PENINGKATAN SIFAT FISIKOMEKANIK FILM ALGINAT UNTUK TUJUAN SALUT ENTERIK MELALUI PEMBENTUKAN NANOKOMPOSIT
Clay-containing polymeric nanocomposites (CPNC) is a polymer matrix added with nanoclay filler that was generally intended for coating. The aim of this incorporation was to improve the mechanical properties and also water vapor and gas permeability. Sodium alginate is a natural polymer that can d...
Saved in:
| Main Author: | |
|---|---|
| Format: | Theses |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/45869 |
| Tags: |
Add Tag
No Tags, Be the first to tag this record!
|
| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Clay-containing polymeric nanocomposites (CPNC) is a polymer matrix added
with nanoclay filler that was generally intended for coating. The aim of this
incorporation was to improve the mechanical properties and also water vapor and
gas permeability. Sodium alginate is a natural polymer that can dissolve in
alkaline condition and swells in acid solution. It can be so used as a polymer for
enteric coating. However, a film of pristine sodium alginate has a low mechanical
properties. Sodium bentonite is one of natural clay and contains about 80%
montmorillonite. The purpose of this research was to improve the mechanical
properties of sodium alginate through incorporation with nanoclay sodium
bentonite. The experiment was began by choosing the proper of swelling clay
method (stirrer, ultraturax and sonication) at concentration of 5%. The swelled
clay was than added in various concentrations of 0, 2, 3, 4 and 5% into solution of
sodium alginate 1%. These mixtures were than formed a film by film casting
method. The characteristic of films were evaluated by using the XRD, SEM, water
vapor permeability and also the mechanical properties (tear resistance, tensile
strength, percent elongation and modulus of elasticity). Nanocomposite solution
was then applied to core tablet with active substance sodium diclofenac. The
release of active substance from tablet were tested using USP Apparatus 3
(reciprocating cylinder). The clay swelled by stirrer, ultraturax and sonication
produced the viscosity of 1263,33±5,77; 1740,00±0,00 and 2883,33±5,77 cPs
respectively. The identification of nanocomposite films by XRD and SEM
showed that the nanoclay experienced the exfoliation. Coefficient of water vapor
permeability from each formula were 3,37±0,05; 2,23±0,12; 2,21±0,14;
2,12±0,00; dan 1,86±0,03 x10
3
g h
-1
cm
-1
mmHg
-1
respectively. While the
mechanical properties showed that the tear resistance of each formula were
6,86±0,00; 16,01±1,13; 16,99±2,47; 18,62±1,70 and 23,52±1,70 N respectively.
Tensile strength were 17,15±0.00; 40,02±2,83; 42,47±6,17; 46,55±4,24 and
58,80±4,24 MPa respectively. Percent elongation were 18,97±0,69; 4,97±0.00;
6,11±0,62; 5,64±0,28 and 5,30±0,29. Mean while the modulus of elasticity for
each formula were 90,48±2,90; 805,70±56,96; 694,12±58,03; 824,68±64,58, and
1108.70±20.32 MPa. Nanocomposite containing of 5% nanoclay gave tensile
strength and modulus of elasticity which was higher than the other formula and it
has a lower of water vapor permeability. This result could be suitable for enteric
coating material. Based on the enteric coating tablet evaluation, this mixture can
produced a smooth tablet without film defect and enabled to release the active
substance in intestinal fluid more than 80% (Q+5%) for 45 minutes. In
conclusion, nanocomposite at concentration 5% could be suitable as a coating
material for tablet enteric coating.
K |
|---|