Influence research phosphate coating alkilolamids of fatty acids on formation of structure of the crosslinking grid and properties of composites

“…The possibility of reducing the intensity of the ageing of rubbers and the intensity of active transverse bonds at filling with modified Angren kaolin compared with unmodified serially applied mineral fillers (Yelinsky kaolin, talc), is shown by structure Angren kaolin and modifiers. In this connection, we assume that modifiers based on alkanolamines and alkyloamides of phosphated fatty acids play a role in inhibiting donor-acceptor bond with the interaction of active centers and play a great role in the formation of vulcanization mesh, properties of vulcanization elastomeric composites at thermal, photodestruction [20][21][22][23][24][25]. Observed in the study of thermal aging of rubbers filled with modified Angren kaolin with increasing thermal aging time, relative elongation decreases and hardness increases compared to stabilized rubbers with neozone -D. It is shown that during thermal aging of rubbers, additional structures are formed, hardness increases and relative elongation decreases, due to sulfur, nitrogen, phosphorous compounds in secondary alkylolamine and phosphated alkyl amides of fatty acids.…”

Composite elastomeric materials filled with modified mineral fillers

“…The possibility of reducing the intensity of the ageing of rubbers and the intensity of active transverse bonds at filling with modified Angren kaolin compared with unmodified serially applied mineral fillers (Yelinsky kaolin, talc), is shown by structure Angren kaolin and modifiers. In this connection, we assume that modifiers based on alkanolamines and alkyloamides of phosphated fatty acids play a role in inhibiting donor-acceptor bond with the interaction of active centers and play a great role in the formation of vulcanization mesh, properties of vulcanization elastomeric composites at thermal, photodestruction [20][21][22][23][24][25]. Observed in the study of thermal aging of rubbers filled with modified Angren kaolin with increasing thermal aging time, relative elongation decreases and hardness increases compared to stabilized rubbers with neozone -D. It is shown that during thermal aging of rubbers, additional structures are formed, hardness increases and relative elongation decreases, due to sulfur, nitrogen, phosphorous compounds in secondary alkylolamine and phosphated alkyl amides of fatty acids.…”

Composite elastomeric materials filled with modified mineral fillers

Composite Elastomer Materials Based on New Ingredients