Immobilization of EPDM chains on the surface of carbon black and network structure in the rubber matrix of filled EPDM rubbers were studied by low-field proton NMR experiments. Advanced NMR experiments unambiguously show strong immobilization of EPDM chain fragments on the surface of carbon black. The thickness of the immobilized EPDM–carbon black interfacial layer is estimated to be ≥0.6 nm. The average number of monomer units per adsorption site is approximately nine, which suggests preferential chain adsorption at the crystal boundaries of carbon-black particles. The adsorbed chain fragments form physical (adsorption) junctions restricting chain mobility in the rubbery matrix outside of the interface. The cross-link density in filled EPD...
The network structure and chain dynamics of ionic elastomers based on carboxylated nitrile rubber (X...
Peroxide-cross-linked ethylene-propylene-(diene) rubbers, EP(D)M, have complex network structures wi...
In this paper some new aspects to the hybrid nano-filler networking in elastomer matrix under dynami...
Immobilization of EPDM chains on the surface of carbon black and network structure in the rubber mat...
Immobilization of EPDM chains on the surface of carbon black and network structure in the rubber mat...
iii The key interactions between elastomer, filler, and coupler in uncured and cured compounds were ...
International audienceCarbon black filled ethylene-propylene-diene-monomer (EPDM) has been widely st...
It is shown that 129Xe-NMR is a powerful tool to investigate carbon black and carbon black filled el...
International audienceThe present work proposes an approach to identify the network structural evolu...
This paper presents an experimental method to follow in-situ the chains network alteration of filled...
The characterization of the structural and dynamic properties of rubber networks is of fundamental i...
International audienceChains and filler network damage were investigated during single and multiple ...
Peroxide-cross-linked EPM and EPDM rubbers have been investigated with magic-angle spinning 1H NMR s...
Peroxide-cross-linked ethylene−propylene−(diene) rubbers, EP(D)M, have complex network structures wi...
1H spin-lattice relaxation rate (R1) dispersions were acquired by field-cycling (FC) NMR relaxometry...
The network structure and chain dynamics of ionic elastomers based on carboxylated nitrile rubber (X...
Peroxide-cross-linked ethylene-propylene-(diene) rubbers, EP(D)M, have complex network structures wi...
In this paper some new aspects to the hybrid nano-filler networking in elastomer matrix under dynami...
Immobilization of EPDM chains on the surface of carbon black and network structure in the rubber mat...
Immobilization of EPDM chains on the surface of carbon black and network structure in the rubber mat...
iii The key interactions between elastomer, filler, and coupler in uncured and cured compounds were ...
International audienceCarbon black filled ethylene-propylene-diene-monomer (EPDM) has been widely st...
It is shown that 129Xe-NMR is a powerful tool to investigate carbon black and carbon black filled el...
International audienceThe present work proposes an approach to identify the network structural evolu...
This paper presents an experimental method to follow in-situ the chains network alteration of filled...
The characterization of the structural and dynamic properties of rubber networks is of fundamental i...
International audienceChains and filler network damage were investigated during single and multiple ...
Peroxide-cross-linked EPM and EPDM rubbers have been investigated with magic-angle spinning 1H NMR s...
Peroxide-cross-linked ethylene−propylene−(diene) rubbers, EP(D)M, have complex network structures wi...
1H spin-lattice relaxation rate (R1) dispersions were acquired by field-cycling (FC) NMR relaxometry...
The network structure and chain dynamics of ionic elastomers based on carboxylated nitrile rubber (X...
Peroxide-cross-linked ethylene-propylene-(diene) rubbers, EP(D)M, have complex network structures wi...
In this paper some new aspects to the hybrid nano-filler networking in elastomer matrix under dynami...