rubber antioxidant dtpd (3100) with best price
- Classification:Chemical Auxiliary Agent
- Purity:96.9%
- Type:Rubber additive antioxidant
- Appearance:Amber to Brown Flake
- Content:95%
- Application:Shoe Soles, auto tyre
- Production Capacity: 500 Metric Tons per Month
- Package:25kg in kraft paper bag with PE bag inside
inovasi industri lokal ini sukses memproduksi rubber…,industry.co.id, jakarta-industri lokal yang memproduksi bahan tambah organik untuk industri karet, pt organik inti indonesia (oii), suskes melakukan inovasi dengan menghasilkan produk rubber antioxidants dan rubber homogenizing agent pertama di indonesia.
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
rubber antidegradant antiozonant 6ppd: an organic chemical widely used as a stabilising antidegradant in rubbers. it gives long term protection and is used for agriculture and other sectors.
rubber antioxidant dtpd (3100) with high quality,rubber antioxidant dtpd has good resistance to ozone, excellent anti-cracking performance. it is suitable for load tyre, off-road tyre and bias-ply tyre.
unleashing the power of dtpd: the ultimate antioxidant agent
dtpd stands as a powerful antioxidant agent, safeguarding rubber materials against oxidative degradation and preserving their durability and performance. with its ability to prevent premature aging, cracking, and improve heat resistance, dtpd ensures the longevity and reliability of rubber products across various industries.
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 antioxidants and their transformation products
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
rubber antioxidant 3100(dtpd) N,N'-xylyl-p-phenylenediamine,product specifications product rubber antioxidant 3100(dtpd) ,It is suitable for load tires, cross-country tires and various tires and bias-ply tires.x
jakarta rubber antioxidants suppliers and manufacturers
below are the list of companies that supply rubber antioxidants for jakarta region. this list is updated on daily basis.
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.
- 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.
- Do Antioxidants improve the performance of rubber?
- Conclusions and Future Perspectives Antioxidants are widely used to improve the performance of rubber, and their production, especially 6PPD, is annually maintained at a high level .
- What are the different types of antioxidants in rubber?
- Chemical antioxidants are generally classified as amine, phenolic, heterocyclic, phosphite, and nickel salts (nickel dibutyl dithiocarbamate (NBC)) antioxidants according to their chemical structure (Figure 1). During the rubber production, various antioxidants are often used as a mixture to improve performance and ensure an antiaging effect.
- Are rubber antioxidants toxic?
- (2) The toxic effects of rubber antioxidants and their TPs may be evaluated via computational toxicology combined with traditional toxicological methods, including studies of short-term and sub-lethal exposure effects, the potential for mortality, mechanism of effect, and interaction with environmental variables.
