Nurcacit DCP Cross-Linking Agent | Nanjing Union Rubber Chemicals
DCP, as an excellent organic peroxide, is mainly used as the crosslinking agents of PE, EVA resins; the vulcanizing agent of EPDM, natural rubber, nitrile rubber; the initiating agent of polymerization reaction; the curing agent of unsaturated polyester; and the conditioning agent in polypropylene melt index, etc.
Cross-Linking Agent | Nanjing Union Rubber Chemicals
No. Product Name CAS No. Delivery Form Equivalent to TDS 1 Nurcacit BIPB 2212-81-9 Read More 2 Nurcacit Si69 40372-72-3 Read More 3 Nurcacit TAC Read More 4
Nurcacit BIPB Cross-Linking Agent | Nanjing Union Rubber
Nurcacit BIPB is a widely used curing agent for plastics and rubbers, such as CPE, EPDM, EVA, silicone rubber, NBR and fluororubber. Compared with DCP, BIPB is more efficient at less dosage and odor free in the processing and final products. PACKAGE: Packed in cartons with PE bags inside. N.W.:20kg. STORAGE: Stable at normal temperature.
Nurcacit TAIC Cross-Linking Agent | Nanjing Union Rubber
The amount is generally 1-3% by weight in peroxide cross-linking system, dicumyl peroxide (DCP) is 0.2 to 1% in addition; radiation cross-linking system 0.5 to 2% by weight. The cross-linked products can significantly improve heat resistance, flame resistance, solvent resistance, mechanical strength and electrical properties.
Nurcacit Si69 Cross-Linking Agent | Nanjing Union Rubber
Cross-Linking Agent Nurcacit Si69 is not only a highly efficient high-level curing agent, activating agent, reinforcing agent, coupling agent, cross-linking agent, softener, but also the role of thermal aging.
Nurcacit ZDA Cross-lingking | Nanjing Union Rubber Chemicals
Nurcacit ZDA is an accelerating agent for NR, NBR, EPDM compounds etc. ZDA is used as reinforcing agent, cross-linking agent for rubber. It dramatically improves tensile strength, hardness, stretching strength and tearing strength of rubber compounds. It can be used in the products of Vee belt, Covered roller, Conveyer belt, Tires, etc.
Comparative thermoanalytical investigation of the cross
A cross-linking mechanism was proposed and the efficiency of DCP as a cross-linking agent established. Luyt et al.  investigated the same system thermoanalytically. They tried to establish the cross-linkability and extent of cross-linking through FTIR analyses and wax solubility.
The Impact of Cross-Linking Effect on the Space Charge
over the world. This article has studied the impact of the cross-linking e ect on the space charge characteristics of XLPE with di erent degrees of cross-linking. For this issue, we used dicumyl peroxide (DCP) as the cross-linking agent and low-density polyethylene (LDPE) as the base material for the preparation of samples.
Cross-linking of technical lignin via esterification
Compared with original PB-Cr, thermal treatment increased the T g by about 9 °C, and DCP induced cross-linking increased T g by about 28 °C, which implies more thermal energy is needed to overcome the barrier around bonds and start segmental motion in the amorphous phase (Luo et al., 2016). An analogous trend is observed in IN-Cr.
Organic Peroxides as Crosslinking Agents | Request PDF
Dicumyl peroxide (DCP) is a most typical and widely used crosslinking agent. However, acetophenone derived from DCP as a decomposition product sometimes causes a smell problem of rubber. α, α
(PDF) Crosslinking of Polyethylene by Dicumyl Peroxide in the
The crosslinking of P3SiT was performed using dicumyl peroxide (DCP) as the crosslinking reagent above the melting point of P3SiT (T m = 142°C) .DCP and 2.0 wt % P3SiT (0.10 versus 5 g
The Effect of Peroxide Cross-Linking on the Properties of Low
Enhancements in properties could be quantified in terms of structural changes in 3D structure of XPLA by varying the amount of dicumyl peroxide (DCP) as a cross--linking agent and curing