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Irganox 1076 Antioxidant: Your Complete Guide in 2024

What is Irganox 1076?

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Irganox 1076 is a high-performance, sterically hindered phenolic primary antioxidant, widely recognized for its exceptional efficiency in various applications. Used extensively in the polymer industry, this versatile additive exhibits remarkable compatibility and low volatility, making it an essential component in numerous manufacturing processes.

 

Properties and Composition of Irganox 1076

Irganox 1076 is composed of octadecyl-3-(3,5-di-tert-butyl-4-hydroxyphenyl)propionate. It’s a white, crystalline, non-staining, and non-discoloring substance. Its high molecular weight grants it excellent resistance to extraction from polymer compounds during fabrication processes. Furthermore, its thermal stability and superior antioxidative properties make it highly effective in a broad range of temperatures and conditions.

 

Applications of Irganox 1076 in Different Industries

Irganox 1076 is extensively used across several sectors due to its versatile nature. In the plastics industry, it’s employed to prevent oxidative degradation in polymers. The rubber industry uses it to enhance the longevity and durability of products. Additionally, it finds application in the lubricant industry to improve the performance of oils and greases. It’s also used in adhesives, elastomers, and other synthetic materials.

 

Irganox 1076 as an Effective Antioxidant

Irganox 1076 acts as a powerful antioxidant, effectively neutralizing harmful free radicals that can cause degradation in materials. This results in enhanced product life and improved overall quality. Its role as an antioxidant also contributes to the stability of products during processing and storage, ensuring their integrity and performance.

 

Understanding the Molecular Weight of Irganox 1076

The molecular weight of Irganox 1076 is approximately 530.86 g/mol. This high molecular weight contributes to its low volatility and high resistance to extraction, making it particularly effective in applications where these characteristics are beneficial.

 

Potential Benefits of Irganox 1076 in Polymer Stabilization

In the realm of polymer stabilization, Irganox 1076 plays a crucial role. It provides excellent processing stability and long-term thermal protection to polymers. Preventing oxidative degradation helps maintain the physical properties of polymers, thereby extending their service life. This makes Irganox 1076 an indispensable additive in the polymer industry.

Potential Benefits of Irganox 1076 in Polymer Stabilization
Potential Benefits of Irganox 1076 in Polymer Stabilization

How Does Irganox 1076 Act as an Antioxidant?

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Irganox 1076 is a phenolic antioxidant that plays a crucial role in protecting various materials from oxidative degradation. It works by disrupting the oxidation process, thereby extending the lifespan of the material it’s covering. This high-performance additive is appreciated for its remarkable compatibility and low volatility, making it a preferred choice across several industries.

 

Mechanism of Action of Irganox 1076

Irganox 1076 operates by scavenging and neutralizing free radicals that cause oxidative damage. The molecule of Irganox 1076 donates a hydrogen atom to the free radical, transforming it into a stable compound. This action terminates the chain reaction of oxidation, effectively protecting the material from degradation.

 

Enhancing Resistance to Thermo-Oxidative Degradation

Irganox 1076 is known for providing excellent thermal stability to materials. Interrupting the oxidation process enhances resistance to thermo-oxidative degradation. This property makes it particularly useful in applications that involve high temperatures or prolonged heat exposure, where it helps maintain the integrity and performance of the product.

 

Irganox 1076’s Role in Protecting Against Substrate Degradation

In addition to preventing oxidation, Irganox 1076 also protects against substrate degradation. It does this by forming a protective layer on the surface of the material, which acts as a barrier against harmful environmental factors. This further extends the service life of the product, ensuring its durability and reliability.

 

Compatibility of Irganox 1076 with Various Polymers

One of the critical advantages of Irganox 1076 is its compatibility with a wide range of polymers. This includes polyolefins, styrene homo- and copolymers, polyamides, and polyacetals, among others. Its ability to integrate seamlessly into these materials makes it a versatile and essential additive in numerous manufacturing processes.

 

Usage of Irganox 1076 in Food Contact Applications

Irganox 1076 is also used in food contact applications due to its safety profile. It’s employed in plastic packaging materials to prevent oxidative degradation, thereby ensuring the quality and safety of the food products. Its use in this context highlights its versatility and underscores its significance in diverse industries.

