recent progress in the rubber antioxidants Rubber Auxiliary Agent
- Classification:Chemical Auxiliary Agent
- Purity:96.0% MIN
- Type:Rubber additive antioxidant
- Appearance:Grey purple to purple brown
- Melting point:45-46°C
- Application:For nitrilebutylbenzene
- Production Capacity:10000 Kilogram/Kilograms per Day
- Package:As the client's request
rubber antioxidants,rubber antioxidants. antioxidant 4020 (6ppd) antioxidant rdz. antioxidant rd(tmq) antioxidant ippd(4010na) antioxidant zmti. apply to many kinds of tires, rubber tube, gummed tape rubber overshoes and general industrial rubber products.
compared to traditional antioxidant 4010na, it is found that the eda-cds showed the strongest photoluminescent intensity and superior antioxidative effect for sbr.
rubber antioxidants and their transformation products
amine antioxidants are the main rubber antioxidants produced and used in china, of which 6ppd and 2,2,4-trimethyl-1,2-dihydroquinoline (tmq, rd) have the highest production, accounting for more than 80% of the total amine antioxidants.
classification and development status of rubber antioxidants,the common types are antioxidant 4020,4010na and tmq. these three types of anti-aging agents account for more than 80% of china's current use of national defense anti-aging agents.
rubber antioxidant tmq (rd) your reliable partner
we can supply best quality of rubber antioxidant dtpd (3100), tmq (rd), 6ppd (4020), ippd (4010na) ; competitive price on time delivery.
rubber antioxidant 4010na(ippd) price,rubber antioxidant 4010na (ippd) a high activity antioxidant for matural and synthetic rubber provides powerful antiozonant and antioxidant properties with excellent high temperature, fatigue and flex resistance to rubber compounds.
rubber antioxidant factory, rubber antioxidant price, rubber
rubber antioxidant ippd (4010na) a high activity antioxidant for matural and synthetic rubber provides powerful antiozonant and antioxidant properties with excellent high temperature.
rubber antioxidant ippd(4010na) rubber accelerator,ippd (4010na) rubber antioxidant, a high activity antioxidant for matural and synthetic rubber provides powerful antiozonant and antioxidant properties with excellent high temperature.
source rubber antioxidant ippd(4010na) high quality rubber
rubber antioxidant ippd(4010na) properties: a high activity antioxidant for matural and synthetic rubber provides powerful antiozonant and antioxidant properties with excellent high temperature, fatigue and flex resistance to rubber compounds.
rubber antioxidant 4010 (ippd) with best price,Rubber antioxidant 4010 (ippd) chemical name: n-isopropyl-n'-phenyl-p-phenylenediamine. Molecular formula: c15h18n2. It is commonly used in tire manufacturing and can significantly improve the aging resistance and overall performance of rubber, helping to improve durability and safety.
- Do antioxidants and their TPS increase environmental risk awareness of rubber products?
- To our knowledge, this is the first review on antioxidants and their TPs in the environment, which may elevate the environmental risk awareness of rubber products and their TPs in the near future.
- What are rubber antioxidants?
- Rubber antioxidants are defined as substances that could delay the aging of polymer compounds and prolong the service life of rubber products by inhibiting oxidation, heat, or light radiation . To date, the annual global consumption of rubber antioxidants is over 700,000 tons, accounting for about 40% of the total amount of rubber additives.
- Does antioxidant 2246 protect rubber from aging?
- Among them, antioxidant 2246 has a good performance to protect rubber from aging caused by heat, oxygen, and metals. Because hydrogen in phenolic antioxidants can combine with the oxygen in air, their antiaging efficiency is therefore lowered compared with amine antioxidants [21, 22].
- What are the future trends of rubber antioxidants?
- The perspectives on the future trends of rubber antioxidants have been presented. Elastomers, especially diene-rubbers containing unsaturated double carbon bonds in the main chains, are vulnerable to thermal/oxygen aging, which would make the elastomers less elastic and result in earlier failure of the elastomer products.
