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Addovate Thermostab is a high-performance stabilizer used in various polymer applications for its excellent thermal stability and versatility, enhancing the durability and longevity of polymer products.
Addovate Thermostab is an aromatic ester of phosphoric acid that acts as a sterically hindered antioxidant, preventing thermo-oxidative degradation in polymers such as TPU, PC/ABS, PA/ABS, ABS, and PA.
Widely used in the coatings, adhesives, elastomers, and sealants industries, Addovate Thermostab offers exceptional stability, weather resistance, and ease of dispersion, making it suitable for a range of industrial applications.
CAS Number: 68555-53-8
EC Number: 271-374-3
Synonyms: Thermal stabilizer, Addovate Thermostab, Polymer stabilizer, Addovate Polymer Stabilizer, Thermal Resistance Agent, Polymer Additive Thermostab, Stabilizer Thermostab, Addovate Thermal Stabilizer, PU Stabilizer Thermostab, Additive Thermostab
Addovate Thermostab is a high-performance stabilizer used in various polymer applications for its excellent thermal stability and versatility.
Addovate Thermostab is characterized by its stability and efficiency in enhancing the durability and longevity of polymer products.
Addovate Thermostab is a versatile chemical compound used in various polymer applications.
Addovate Thermostab is known for its strong stabilizing properties, which improve the durability and performance of polymer products.
Addovate Thermostab provides excellent chemical resistance, making it ideal for industrial coatings and adhesives.
Addovate Thermostab is compatible with a wide range of polymer systems, enhancing its versatility in different formulations.
Addovate Thermostab is widely used in the coatings, adhesives, elastomers, and sealants industries, among others.
Addovate Thermostab's non-toxic nature makes it safe for use in various industrial and consumer products.
Addovate Thermostab offers excellent weather resistance, making it suitable for outdoor applications.
Addovate Thermostab is known for its ease of dispersion, ensuring uniform stabilizing in various systems.
Addovate Thermostab is essential in the creation of durable and high-performance polymer products.
Addovate Thermostab's strong stabilizing properties make it a preferred choice in the creation of high-quality industrial coatings.
Addovate Thermostab is an important precursor in the production of high-performance adhesives and sealants.
Addovate Thermostab is widely used in the manufacture of durable and resilient polymer products.
Addovate Thermostab is a high-performance stabilizer used in various polymer applications for its excellent thermal stability and versatility.
Addovate Thermostab is characterized by its stability and efficiency in enhancing the durability and longevity of polymer products.
The chemical formula for Addovate Thermostab is proprietary, and it is commonly used in various industrial applications due to its superior properties.
Addovate Thermostab is a specialized additive designed to enhance the thermal stability of various materials, particularly in high-temperature environments.
This advanced formulation is engineered to prevent degradation and maintain the integrity of polymers, coatings, and other heat-sensitive materials when exposed to elevated temperatures.
By incorporating Addovate Thermostab into manufacturing processes, products can achieve superior performance and longevity, even under extreme thermal conditions.
Addovate Thermostab's application is particularly beneficial in industries such as automotive, aerospace, electronics, and industrial manufacturing, where maintaining material properties at high temperatures is critical.
Addovate Thermostab not only improves the heat resistance of materials but also enhances their overall durability, making it an essential component for achieving reliable and high-performing end products.
Addovate Thermostab is an aromatic ester of phosphoric acid.
Addovate Thermostab has stabilization against thermo-oxidative degradation of TPU, PC/ABS, PA/ABS, ABS and PA.
Addovate Thermostab is an aromatic ester of phosphoric acid.
Addovate Thermostab acts as a sterically hindered antioxidant acting against thermo-oxidative degradation which may occur during processing as a result of thermal, oxidative and mechanical stress.
Addovate Thermostab is non-ionic and also acts as an anti-oxidative radical interceptor (primary antioxidant) due to its sterically hindered molecular structure.
Addovate Thermostab scavenges hydroperoxides without forming colour bodies in a stoichiometrical reaction by forming alcohol, simultaneously oxidising the phosphite to the corresponding phosphate (secondary antioxidant).
Compatible with of PC/ABS, PA/ABS, TPU, ABS and PA against thermo-oxidative degradation during processing in the melt.
Addovate Thermostab has a shelf life of 6 months.
Applications of Addovate Thermostab:
Addovate Thermostab is widely used in the stabilization of polyurethane products, providing excellent thermal stability and durability.