Usage of Irganox 1076 in Food Contact Applications
Usage of Irganox 1076 in Food Contact Applications

What Are the Key Features and Benefits of Irganox 1076?

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Irganox 1076 is a sterically hindered phenolic antioxidant renowned for its exceptional performance in various applications. As an additive, it offers numerous features and benefits, including high efficiency, excellent heat resistance, low volatility, and compatibility with other antioxidants. The following sections delve into these characteristics in more detail, providing an understanding of why Irganox 1076 is a preferred choice in many industrial processes.

 

Advantages of Using Irganox 1076 as an Additive

  1. High thermal stability: Irganox 1076 provides remarkable resistance to thermo-oxidative degradation, enhancing the longevity of products.
  2. Effective antioxidant: It efficiently neutralizes free radicals, preventing oxidative degradation.
  3. Compatibility: Its compatibility with a wide array of polymers makes it versatile in numerous manufacturing processes.
  4. Resistance to extraction: Its high molecular weight ensures low volatility and high resistance to extraction during fabrication processes.
  5. Non-polluting and non-toxic: It is a safe and environmentally friendly additive.

High Efficiency and Excellent Heat Resistance

Irganox 1076 stands out for its high efficiency in protecting various materials from oxidative degradation. Its exceptional heat resistance makes it suitable for applications involving high temperatures or prolonged heat exposure, thus maintaining the integrity and performance of the product.

 

Low Volatility and Resistance to Extraction

Due to its high molecular weight, Irganox 1076 exhibits low volatility, which is beneficial in high-temperature applications. Additionally, its resistance to extraction ensures it remains within the polymer matrix during processing and use, thereby offering continuous protection against oxidation.

 

Nonpolluting and Non-Toxic Nature of Irganox 1076

Irganox 1076 is a non-staining, non-discoloring antioxidant that doesn’t contribute to pollution. Furthermore, it’s non-toxic, making it a safe choice for various applications, including those involving food contact materials.

 

Irganox 1076’s Compatibility with Other Antioxidants

Irganox 1076 is compatible with other antioxidants, which allows it to be used in combination with them for enhanced protective effects. This compatibility extends its utility across diverse manufacturing processes, reinforcing its position as an invaluable asset in the industry.

Irganox 1076's Compatibility with Other Antioxidants
Irganox 1076’s Compatibility with Other Antioxidants

How to Use Irganox 1076 in Different Manufacturing Processes?

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Irganox 1076 is a versatile antioxidant used in various manufacturing processes due to its excellent antioxidative properties, high thermal stability, and compatibility with a wide range of polymers. Understanding how to use this additive in different manufacturing processes optimally can enhance the quality, durability, and performance of the final product. The following sections provide insights into using Irganox 1076 in various polymer systems, its role in polymer processing and production, and its combination with other additives for maximum efficiency.

 

Optimal Applications of Irganox 1076 in Various Polymer Systems

Irganox 1076 finds application in several polymer systems, including polyolefins, styrene homo- and copolymers, polyamides, and polyacetals, among others. In these systems, it acts as an effective antioxidant, preventing oxidative degradation and enhancing the longevity of the material. The optimal use of Irganox 1076 in these systems involves introducing it during the polymerization or compounding stage to ensure that it is evenly distributed throughout the material.

 

Irganox 1076 in Polymer Processing and Production

In polymer processing and production, Irganox 1076 plays a crucial role in maintaining the physical properties of the polymers. It provides excellent thermal stability during processing, which helps prevent degradation due to heat exposure. Furthermore, its resistance to extraction ensures it remains within the polymer matrix, providing continuous protection against oxidation.

 

Combining Irganox 1076 with Other Additives for Maximum Efficiency

Irganox 1076 can be combined with other additives, such as light stabilizers and secondary antioxidants, for enhanced protective effects. This combination results in a synergistic effect, improving the overall efficiency of the defensive system. It is essential to consider the compatibility of these additives with Irganox 1076 to ensure optimal results.

 

Use of Irganox 1076 in Polyvinyl Chloride (PVC) Applications

In PVC applications, Irganox 1076 is used to prevent thermal degradation during processing and to enhance the product’s resistance to weathering. It is typically added during the compounding stage and helps maintain the PVC’s physical properties over time.

