SYNTHESIS OF THERMAL STABILIZER POLYVINYL CHLORIDE FROM BEEF TALLOW
Polyvinyl Chloride (PVC) is known as one of the most versatile and extensively utilized type of thermoplastic polymers. The growing consumption of PVC demands a higher requirement for thermal stabilizers, which are chemicals used to prevent thermal degradation. Current study is focused on the dev...
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| Format: | Theses |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/83291 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Polyvinyl Chloride (PVC) is known as one of the most versatile and extensively
utilized type of thermoplastic polymers. The growing consumption of PVC demands
a higher requirement for thermal stabilizers, which are chemicals used to prevent
thermal degradation. Current study is focused on the development of more efficient
and eco-friendly thermal stabilizers made from Ca/Zn metal mixtures, with the aim
of preventing enviromental harm. The exploration of using industrial waste as a
source material for PVC thermal stabilizers has not been extensively addressed in
research. One potential waste that can be utilized is the fleshing waste generated
by the leather tanning industry. Fleshing waste is considered unprofitable due to
its unpleasant smell resulting from the process of decay it undergoes during
storage. This study investigates the production of a thermal stabilizer, known as
Stab Ca/Zn-LSPK, by synthesizing a mixture of calcium and zinc metals using
tannery waste tallow. The study consisted of three phases: extraction of LSPK,
synthesis and evaluation of Stab Ca/Zn-LSPK stabilizing effect in comparison to
commercial stabilizers.
The Stab Ca/Zn-LSPK produced consists of 5,18% calcium and 8,65% zinc, with
organic components comprising 89,9% and 86,8% respectively. The stabilization
impact of Stab Ca/Zn-LSPK was evaluated using dehydrochlorination and two roll
mill tests. Stab Ca/Zn-LSPK demonstrated enhanced thermal stability of PVC, as
evidenced by the dehyrochlorination and two roll mill test results. When a dose of
3 phr and a ratio of 2:1 were used, Stab Ca/Zn-LSPK exhibited induction and
stability times of 16,4 and 24,4 minutes, respectively. On the other hand, Stab
Ca/Zn-Stearate showed induction and stability times of 16 and 27 minutes under
the same dose and ratio. Furthermore, in order to expand the scope of investigation,
the flowability of PVC was examined in relation to the impact of Stab Ca/Zn-LSPK.
The stabilizing impact and ability to flow of Stab Ca/Zn-LSPK were similar to Stab
Ca/Zn-Stearate. This study provides evidence that fleshing waste can be effectively
utilized in the manufacturing of Ca/Zn stabilizers for PVC. In addition, this
research aligns with the Sustainable Development Goals related to waste
minimization, optimal resource utilization, and the advancement of materials with
enhanced resistance to thermal degradation. |
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