Thermal stabilisation of poly(vinyl chloride) by organotin compounds

The effect of LSN 117 (dioctyl tin bis isooctyl thioglycollate, an organotin compound) on the heat stability of plasticised PVC was investigated in this study. The organotin stabiliser had carbonyl and carboxylate groups and PVC contained traces of Fe, Zn, Ca, Cu and Sn. The heat stability of the fi...

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Published inPolymer degradation and stability Vol. 88; no. 1; pp. 46 - 51
Main Authors ARKIS, E, BALKÖSE, D
Format Journal Article Conference Proceeding
LanguageEnglish
Published Oxford Elsevier Ltd 01.04.2005
Elsevier Science
Subjects
Applied sciences
Compounding ingredients
Dehydrochlorination
Dioctyl phthalate
Exact sciences and technology
Organotin
Polymer industry, paints, wood
PVC heat stabilizer
Stabilizers (antioxydants, antiozonants, etc.)
Technology of polymers
Dioctyl phthalate
Dehydrochlorination
PVC heat stabilizer
Organotin
Performance evaluation
Sulfur Organic compounds
Heat stabilizer
Thermooxidative degradation
Thermal stabilization
Experimental study
Thermal stability
Thermal properties
Additive
Kinetics
Polyvinyl chloride
Tin Organic compounds
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Abstract The effect of LSN 117 (dioctyl tin bis isooctyl thioglycollate, an organotin compound) on the heat stability of plasticised PVC was investigated in this study. The organotin stabiliser had carbonyl and carboxylate groups and PVC contained traces of Fe, Zn, Ca, Cu and Sn. The heat stability of the films were tested at 140 °C and 160 °C or 180 °C by heating in an air circulation oven up to 2 h and by measuring HCl evolved using a Metrohm 763 PVC thermomat and by thermogravimetric analysis. The onset of HCl evolution was at 14.3 and 2.5 h at 140 °C and 160 °C, respectively, for PVC film without LSN117. On the other hand, the film with LSN117 did not evolve HCl in 30.3 h at 140 °C. HCl started to evolve from the films with LSN 117 in 14.3 h at 160 °C. The TGA curve also indicated PVC film with LSN 117 degraded at higher temperatures than control films. LSN 117 was found to be a good heat stabiliser for plasticised PVC and it did not have any detrimental effect on mechanical properties.
AbstractList The effect of LSN 117 (dioctyl tin bis isooctyl thioglycollate, an organotin compound) on the heat stability of plasticised PVC was investigated in this study. The organotin stabiliser had carbonyl and carboxylate groups and PVC contained traces of Fe, Zn, Ca, Cu and Sn. The heat stability of the films were tested at 140 °C and 160 °C or 180 °C by heating in an air circulation oven up to 2 h and by measuring HCl evolved using a Metrohm 763 PVC thermomat and by thermogravimetric analysis. The onset of HCl evolution was at 14.3 and 2.5 h at 140 °C and 160 °C, respectively, for PVC film without LSN117. On the other hand, the film with LSN117 did not evolve HCl in 30.3 h at 140 °C. HCl started to evolve from the films with LSN 117 in 14.3 h at 160 °C. The TGA curve also indicated PVC film with LSN 117 degraded at higher temperatures than control films. LSN 117 was found to be a good heat stabiliser for plasticised PVC and it did not have any detrimental effect on mechanical properties.
The effect of LSN 117 (dioctyl tin bis isooctyl thioglycollate, an organotin compound) on the heat stability of plasticised PVC was investigated in this study. The organotin stabiliser had carbonyl and carboxylate groups and PVC contained traces of Fe, Zn, Ca, Cu and Sn. The heat stability of the films were tested at 140 deg C and 160 deg C or 180 deg C by heating in an air circulation oven up to 2 h and by measuring HCl evolved using a Metrohm 763 PVC thermomat and by thermogravimetric analysis. The onset of HCl evolution was at 14.3 and 2.5 h at 140 deg C and 160 deg C, respectively, for PVC film without LSN117. On the other hand, the film with LSN117 did not evolve HCl in 30.3 h at 140 deg C. HCl started to evolve from the films with LSN 117 in 14.3 h at 160 deg C. The TGA curve also indicated PVC film with LSN 117 degraded at higher temperatures than control films. LSN 117 was found to be a good heat stabiliser for plasticised PVC and it did not have any detrimental effect on mechanical properties.
Author Arkış, E.
Balköse, D.
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Issue 1
Keywords Dioctyl phthalate
Dehydrochlorination
PVC heat stabilizer
Organotin
Performance evaluation
Sulfur Organic compounds
Heat stabilizer
Thermooxidative degradation
Thermal stabilization
Experimental study
Thermal stability
Thermal properties
Additive
Kinetics
Polyvinyl chloride
Tin Organic compounds
Language English
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Snippet The effect of LSN 117 (dioctyl tin bis isooctyl thioglycollate, an organotin compound) on the heat stability of plasticised PVC was investigated in this study....
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SubjectTerms Applied sciences
Compounding ingredients
Dehydrochlorination
Dioctyl phthalate
Exact sciences and technology
Organotin
Polymer industry, paints, wood
PVC heat stabilizer
Stabilizers (antioxydants, antiozonants, etc.)
Technology of polymers
Title Thermal stabilisation of poly(vinyl chloride) by organotin compounds
URI https://dx.doi.org/10.1016/j.polymdegradstab.2004.02.021
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Volume 88
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