Addovate Thermostab is essential in the manufacture of high-performance polyurethane foams.
Addovate Thermostab is utilized in the production of elastomers, enhancing their thermal stability and longevity.
Addovate Thermostab is a preferred stabilizer for flexible and rigid foams due to its reactivity and efficiency.
Addovate Thermostab is used in automotive applications for its excellent stability and performance under high temperatures.
Addovate Thermostab is found in the production of coatings and sealants, contributing to their durability and thermal resistance.
Addovate Thermostab is used in water-based polymer systems for its compatibility and stability.
Addovate Thermostab is a key component in solvent-based polyurethane coatings.
Addovate Thermostab is used in the textile industry to improve the durability and performance of coatings on fabrics.
Addovate Thermostab is employed in the production of rubber materials for its stabilizing properties.
Addovate Thermostab is used in the manufacturing of synthetic fibers, enhancing their strength and resilience.
Addovate Thermostab is used in the construction industry for high-performance coatings and sealants.
Addovate Thermostab is used in the creation of high-performance adhesives, providing strong and durable bonds.
Addovate Thermostab is a key component in the production of plastics, improving their mechanical properties.
Addovate Thermostab is utilized in the formulation of industrial coatings, ensuring durability and chemical resistance.
Addovate Thermostab is applied in the creation of specialty coatings for various industrial applications, ensuring durability and performance.
Addovate Thermostab is used in the production of coatings for metal surfaces, providing corrosion resistance.
Addovate Thermostab is essential in the creation of high-quality printing inks, enhancing adhesion and flexibility.
Addovate Thermostab is used in the production of rubber products, ensuring durable and consistent performance.
Addovate Thermostab is employed in the automotive industry, used in high-performance coatings and adhesives.
Addovate Thermostab is utilized in the production of wood coatings, enhancing their durability and appearance.
Addovate Thermostab is found in the manufacture of specialty coatings for industrial machinery.
Addovate Thermostab is utilized in the formulation of adhesives and sealants.
Addovate Thermostab is a key ingredient in the production of polyurethane elastomers.
Addovate Thermostab is employed in the textile industry to improve the performance of coatings on fabrics.
Addovate Thermostab is used in the rubber industry for its stabilizing properties.
Addovate Thermostab is essential in the production of high-performance industrial coatings.
Addovate Thermostab is a vital component in water-based and solvent-based polymer systems.
Addovate Thermostab is applied in the creation of high-performance industrial products.
Addovate Thermostab is used in the formulation of household and industrial coatings.
Addovate Thermostab is utilized in the production of specialty coatings for electronic devices.
Addovate Thermostab is found in the creation of specialty inks for various applications.
Addovate Thermostab is used in the production of ceramic and glass coatings.
Addovate Thermostab is applied in the creation of coatings for plastic surfaces.
Addovate Thermostab is utilized in the formulation of coatings for wood surfaces.
Addovate Thermostab is essential in the production of high-performance adhesives.
Addovate Thermostab is used in the formulation of coatings for automotive applications.
Addovate Thermostab is utilized in the production of specialty adhesives and sealants.
Addovate Thermostab is found in the manufacture of coatings for industrial machinery.
Addovate Thermostab is employed in the creation of specialty coatings for various substrates.
Addovate Thermostab is used in the formulation of high-performance coatings for various applications.
Addovate Thermostab is a key component in the production of specialty inks for flexographic and gravure printing.
Addovate Thermostab is used in the creation of specialty inks for digital printing.
Addovate Thermostab is essential in the production of high-performance industrial products.
Addovate Thermostab is utilized in the manufacture of environmentally friendly industrial products.
Addovate Thermostab is used in the creation of water-based and solvent-based products.
Addovate Thermostab is a critical ingredient in the formulation of specialty coatings for metal and plastic surfaces.
Functions of Addovate Thermostab:
Addovate Thermostab belongs to the material group of organic phosphite and is used as non-ionic, sterically hindered antioxidant acting against thermo-oxidative degradation which may occur during processing as a result of thermal, oxidative and mechanical stress.
Production Process of Addovate Thermostab:
Raw Material Selection and Sourcing:
The production begins with the selection of high-quality raw materials.
These may include base polymers, stabilizers, antioxidants, and other specialized chemicals that contribute to the thermal stability properties of the final product.
Mixing and Blending:
The raw materials are accurately measured and mixed in specific ratios to create a homogeneous blend.
This blending process ensures that the properties of each component are evenly distributed throughout the mixture.
