Antioxidant 3114 High Performance Sterically Hindered Phenolic
Antioxidant 3114 High Performance Sterically Hindered Phenolic
Antioxidant 3114 High Performance Sterically Hindered Phenolic
Antioxidant 3114 High Performance Sterically Hindered Phenolic
Antioxidant 3114 High Performance Sterically Hindered Phenolic
irganox 3114 - basf

Irganox 3114 - BASF

Irganox? 3114 ¨C a sterically hindered phenolic antioxidant ¨C is a highly effective, non-discoloring stabilizer for organic substrates such as polymers, synthetic fibers, elastomers, adhesives, waxes, oils and fats. It protects these substrates against thermo-oxidative degradation and contributes to their light stability. Chemical name CAS number

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phenolic antioxidants > songnox? 3114 pw | vanderbilt

Phenolic Antioxidants > SONGNOX? 3114 PW | Vanderbilt

Antioxidant. A very high melting point, trifunctional sterically hindered primary antioxidant is usable in organic polymers for its high performance. Its low volatility, good color stability, and high extraction resistance make it ideal for use in color-sensitive applications such as polypropylene fiber and high temperature hot melts.

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investigation of hindered phenol antioxidant effects on the

Investigation of hindered phenol antioxidant effects on the

The excellent performance of hindered phenolic antioxidants is closely related to its electrical delocalization, relative molecular weight, structures, the number and type of the...

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improving synthetic hindered phenol antioxidants: learning

Improving synthetic hindered phenol antioxidants: learning

Most commercial synthetic hindered phenolic antioxidants are based upon 2, 6-di- tert -butyl-4-methylphenol (BHT). We compared the antioxidant efficiency of BHT with that of 2, 6-di- tert -butyl-4-methoxyphenol (BHA) and found that BHA was 94% more efficient. This implies that it may be advantageous to make new commercial hindered phenolic

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product data sheet - the cary company

Product Data Sheet - The Cary Company

Omnistab AN 3114 is the primary antioxidant for organic polymers. It is a high performance sterically hindered phenolic antioxidant. It features low volatility, good color stability and a high extraction resistance. It is mainly used in color sensitive applications such as polypropylene fiber.

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hindered phenolic antioxidants as heat-oxygen stabilizers for

Hindered phenolic antioxidants as heat-oxygen stabilizers for

One of the most used primary family of antioxidants in industry is the very effective hindered phenolic antioxidants(e.g., Irganox 1010, Irganox 1330, Irganox1024, Irganox3114), which have good pollution-free and non-discoloring properties compared with the toxicity and discoloration of amine antioxidants.12-15 The long-term heat-oxygen stabilit...

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hindered phenolic antioxidants as heat-oxygen stabilizers for

Hindered phenolic antioxidants as heat-oxygen stabilizers for

The effects of four hindered phenolic antioxidants in the short-term heat-oxygen stability of High-Density Polyethylene (HDPE) was evaluated by the Melt Flow Rate (MFR) and Oxidation...

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quent ? 3114 qualichem specialties private ltd. - ul prospector

QUENT ? 3114 Qualichem Specialties Private Ltd. - UL Prospector

Primary antioxidant for organic polymers - High performance sterically hindered phenolic antioxidant - Low volatility, good color stability, high extraction resistance - For use in color sensitive applications such as polypropylene fiber - Exhibits a synergistic effect when used in combination with a phosphite antioxidants such as QUENT 68.

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irganox? 3114 (antioxidant) by basf - technical datasheet

Irganox? 3114 (Antioxidant) by BASF - Technical Datasheet

Irganox? 3114 by BASF is a sterically hindered phenolic antioxidant for processing and long-term thermal stabilization. It is a highly effective, non-discoloring stabilizer for organic substrates such as polymers, synthetic fibers, elastomers. Exhibits low volatility and high resistance to extraction. It is odorless and stable to light.

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chemo-enzymatic synthesis of renewable sterically-hindered

Chemo-Enzymatic Synthesis of Renewable Sterically-Hindered

The phenolic concentrations were selected to get linear dose-response intervals. The reaction was followed by a microplate Multiskan FC 1 scan every 5 min for 7.5 h at 515 nm. The use of different amounts of the potential antioxidant gave rise to the EC 50 value, which is defined as the concentration needed to reduce half the initial amount of

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