In-line rheo-optical characterization of PET hydrolysis and chain extension during extrusion

Bicalho, Luciana Assumpção; Canevarolo Junior, Sebastião Vicente

doi:10.1590/0104-1428.20220066

Acessibilidade / Reportar erro

Brasil

Español English

sumário « anterior atual seguinte »

Sumário

ORIGINAL ARTICLE • Polímeros 33 (2) • 2023 • https://doi.org/10.1590/0104-1428.20220066 copy

In-line rheo-optical characterization of PET hydrolysis and chain extension during extrusion

Authorship SCIMAGO INSTITUTIONS RANKINGS

Abstract

The thermo-mechanical degradation of PET during extrusion was studied in the transient state. Active agents, water, causing hydrolysis by chain scission and pyromellitic dianhydride PMDA, causing chain extension, were added to the extrusion flow as pulses. They change the PET molecular weight, affecting its the melt flow elasticity, which was followed in-line by a rheo-optical detector set in an instrumented slit-die, measuring synchronously, pressure drop and flow birefringence ( $Δ n_{12}$ ). The effect of the extrusion shearing level, set by 90º kneading blocks with different lengths, was also quantified. The results, as of residence time distribution curves, show the degree of thermo-mechanical degradation as hydrolysis and chain extension for each pulse type and concentration. Thus, assuming collinearity and full birefringence orientation along the melt flow the first normal stress difference $N_{1}$ can be monitored in-line.

Keywords:
chain extension; hydrolysis; in-line rheo-optical characterization; polyethylene terephthalate; twin-screw extruder

Screw profile/Flow birefringence	Pulse of 10g PETw	Pulse of 6g PETw
Profile 1 (KB90, 14mm)	11.1x10^-3	14.3x10^-3
Profile 2 (KB90, 28mm)	14.1 x10^-3	14.6x10^-3
Profile 3 (only conveying)	19.6x10^-3	18.5 x10^-3

Screw profile/Flow birefringence	Pulse of (0.25g PMDA)	Pulse of (0.25g PMDA + 10g PETd)	Pulse of (0.15g PMDA + 10g PETd)
Profile 1 (KB90, 14mm)	89.5x10^-3	78.9x10^-3	58.3x10^-3
Profile 2 (KB90, 28mm)	94.0x10^-3	80.8x10^-3	75.3x10^-3
Profile 3 (only conveying)	88.9x10^-3	85.8x10^-3	57.0x10^-3

Screw profile/Flow birefringence (PETd = 33.4x10^-3)	Pulse of (0.25g PMDA + 10g PETw)		Pulse of (0.15g PMDA + 10g PETw)
Screw profile/Flow birefringence (PETd = 33.4x10^-3)	Min	Max	Min	Max
Profile 1 (KB90, 14mm)	21x10^-3	55x10^-3	21x10^-3	43x10^-3
Profile 2 (KB90, 28mm)	15x10^-3	57x10^-3	16x10^-3	45x10^-3
Profile 3 (only conveying)	17x10^-3	54x10^-3	16x10^-3	24x10^-3

PETv			Pulse components and content
IV = 0.7dl/g			10g PETd	10g PETw	0.25g PMDA	10g PETd + 0.25g PMDA	10g PETd + 0.15g PMDA
$\bar{M_{v}} = 38, 000$			10g PETd	10g PETw	0.25g PMDA	10g PETd + 0.25g PMDA	10g PETd + 0.15g PMDA
Melt processed PET properties	Δn (x10^-3)	Profile 1	33.4	11.1	89.5	78.9	58.3
		Profile 2	33.4	14.1	94.0	80.8	75.3
		Profile 3	33.4	19.6	88.9	85.8	57.0
	IV (dl/g)	Profile 1	0.579	0.482	0.645	0.632	0.595
		Profile 2	0.578	0.513	0.653	0.641	0.613
		Profile 3	0.582	0.547	0.640	0.634	0.609
	$\bar{M_{v}}$	Profile 1	28,400	21,300	33,500	32,400	29,600
		Profile 2	28,300	23,500	34,100	33,100	31,000
		Profile 3	28,500	26,000	33,100	32,600	31,000

Associação Brasileira de Polímeros Rua São Paulo, 994, Caixa postal 490, São Carlos-SP, Tel./Fax: +55 16 3374-3949 - São Carlos - SP - Brazil
E-mail: revista@abpol.org.br

Acompanhe os números deste periódico no seu leitor de RSS

[1] *e-mail: caneva@ufscar.br