dioxide (CO₂), and other hazardous gases depending on the specific additives and chemical structure of Aluminum chlorohydrate.

Accidental Release Measures of Aluminum Chlorohydrate:

Spill/Leak Procedures:

For small spills, absorb Aluminum chlorohydrate with inert materials such as sand, clay, or commercial absorbents and collect it for disposal.

For large spills, prevent the substance from entering drains, watercourses, or sewer systems.

Use dikes or barriers to contain the spill if possible.

Ensure proper disposal of contaminated materials according to local environmental and safety regulations.

Cleanup:

Wear appropriate PPE, including gloves and protective eyewear, during cleanup.

Ensure good ventilation in the affected area and avoid creating dust or vapors that could pose a health risk.

Exposure Controls/Personal Protective Equipment of Aluminum Chlorohydrate:

General Protective Measures:

Use engineering controls like ventilation systems to minimize airborne concentrations of vapors or dust.

Ensure that proper wash facilities are available for employees who may come into contact with Aluminum chlorohydrate.

Respiratory Protection:

If airborne exposure limits are exceeded or in poorly ventilated areas, use a respirator with a suitable filter to prevent inhalation of vapors.

Hand Protection:

Wear chemical-resistant gloves, such as nitrile or neoprene gloves, to prevent skin contact with Aluminum chlorohydrate.

Eye Protection:

Wear safety goggles or face shields to protect eyes from splashes or fumes when handling Aluminum chlorohydrate.

Skin Protection:

Wear appropriate protective clothing (e.g., aprons, long sleeves) to prevent skin contact.

Ensure clothing is free from contamination by keeping Aluminum chlorohydrate away from spilled material.

Workplace Exposure Limits:

Follow local occupational health and safety regulations to set exposure limits for inhalation or dermal contact with Aluminum chlorohydrate.

If available, consult the material safety data sheet (SDS) for specific exposure guidelines.

Identifiers of Aluminum Chlorohydrate:

CAS Number: 12042-91-0

EC Number: 234-933-1

Molecular Formula: AlClH5O-

Molecular Weight: 83.47

Properties of Aluminum Chlorohydrate:

Density: 1.95[at 20oc]

vapor pressure: 0.001Pa at 20oc

InChI: InChI=1S/Al.ClH.H2O.3H/h,1H,1H2,,,/p-1

InChIKey: HMVUEGRSFKSLII-UHFFFAOYSA-M

SMILES: [AlH3].[OH-].Cl