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Stabilisation of metallocene ethylene-1-octene copolymers during multiple extrusions
Sahar Al-Malaika
, X. Peng
Chemical Engineering & Applied Chemistry
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peer-review
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Keyphrases
Antioxidant
100%
Multiple Extrusion
100%
Metallocenes
100%
Ethylene-octene Copolymer
100%
Short Chain Branching
80%
Linear Low-density Polyethylene (LLDPE)
80%
Hindered Phenol
60%
Lactones
60%
High Efficiency
40%
Antioxidant System
40%
Extrusion
40%
Phosphite Ester
40%
Multi-pass
40%
Regeneration
20%
Carbonyl Content
20%
Structural Change
20%
Redox Reaction
20%
Operative
20%
Antioxidant Reaction
20%
Copolymer
20%
Color Formation
20%
Reaction Steps
20%
Group Content
20%
Stabilization Efficiency
20%
Formation Change
20%
Irganox 1076
20%
Irganox
20%
Rheological Behavior
20%
Phosphonites
20%
Stabilization System
20%
Melt Stabilization
20%
Chemical Engineering
Organometallics
100%
Copolymer
100%
Ethylene
100%
Linear Low Density Polyethylenes
80%
Phenol
60%
Chemistry
Lactone
37%