Antioxidant IPPD Chemical Auxiliary Agent for Rubber Tyre-rubber accelerator rubber
- Classification:Chemical Auxiliary Agent
- Purity:99.9%
- Type:Rubber antioxidant
- Appearance:Black Flake
- Feature:Chemical Resistance
- Application:Natural Rubber, Synthetic Rubber Common Use
- Production Capacity:5000 Ton/Tons per Year
- Package:Package in 25kgs bag
recent progress in the rubber antioxidants price,this review mainly focused on thermo-oxidative aging because it is the most common aging type for rubbers. the oxidative degradation of rubber proceeds by a free-radical chain reaction mechanism [1]. as shown in fig. This product is combustible, when storing and transporting, always pay attention to fireproof and damp proof.
antioxidant 4010na is a light red to purple red, brown granular material with a relative density of 1.14 and a melting point of ( c) 80.5 . it is soluble in oil, acetone, benzene, carbon tetrachloride, carbon disulfide and ethanol, insoluble in gasoline, insoluble in water, and will change color when exposed to air and sunlight, with less toxicity.
rubber antioxidant ippd(4010na) manufacture
dithiocarbamates--rubber accelerator pz(zdmc) guanidines--accelerator dpg(d) thiurams--accelerator tmtd(tt) thiurams--accelerator tmtm(ts) rubber antioxidant rubber antioxidant agent 6ppd(4020) rubber antioxidant ippd(4010na)
rubber antioxidant 4010na(ippd) with high quality,generic family: additive -- antioxidant / heat stabilizer supplied. 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.
recent progress in the rubber antioxidants price
in this review, we summarized the recent advances in rubber antioxidants over the last 10 years and offered some perspectives to outline the challenges and future research directions for the rubber antioxidants. 2. brief introduction of the oxidation process and oxidation mechanism of the rubbers.
rubber antioxidant ippd (4010na) (high-class) henan rtenza,rubber antioxidant ippd(4010na) (high-class) is recommended for use in tire components. read more view less download product type antioxidants chemical composition n-isopropyl-n'-phenyl-p-phenylenediamine cas number 101-72-4 access full datasheet.
classification and development status of rubber antioxidants supplier
the primary types of alkyl aryl para phenylenediamine antioxidants include antioxidants 40104010na, 4020, and h. antioxidant 4020 is currently the largest type of antioxidant used in tire compounds.
rubber antioxidant 4010(ippd) supplier,application: it is an antioxidant with high efficiency and multi-functions, being used in a wide range of applications. it is applicable in natural rubber, many kinds of synthetic rubber products and their latexes. it can be used in airplane, car tyre, bicycle tyre, as well as rubber products and latexes in cable industry.
antioxidant-4010na china customs hs code china import tariffs for
latest china hs code & tariff for antioxidant-4010na tariff & duty, regulations & restrictions, landed cost calculator, customs data for antioxidant-4010na in etcn. china customs statistics trade data. ciq code »101:edible plant blending oil 102:other edible vegetable oils 103:substitute tea 104:other teas and products 105:other milk and dairy products 106:instant nut salad 107:other cooked.
rubber antioxidant 4010na( ippd) with high quality,rubber antioxidant 4010na( ippd) generic family: additive -- antioxidant / heat stabilizer supplied by: shijiazhuang metal billion import & export co., ltd. it is an antioxidant used for rubber products with high efficiency, low poison and low solvent-extraction amout.
- How does a rubber matrix affect antioxidative performance?
- Obviously, the solubility/dispersity of the antioxidant within the rubber matrix is a key factor in determining the antioxidative performance, and the antioxidative efficiency of antioxidant increases with the dispersion state within the rubber matrix, owing to higher specific surface area available for termination of radicals.
- What is thermo-oxidative aging of rubber?
- This review mainly focused on thermo-oxidative aging because it is the most common aging type for rubbers. The oxidative degradation of rubber proceeds by a free-radical chain reaction mechanism . As shown in Fig. 1a, rubber aging processes have three distinct phases: (i) Initiation, (ii) Propagation, and
- Are rubber antioxidants a rational design?
- The development of medical antioxidants also inspires the rational design of rubber antioxidants. Recently, Sun, et al. synthesized a novel antioxidant (APPT) containing aromatic amine, thiourea and allyl groups by the reaction between N-phenyl-p-phenylenediamine and allyl isothiocyanate (Fig. 3 b) .
- Can hydroxytoluene stop the autocatalytic aging reaction of rubber?
- For instance, as shown in Fig. 1 b, butylated hydroxytoluene (BHT) could donate a hydrogen atom and convert peroxy radical to hydroperoxide, and therefore it could stop the autocatalytic aging reaction of rubber by blocking the propagation of peroxy radicals (Fig. 1 b), each BHT consumes two peroxy radicals. 3.