 

Irganox 1076 in Adhesive and Substrate Protection

Irganox 1076 also finds application in adhesive and substrate protection. It prevents oxidative degradation of adhesives, thereby enhancing their performance and durability. Additionally, it forms a protective layer on substrate surfaces, providing a barrier against harmful environmental factors and extending the service life of the product.

Irganox 1076 in Adhesive and Substrate Protection
Irganox 1076 in Adhesive and Substrate Protection

Where Can I Find Technical Information and Data About Irganox 1076?

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Irganox 1076, a highly effective primary phenolic antioxidant, is widely used in coatings, plastics, and various organic substrates. Its technical information and data are crucial for understanding its properties, applications, and implementation methods. This information can be found in multiple resources such as technical datasheets, research studies, case studies, and expert consultations. The following sections provide more details on how to access this information.

 

Accessing the Technical Datasheet of Irganox 1076

The technical datasheet of Irganox 1076 is a comprehensive document that provides vital details about the product. It includes information about its physical and chemical properties, safety data, and usage recommendations. The manufacturers usually offer these datasheets and can be accessed through their official websites or upon request.

 

Comprehensive Overview of Irganox 1076’s Chemical Properties

Understanding Irganox 1076’s chemical properties is fundamental in determining its compatibility with other substances and its effectiveness in different applications. These properties include its melting range, volatility, flash point, solubility, and more. This information can be found in the product’s technical datasheet or through independent research studies.

 

Understanding Irganox 1076’s Applications in Different Industries

Irganox 1076 is extensively used in various industries due to its antioxidative properties and heat resistance. It is used in polymer systems, PVC applications, adhesive and substrate protection, among others. Detailed information about its applications can be found in industry-specific literature, case studies, or through consultation with experts in the field.

 

Exploring Research and Case Studies on Irganox 1076

Research and case studies provide valuable insights into the real-world applications and effectiveness of Irganox 1076. They can offer a deeper understanding of how the antioxidant performs under different conditions and in combination with other substances. These studies can be accessed through academic databases, industry publications, or research institutions.

 

Consulting Experts for Guidance on Implementing Irganox 1076

Experts in the field can provide tailored advice on implementing Irganox 1076 in specific applications. They can help determine the optimal usage, identify potential challenges, and suggest strategies to maximize its efficiency. Experts can be consulted through professional networks, industry events, or specialized consultancy services.

Consulting Experts for Guidance on Implementing Irganox 1076
Consulting Experts for Guidance on Implementing Irganox 1076

References

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  1. BASF’s Irganox 1076 Product Page – This official product page provides comprehensive information about the characteristics and applications of Irganox 1076. It is a credible source due to its direct link to the manufacturer. Source Link
  2. ScienceDirect Article on Polymorphism of Irganox 1076 – An academic article discussing the polymorphism of Irganox 1076, providing insights into its various forms and their implications in different applications. Source Link
  3. SpecialChem’s Irganox 1076 Technical Datasheet – A technical datasheet that offers detailed information about the properties and uses of Irganox 1076. This source provides valuable insights for those looking to understand the product in-depth. Source Link
  4. RSC Publishing Article on Irganox 1076 – An article discussing the use of Irganox 1076 in standard polymers, providing practical insights into its application. Source Link
  5. NCBI Comparative Study of Antioxidants – This study compares the antioxidant capability of EDTA and Irganox types, highlighting the effectiveness of Irganox 1076. Source Link
  6. Plastics Technology Article on Biomass Balance Additives – An article discussing the initial products of biomass balance additives, including Irganox 1076. This source provides insights into the sustainability aspects of the product. Source Link
  7. ACS Publications on Identification of Unusual Antioxidants – This publication identifies Irganox 1076 as an unusual antioxidant, providing a unique perspective on its properties. Source Link
  8. ResearchGate Publication on Polymorphism of Irganox 1076 – This publication discusses the use of Irganox 1076 in polymer-based medical devices, offering insights into its applications in the healthcare industry. Source Link
  9. Vinati Organics’ Veenox 1076 Product Page – A product page for Veenox 1076, an equivalent to Irganox 1076, offering insights into its potential and impact on material quality. Source Link
  10. MDPI Article on the Effect of Stereoregularity and Adding Irganox 1076 – This article discusses the implications of adding Irganox 1076 during the preparation of films from PTMSP, providing practical insights into its use. Source Link

Recommended reading: Sourcing Antioxidant 1076 & Irganox 1076 from China

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