rubber antioxidant dtpd (3100) with best price
- Classification:Chemical Auxiliary Agent
- Purity:95%
- Type:Antioxidant
- Appearance:Grayish purple to purple brown granular
- MOQ:1 ton
- Application:used in manufacture of tires
- Storage:Dry
- Package:1kg/polybag, 25kg/kraftbag
antioxidant dtpd(3100) chemicals supplier,antioxidant dtpd (3100), which can be classified in p-phenlene antioxidant groups. is excellent antioxidant to chloprene rubber.
its performance of anti-ozone, anti-scratch and anti-cracking is far better than antioxidant a and d. dtpd has good long-term performance especially used with the antioxidant 4020 or 4010na 1:1. its greatly increased solubility in rubber and the much lower blooming allow a greater using amount.
rubber antidegradant antiozonant 6ppd anti-degradants in rubber
major application antiozonant for rubber. it gives long term protection against oxidative heat ageing, anti-flex cracking ozone. it migrates very slowly to surface and has limited solubility in rubber. the suggested dosage is 0.7 pbw max.
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 3100(dtpd) (cas 68953-84-4) trusted
parchem supplies rubber antioxidant 3100 (dtpd) and a range of specialty chemicals worldwide.
technical data sheet (tds) with high quality,it is the efficient antioxidant used in tire industry and widely used for rubber products. it can completely avoid the tire surface to become red due to the use of antioxidant 6ppd and ippd. application: it is can be used for load tires, cross-country tires and various tires and bias-ply tires.
application of antioxidant dtpd/3100 in rubber industry
antioxidant dtpd (also known as antioxidant 3100) is a widely used antioxidant in the rubber industry, mainly used to improve the aging resistance of rubber products. the following are the main applications and characteristics of dtpd in the rubber industry:
Rubber Auxiliary Agent rubber antioxidant dtpd,it is used to inhibit the oxidative degradation of rubber materials during use and can extend the service life of tires, rubber seals, conveyor belts, rubber pipes and other products. it helps maintain the physical properties and antioxidant properties of rubber products.
rubber antioxidant dtpd (3100) with high quality
vestox® dtpd is para phenylene diamine anti-aging agent, chloroprene adhesive antiozonidate. it is high efficient anti-aging agent in tyre industry and can also be applied to various rubber products.
rubber antioxidants and chemical 6ppd,antioxidants are prevalently used during rubber production to improve rubber performance, delay aging, and extend service life. however, recent studies have revealed that their transformation products (tps) could adversely affect environmental organisms and even lead to environmental events, which led to great public concern about environmental
- 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.
- How many rubber antioxidants are produced in China?
- China is one of the main countries producing rubber antioxidants, and the production accounts for more than 70% of the total amount globally. The production of rubber antioxidants in China ranged from 365,000 to 378,000 tons during 2016–2020, showing a constant annual trend .
- Can a rubber antioxidant enter the environment with tire-wear particles (Twps)?
- Recently, it was reported that the rubber antioxidant N - (1,3-dimethylbutyl)- N′ -phenyl- p -phenylenediamine (6PPD or antioxidant 4020), a typical tire rubber antioxidant, could enter the surrounding environment together with tire-wear particles (TWPs) [7, 8].
- 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].
