Emulsion Hydrolytic Polymerization of Caprolactam

“…Heat-and mass-exchange processes can be made as even as possible during polymerization of caprolactam (CL) in an emulsion [6,7]. Information on the use of synthesis principles in emulsions for producing polymers via polymerization of cyclic monomers has been reported in the literature [6,7].…”

“…Emulsion polymerization by a single-step method at 210°C using H 2 O and AG salt as activators could produce in 24-42 h polycaproamide with polymerization degree (P) 160-170 and content of low-molecular-weight compounds (LMC) 11-13%, i.e., with characteristics far from the equilibrium values [7]. Also, a polymer with parameters allowing subsequent polycondensation in an emulsion, i.e., with P = 90 and LMC content 12%, could be produced in 12 h with an initial activator (H 2 O) content of 12%.…”

“…However, low-temperature synthesis involves production of polyamide-6 in plug-flow apparatuses in which the polymer molecular-weight distribution can vary because of stagnant zones and uneven temperatures in the melt bulk. Heat-and mass-exchange processes can be made as even as possible during polymerization of caprolactam (CL) in an emulsion [6,7]. Information on the use of synthesis principles in emulsions for producing polymers via polymerization of cyclic monomers has been reported in the literature [6,7].…”

“…Heat-and mass-exchange processes can be made as even as possible during polymerization of caprolactam (CL) in an emulsion [6,7]. Information on the use of synthesis principles in emulsions for producing polymers via polymerization of cyclic monomers has been reported in the literature [6,7].Emulsion polymerization by a single-step method at 210°C using H 2 O and AG salt as activators could produce in 24-42 h polycaproamide with polymerization degree (P) 160-170 and content of low-molecular-weight compounds (LMC) 11-13%, i.e., with characteristics far from the equilibrium values [7]. Also, a polymer with parameters allowing subsequent polycondensation in an emulsion, i.e., with P = 90 and LMC content 12%, could be produced in 12 h with an initial activator (H 2 O) content of 12%.…”

“…The reaction mixture obtained in this manner was used to perform the second step of the synthesis using emulsion polycondensation [7]. Table 2 shows that a polymer with a lower LMC content (13 mass%) was produced with a total polymerization time of 12 h although the molecular weight increased comparatively slightly.…”

Two-Step Emulsion Polymerization—Polycondensation Method for Synthesizing Polycaproamide at Low Temperature

“…Heat-and mass-exchange processes can be made as even as possible during polymerization of caprolactam (CL) in an emulsion [6,7]. Information on the use of synthesis principles in emulsions for producing polymers via polymerization of cyclic monomers has been reported in the literature [6,7].…”

“…Emulsion polymerization by a single-step method at 210°C using H 2 O and AG salt as activators could produce in 24-42 h polycaproamide with polymerization degree (P) 160-170 and content of low-molecular-weight compounds (LMC) 11-13%, i.e., with characteristics far from the equilibrium values [7]. Also, a polymer with parameters allowing subsequent polycondensation in an emulsion, i.e., with P = 90 and LMC content 12%, could be produced in 12 h with an initial activator (H 2 O) content of 12%.…”

“…However, low-temperature synthesis involves production of polyamide-6 in plug-flow apparatuses in which the polymer molecular-weight distribution can vary because of stagnant zones and uneven temperatures in the melt bulk. Heat-and mass-exchange processes can be made as even as possible during polymerization of caprolactam (CL) in an emulsion [6,7]. Information on the use of synthesis principles in emulsions for producing polymers via polymerization of cyclic monomers has been reported in the literature [6,7].…”

“…Heat-and mass-exchange processes can be made as even as possible during polymerization of caprolactam (CL) in an emulsion [6,7]. Information on the use of synthesis principles in emulsions for producing polymers via polymerization of cyclic monomers has been reported in the literature [6,7].Emulsion polymerization by a single-step method at 210°C using H 2 O and AG salt as activators could produce in 24-42 h polycaproamide with polymerization degree (P) 160-170 and content of low-molecular-weight compounds (LMC) 11-13%, i.e., with characteristics far from the equilibrium values [7]. Also, a polymer with parameters allowing subsequent polycondensation in an emulsion, i.e., with P = 90 and LMC content 12%, could be produced in 12 h with an initial activator (H 2 O) content of 12%.…”

“…The reaction mixture obtained in this manner was used to perform the second step of the synthesis using emulsion polycondensation [7]. Table 2 shows that a polymer with a lower LMC content (13 mass%) was produced with a total polymerization time of 12 h although the molecular weight increased comparatively slightly.…”

Two-Step Emulsion Polymerization—Polycondensation Method for Synthesizing Polycaproamide at Low Temperature