recent progress in the rubber antioxidants Rubber Auxiliary Agent
- Classification:Chemical Auxiliary Agent
- Purity:98.9%
- Type:Anti-aging agent
- Appearance:Dark purple pastilles
- MOQ:500kg
- Application:Coating Auxiliary Agents
- Production Capacity:5000 Ton/Tons per Year
- Package:Package in 25kgs bag
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.
compared to traditional antioxidant 4010na, it is found that the eda-cds showed the strongest photoluminescent intensity and superior antioxidative effect for sbr.
global rubber antioxidant 4010na market research report 2024
rubber antioxidant 4010na, chemical name is n-isopropyl-n'-phenyl-p-phenylenediamine. it is highly efficient and can be easily oxidized and discolored on the exposure to air and light. antioxidant 4010na (ippd) is recommended for use in latex, natural and synthetic rubber.
antioxidant agent 4010na: shielding industries against,agent 4010na, commonly known as ippd in industrial circles, is a powerful antioxidant celebrated for its versatile applications. its primary function is to shield materials and products from oxidative degradation.
sirantox ippd (4010na) sinorgchem antioxidant amines
chemical name of sirantox® ippd (4010na) is n-isopropyl-n'-phenyl right phenylenediamine structure. brand: sirantox ( 8 products) functions: antioxidant, primary antioxidant. chemical family: amines. technical data sheet.
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
high quality rubber antioxidants 4010na ippd
a combined molecular dynamics (md) simulation and experimental study is presented to investigate the effects of small molecules 4010na, go, and go-4010na on the compatibility and damping...
synergistic effects of antioxidant and silica on enhancing,compared with 4010na/carbon black (cb)/nr composite, there existed significant synergistic effects between 4010na and sio 2 on improving the thermo-oxidative stability of nr material.
enhance material durability with rubber antioxidant 4010na
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rubber antioxidant 4010 (ippd) with best price,Rubber antioxidant 4010 (ippd) chemical name: n-isopropyl-n'-phenyl-p-phenylenediamine. Molecular formula: c15h18n2. It is commonly used in tire manufacturing and can significantly improve the aging resistance and overall performance of rubber, helping to improve durability and safety.
- Which raw materials are used to prepare Nr & 4010na blends?
- To avoid the disturbance of other additives, we only used raw materials NR, filler (CB or SiO 2 ), and antioxidant 4010NA to prepare NR, 4010NA/NR, CB/NR, 4010NA/CB/NR, SiO 2 /NR, and 4010NA/SiO 2 /NR blends. The weight loss of these blends were measured by TGA at 150 °C under nitrogen atmosphere.
- Does antioxidant 4010na increase k value in Nr/CB/Nr composite?
- Moreover, upon adding antioxidant 4010NA into NR or CB/NR composite, the K values for 4010NA/NR or 4010NA/CB/NR composite did not exhibit a significant improvement. In contrast, it is noticeable that the addition of 4010NA caused a significant increase in K value for 4010NA/SiO 2 /NR composites in comparison with SiO 2 /NR composite.
- Does antioxidant 4010na and silica enhance thermo-oxidative aging assistance?
- In this work, the synergistic effects of antioxidant 4010NA and silica on enhancing thermo-oxidative aging assistance for NR were investigated by experiments and molecular simulations, and the mainly conclusions were generalized as follows:
- Does antioxidant 4010na reduce FFV and FCV of NR?
- (1) By means of QM simulation, the protective mechanism of antioxidant 4010NA for NR was elucidated quantitatively from the point of free energy of dissociation and energy barrier of reaction. (2) The addition of silica was capable of reducing FFV and FCV of NR, thereby improving O 2 barrier ability of NR.
