Rubber Antioxidants Rubber and articles thereof will gradually be tacky, harden, get brittle or cracked during the long-term storage and use process. With the proceeding of aging, the performance of rubber and its products will gradually decrease, resulting in complete loss of value in use.
Quality Rubber Antioxidant manufacturers & exporter - buy Rubber Antioxidant IPPD (4010NA) from China manufacturer.
Antioxidant 4010NA (IPPD) Chemical name N-Isopropyl-N'-phenyl-P-phenylenediamine Molecular formula:C . A widely used antioxidant with high efficiency and many purpose, especially for natural rubber, many kinds of synthetic rubber products and their latexes. Packing: in 20kgs bag. We welcome your visit, You .
Effectiveness of different kinds of antioxidants in resin-cured bromobutyl rubber vulcanizates Article in Advances in Polymer Technology 37(6) · July 2017 with 21 Reads How we measure 'reads'
Rubber Antioxidant Development. From the development trend of the world rubber antioxidant, some foreign multinational companies have already begun to adjust production layout, reduce production and distribution, improve the production capacity of a single set of device to improve the overall scale of production to achieve economies of scale, China's dominant antioxidant varieties 4010NA and .
Antioxidant PA100 (similar to Wingstay 100 of Goodyear and ACCINOX 100 of ICI) is a mixture of diaryl-p-phenylenediamines, which can be classified in pphenylene - antioxidant, is excellent antiozonant to chloroprene rubber. It is the effective antioxidant used in the tire industry and also widely used for rubber products.
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. While used primarily for ozone resistance, it is a more active antioxidant than quinoline or diphenylamine based antioxidants.
Antioxidants & Antidegradants . . These factors degrade rubbers / rubber products causing substantial changes in the tirechnical properties and ultimately lead to their failure during service or shorten theexpected service life in the absence of Antioxidants. Type of Degradation . Initiating / Accelerating Factors Degradation Causes
It splits an ingredients interactions into three parameters; δD (Dispersion force interactions), δP (Polar forces interactions) and δH (Hydrogen bond force interactions). Hansen Solubility Parameters can help you find a wide range of products that are predicted to be compatible with Rubber Antioxidant 4010NA …