Reaction and Synthesis:
Depending on the formulation, the mixture may undergo chemical reactions to synthesize the active ingredients.
This step often requires precise temperature control, catalyst addition, and reaction time monitoring to achieve the desired chemical structure.
Formulation:
The synthesized compound is then formulated into Addovate Thermostab's final form.
This may involve processes like emulsification, where Addovate Thermostab is dispersed into a liquid medium, or compounding, where Addovate Thermostab is combined with other ingredients to enhance its performance characteristics.
Quality Control:
Throughout the production process, rigorous quality control measures are implemented.
Samples are taken and analyzed to ensure that the product meets the required specifications, such as purity, stability, and performance criteria.
Packaging:
Once the product has passed all quality checks, Addovate Thermostab is packaged into appropriate containers, which could range from small bottles to large industrial drums, depending on the application and customer requirements.
Storage and Distribution:
The final product is stored in a controlled environment to maintain Addovate Thermostab's stability and effectiveness.
From here, Addovate Thermostab is distributed to customers and manufacturers who will use the additive in their own production processes.
Regulatory Compliance:
The production process is conducted in compliance with relevant environmental, safety, and industry-specific regulations to ensure that the product is safe for use and environmentally responsible.
Reactions of Addovate Thermostab:
Polymerization:
Polymerization is a chemical reaction where small monomer molecules react together to form a polymer chain.
In the context of Addovate Thermostab, polymerization might be used to create a stable polymer backbone that provides the additive with its heat-resistant properties.
Example:
The polymerization of vinyl monomers to create polyvinyl compounds that are resistant to thermal degradation.
Condensation Reactions:
Condensation reactions involve the combination of two molecules with the loss of a small molecule, often water.
These reactions can be used to form stable bonds within the additive, enhancing Addovate Thermostab's overall stability and performance under heat.
Example:
The formation of siloxane bonds (Si-O-Si) in silicone-based stabilizers, which are known for their thermal stability.
Addition Reactions:
In an addition reaction, atoms or groups of atoms are added to a molecule without the loss of any atoms.
This type of reaction can be used to introduce functional groups that improve the thermal stability of the additive.
Example:
The addition of antioxidant groups to a polymer backbone, which can help to prevent thermal oxidation.
Cross-Linking:
Cross-linking involves the formation of covalent bonds between polymer chains, creating a network structure that is more resistant to heat and chemical attack.
This process can significantly enhance the durability of the additive in high-temperature environments.
Example:
The cross-linking of polyolefins with peroxide to create a thermoset material that is highly stable at elevated temperatures.
Stabilization Reactions:
Stabilization reactions involve the introduction of stabilizing agents into the molecular structure to prevent thermal degradation.
These reactions ensure that the additive maintains Addovate Thermostab's effectiveness over time, even under harsh conditions.
Example:
The reaction of hindered phenol antioxidants with free radicals in the polymer, neutralizing them and preventing thermal degradation.
Hydrolysis and Neutralization:
Hydrolysis can occur during the production process, especially when dealing with silane-based additives.
Neutralization steps may be needed to ensure the stability of the product.
Example:
Hydrolysis of a silane precursor followed by neutralization with an acid or base to form a stable siloxane network.
Oxidation and Reduction:
Oxidation-reduction (redox) reactions may be employed to alter the oxidation state of certain elements in the compound, which can enhance the additive’s ability to resist thermal breakdown.
Example:
The reduction of metal ions to form stable metal oxides that can act as heat stabilizers in the additive.
Handling and Storage of Addovate Thermostab:
Handling:
Avoid contact with skin, eyes, and clothing.
Use appropriate personal protective equipment (PPE), such as gloves, safety goggles, and protective clothing, when handling the product.
Handle in a well-ventilated area to prevent inhalation of vapors or dust.
Prevent the release of the product into the environment, especially into waterways.
Do not eat, drink, or smoke while handling the product.
Storage:
Store in a cool, dry, and well-ventilated area away from direct sunlight, heat sources, and incompatible materials (e.g., strong acids, bases, or oxidizers).
Keep containers tightly closed when not in use to prevent contamination and moisture absorption.
Store at a temperature specified by the manufacturer, typically in the range of 5°C to 30°C.
Ensure that storage areas are equipped with spill containment measures.
Stability and Reactivity of Addovate Thermostab:
Stability:
Addovate Thermostab is stable under recommended storage conditions.
Avoid exposure to high temperatures, direct sunlight, and moisture, which may cause the product to degrade or lose effectiveness.
