rubber antioxidant ippd 4010na 101-72-4 manufacturer
- Classification:Chemical Auxiliary Agent
- Purity:95.9%
- Type:Rubber additive antioxidant
- Appearance:Dark purple granule
- Quality:Technical
- Application:Used in Tires,Industrial Rubber Products
- Production Capacity:10000tons/Year
- Package:25 Kgs/kraft bag
enhancing rubber performance with antioxidant ippd,discover how the antioxidant ippd enhances the performance of rubber products. learn about its unique properties, applications in various industries, and the growing demand for high-performance antioxidants.
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.
rubber antioxidant 4010 (ippd) with best price
packed in kraft paper bags of 25kgs net each with p.e. liner inside, or jumbo bags. 12mt per 20’gp, 24mt per 40’gp, palletized.
dusantox ippd duslo primary antioxidant amines neoprene,dusantox® ippd is packed in multilayer pe-coated paper bags of 25 kg net, with valve closure or in big-bags of 600 kg and 1,000 kg weight.
vulcanization accelerator tmtd,rubber accelerator dtdm-stair
structure formula : cas no: 101-72-4. quality standard: (gb/t8828-2003) properties: purple grey to violet brown flaky or granular crystal,soluble in organic solvent such as oil and alcohol. hardly soluble in petroleum. insoluble in water. application: used in vehicle tyres, shoes and belt products.
rubber antioxidants: tmq, 6ppd, ippd chemical products,rubber antioxidant IPPD, or n-isopropyl-n'-phenyl-p-phenylenediamine, is a synthetic rubber antioxidant widely used in the tire and rubber industry. It prevents degradation caused by heat, oxygen, and flex cracking.
rubber antioxidant ippd anti-aging agent price
applications it is an antioxidant used for rubber products with high efficiency, low poison and low solvent-extraction amount. also used as stablizer in synthetic rubber. it’s main used in tire, rubber shoes, belt, hoses automotive mounts so on.
rubber antioxidant ippd(4010na) rubber accelerator,ippd (4010na) rubber antioxidant, a high activity antioxidant for matural and synthetic rubber provides powerful antiozonant and antioxidant properties with excellent high temperature.
chemical auxiliary agent ippd antioxidant price
application: mainly used in manufacture of tires, rubber shoes and other rubber products. packing: in 25kgs bag. storage: keep container tightly closed in a cool, dry and well-ventilated place, avoiding exposure of the
rubber chemicals ktpco,rubber chemicals. to achieve the desired effect, the rubber needs to be extensively processed. during the process of vulcanization, the rubber molecules are first cross-linked with each other. then the material properties are specifically influenced through the addition of fillers. accelerators antioxidants anti-scorching agents plasticizers
- Is MBZ 445 a good antioxidant for EPDM?
- In the thermal-aging testing, the retention of elongation at break for the rubber sample with combined antioxidants (MBZ:445=2:1) is superior to that of other samples (Fig. 2 c), demonstrating the synergistic antioxidative effects between MBZ and 445 for EPDM.
- What are the future trends of rubber antioxidants?
- The perspectives on the future trends of rubber antioxidants have been presented. Elastomers, especially diene-rubbers containing unsaturated double carbon bonds in the main chains, are vulnerable to thermal/oxygen aging, which would make the elastomers less elastic and result in earlier failure of the elastomer products.
- 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.
