rubber antioxidant 4010 (ippd) with best price
- Classification:Chemical Auxiliary Agent
- Purity:96%
- Type:Rubber additive antioxidant
- Appearance:Gray Purple or Purple Brown
- Water Solubility:Insoluble in Water
- Application:rubber shoes and other rubber products
- Production Capacity:3000 Ton/Year
- Package:25kg/drum
rubber antioxidant ippd(4010na) rubber accelerator,application: used in pneumatic tire components, solid tires, belts, hoses, cables, automotive mounts, bushings and general mechanical products that are exposed to continuous and intermittent dynamic operating conditions and require protection from ozonation. package: 25kg n.w./bag, in plastic fabric laminated kraft bags lined with plastic bags.
it can be used in airplane, car tyre, bicycle tyre, as well as rubber products and latexes in cable industry. package: packed in kraft paper bags of 25kgs net each with p.e. liner inside, or jumbo bags.
recent progress in the rubber antioxidants Rubber Auxiliary Agent
the rubber antioxidant market is expected to expand significantly in the future due to the increasing demand for antioxidants in the manufacture of various rubber products used in the tire industry, automotive industry, and others.
rubber antioxidant ippd 4010na cas:101-72-4 with cheap price,include the use in pneumatic tire components, an antioxidant for natural rubber and many kinds of synthetic rubber, especially for the prevention of thermal deterioration in nbr. these goods can be used in heated vessels and the torrid zone.
rubber antioxidant 4010na( ippd) price
rubber antioxidant 4010na( ippd) generic family: additive -- antioxidant / heat stabilizer; IPPD is used for natural rubber and synthetic rubbers such as styrenebutadiene rubber, cisbutadiene rubber, and nitrile rubber. it is an antioxidant used for rubber products with high efficiency, low poison and low solvent-extraction amout.
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 ippd (4010na) (high-class) with best quality
it is suitable for natural rubber and synthetic rubber especially for the prevention of thermal deterioration on nbr. it provides high temperature and flexing resistance. rubber antioxidant ippd(4010na) (high-class) is recommended for use in tire components.
4010na rubber antioxidant: enhancing durability,4010na is a widely used rubber antioxidant that plays a crucial role in improving the durability and performance of rubber products. this article provides an in-depth overview of 4010na, highlighting its characteristics, applications in rubber product manufacturing, compatibility with other products, and essential cons
lanxess chemical rubber antioxidant 4010 na/lg rubber antioxidant with best price
lanxess chemical rubber antioxidant 4010 na/lg rubber antioxidant. categories: other engineering material; additive/filler for polymer. material notes: aging processes, which are caused by oxygen or heat, change the properties of the vulcanizates.
rubber antioxidant ippd 4010na 101-72-4 manufacturer,rubber antioxidant ippd offers superior protection against oxidative degradation and ozone attack, making it a top choice for manufacturers seeking to improve the performance and durability of their rubber products.
- Are EDA-CDs better than traditional antioxidant 4010na?
- Compared to traditional antioxidant 4010NA, it is found that the EDA-CDs showed the strongest photoluminescent intensity and superior antioxidative effect for SBR.
- Which antioxidants are used in rubber vulcanization?
- The amine and phenolic antioxidants are the most widely used rubber antioxidants (Fig. 1 b and c). Generally, the phenolic antioxidants have poor antioxidative efficiency (compared to amine antioxidants) and they can delay vulcanization, but they cause little discoloration problems.
- Can rubber antioxidants contain rare-earth ions?
- The recently reported rubber antioxidants containing rare-earth ions are summarized in Fig. 4, for instance, Sun et al. prepared a novel hindered phenol rare-earth complex (DTSm) (Fig. 4 f) by a simple and green method using 3,5-di-tert-butyl-4-hydroxybenzoic acid (DT) and samarium chloride hexahydrate (SmCl 3 ·6H 2 O) via coordination reaction.
- Does a sustained release of EAB improve anti-oxidative capacity of rubber composites?
- Moreover, the retention of EAB for SBR/Loaded HNTs is about 50% higher than for SBR/HNTs and CDs after the thermo-aging testing, demonstrating the sustained release of CDs from HNTs could enhance the anti-oxidative capacity of the rubber composites.