Reactivity:
Addovate Thermostab may react with strong acids, bases, or oxidizing agents, leading to hazardous conditions.
No hazardous polymerization is expected under normal conditions of use.
Decomposition:
Decomposition can occur at high temperatures, potentially releasing harmful gases such as carbon oxides, silicon oxides, or other organic vapors.
First Aid Measures of Addovate Thermostab:
Inhalation:
If inhaled, move the person to fresh air and keep them at rest in a comfortable position.
If breathing is difficult, provide oxygen.
If breathing has stopped, perform artificial respiration.
Seek medical attention if symptoms persist.
Skin Contact:
Immediately wash skin with plenty of water and soap for at least 15 minutes.
Remove contaminated clothing and wash before reuse.
Seek medical attention if irritation develops or persists.
Eye Contact:
Immediately rinse eyes with plenty of water for at least 15 minutes, holding the eyelids open.
Remove contact lenses if present and easy to do.
Seek medical attention if irritation occurs or persists.
Ingestion:
Do not induce vomiting unless directed to do so by medical personnel.
Rinse mouth with water and seek medical attention immediately.
Never give anything by mouth to an unconscious person.
Fire Fighting Measures of Addovate Thermostab:
Extinguishing Media:
Use water spray, foam, dry chemical, or carbon dioxide to extinguish fires involving this product.
Special Hazards:
Combustion of the product may produce hazardous fumes, including carbon oxides and silicon oxides.
Containers may explode if heated.
Protective Equipment:
Firefighters should wear self-contained breathing apparatus (SCBA) and full protective gear.
Avoid inhalation of combustion gases and stay upwind of the fire.
Accidental Release Measures of Addovate Thermostab:
Personal Precautions:
Wear appropriate PPE, including gloves, goggles, and protective clothing, to avoid contact with the spilled material.
Ensure adequate ventilation in the area of the spill.
Environmental Precautions:
Prevent the spilled material from entering drains, sewers, or waterways.
Contain the spill using sand, earth, or an appropriate containment material.
Cleanup Procedures:
Absorb the spill with inert material (e.g., sand, vermiculite) and place in a suitable container for disposal.
Clean the spill area with water and detergent to remove any residues.
Dispose of contaminated materials according to local regulations.
Exposure Controls/Personal Protection of Addovate Thermostab:
Exposure Limits:
Follow workplace exposure limits provided by local regulations for any hazardous components.
Engineering Controls:
Ensure adequate ventilation, especially in enclosed areas.
Use local exhaust ventilation to control airborne concentrations below recommended limits.
Personal Protective Equipment (PPE):
Respiratory Protection:
If exposure limits are exceeded or in cases of insufficient ventilation, wear an approved respirator.
Hand Protection:
Wear protective gloves made of materials such as nitrile or neoprene.
Eye Protection:
Use safety goggles or face shields to prevent eye contact.
Skin and Body Protection:
Wear protective clothing to minimize skin contact.
Hygiene Measures:
Wash hands thoroughly after handling the product and before eating, drinking, or smoking.
Do not reuse contaminated PPE without proper decontamination.
Identifiers of Addovate Thermostab:
CAS Number: 68555-53-8
EC Number: 271-374-3
Chemical Name: Addovate Thermostab
Trade Name: Addovate Thermostab
Properties of Addovate Thermostab:
Chemical Formula: Proprietary
Common Name: Addovate Thermostab
Molecular Structure: Proprietary
Appearance: Clear liquid
Density: 1.0 g/cm³
Viscosity: Low
Solubility: Miscible with most organic solvents
Reactivity: High
Chemical Stability: Excellent
Compatibility: Wide range of polymer systems
Weather Resistance: Excellent
Dispersion: Easy
Physical State: Typically a solid, liquid, or powder depending on formulation
Color: Colorless, white, or other color depending on formulation
Odor: Odorless or mild odor
Melting Point: Varies based on specific formulation
Boiling Point: Varies based on specific formulation
Density: Varies based on specific formulation
Solubility: Soluble or dispersible in specific solvents or carriers
pH: Neutral to slightly acidic or basic, depending on formulation
Thermal Stability: High, with resistance to degradation at elevated temperatures
Chemical Stability: Stable under recommended storage conditions
Compatibility: Compatible with a range of polymers and materials used in its applications
Reactivity: Non-reactive under normal handling and storage conditions
Viscosity: Varies based on specific formulation and concentration
