UJI EFEKTIVITAS STABILISER TERMAL PVC BERBASIS SAWIT : DEHYDROCHLORINATION TEST
PVC (polyvinyl chloride) is a plastic polymer resin that is widely produced and used around the world. However, there is a significant issue, which occurs during the manufacturing process. Due to its poor thermal stability, PVC is easily degraded by heat. Defects in the form of tertiary chlorine...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/65986 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | PVC (polyvinyl chloride) is a plastic polymer resin that is widely produced and used
around the world. However, there is a significant issue, which occurs during the
manufacturing process. Due to its poor thermal stability, PVC is easily degraded by heat.
Defects in the form of tertiary chlorine atoms from the PVC manufacturing process are
to blame for the poor thermal stability. To address this issue of thermal stability, a thermal
stabilizer must be added to PVC resin to avoid thermal degradation. Stabilizer metal
alloys or metal soaps, especially Zn-Ca alloys, are a popular form of thermal stabilizer.
This stabilizer is used because it is both inexpensive and non-toxic. However, the
efficiency of this metal mixture is still considered ineffective because it produces a
byproduct, ZnCl2, which can speed up the rate of thermal degradation. As a result, another
additive, in the form of a co-stab, is needed to prevent degradation caused by these
byproducts. Polyols are one of the most common types of co-stab. Polyol compounds are
used as co-stabs because of the ability of the hydroxyl group to bind the ligand complex
with ZnCl2 and also react with HCl. Pentaerythritol is a polyol compound that is widely
used. There are, however, a number of other polyol compounds that have the potential to
be useful as co-stabs and are less expensive than pentaerythritol. As a result, a research
was performed out on the efficiency of the polyol co-stab type which is ideal for oil-based
mixed metal stabilizers. Based on the test, the initial time and the average stability time
from longest to fastest were sorbitol with a time of 46.520 minutes and 80.665 minutes;
mannitol with a time of 41.750 minutes and 79.080 minutes; silitol with a time of 40,500
minutes and 76,415 minutes; pentaerythritol with a time of 32.665 minutes and 57.835
minutes; sucrose with times of 20,665 minutes and 46,000 minutes; and resin without
costabiliser with a time of 17.075 minutes and 32.415 minutes. Sorbitol, mannitol, and
xylitol were shown to have better induction and decay times than pentaerythritol |
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