177

Volume 45 Number 3 September 2012

Research Report

Physical characteristic of brown algae (Phaeophyta) from madura 
strait as irreversible hydrocolloid impression material 

Prihartini Widiyanti1,2 and Siswanto3
1Biomedical Engineering Study Program, Department of Physics, Faculty of Science and Technology, Universitas Airlangga
2Institute of Tropical Disease, Universitas Airlangga
3Physics Study Program, Department of Physics, Faculty of Science and Technology, Universitas Airlangga
Surabaya-Indonesia

abstract

Background: Brown algae is a raw material for producing natrium alginates. One type of brown algae is Sargassum sp, a 
member of Phaeophyta division. Sargassum sp could be found in Madura strait Indonesia. Natrium alginate can be extracted from 
Sargassum sp. The demand of alginate in Indonesia is mainly fulfilled from abroad, meanwhile Sargassum sp is abundantly available. 
Purpose: The purpose of study were to explore the potency of brown alga Sargassum sp from Madura strait as hydrocolloid impression 
material and to examine its physical characteristic. Methods: The methods of research including extraction natrium alginate from 
Sargassum sp, synthesis of dental impression material and the test of porosity, density, viscosity, and water content of impression 
material which fulfilled the standard of material used in clinical application in dentistry. results: Extraction result of Sargassum sp 
was natrium alginate powder with cream colour, odorless, and water soluble. The water content of natrium alginate was 21.64% and 
the viscosity was 0.7 cPs. The best porosity result in the sample with the addition of trinatrium phosphate 4% was 3.61%. Density 
value of impression material was 3 gr/cm3. Conclusion: The research suggested that brown algae Sargassum sp from Madura strait 
is potential as hydrocolloid impression material, due to its physical properties which close to dental impression material, but still need 
further research to optimize the physical characteristic. 

Key words: Brown algae, Madura strait, irreversible hydrocolloid, physical characteristic

abstrak

latar belakang: Alga coklat adalah sumber bahan baku material natrium alginat. Salah satu jenis alga coklat adalah Sargassum 
sp yang merupakan anggota divisi Phaeophyta. Sargassum sp dapat ditemukan di Selat Madura Indonesia. Natrium alginat dapat 
diekstraksi dari Sargassum sp. Kebutuhan akan bahan ini di Indonesia sebagian besar dipenuhi dari impor, padahal ketersediaan 
Sargassum sp di Indonesia sangat melimpah. tujuan: Penelitian ini bertujuan untuk mengeksplorasi potensi alga coklat Sargassum 
sp dari Selat Madura sebagai bahan cetak hidrokoloid dan meneliti karakteristik fisiknya. Metode: Tahap pertama adalah ekstraksi 
natrium alginat dari Sargassum sp, tahap kedua yaitu sintesis bahan cetak gigi dan menguji karakteristik bahan seperti porositas, 
densitas, viskositas, kadar air, bahan cetak yang memenuhi standar bahan yang digunakan dalam aplikasi klinis bidang Kedokteran 
Gigi. hasil: Hasil ekstraksi berupa natrium alginat bubuk dengan warna krem, tidak berbau, dan dapat larut dalam air. Kadar air 
natrium alginat sebesar 21,64% dengan viskositas 0,7 cPs. Porositas terbaik dalam sampel dengan penambahan trinatrium fosfat 4% 
yaitu 3,61%. Nilai densitas bahan cetak 3 gr/cm3. Kesimpulan: Penelitian ini menunjukkan bahwa alga coklat Sargassum sp dari 
Selat Madura memiliki potensi sebagai bahan cetak hydrocolloid kedokteran gigi karena memiliki karakter fisik yang mirip dengan 
bahan cetak kedokteran gigi, namun masih memerlukan penelitian lebih lanjut untuk mengoptimalkan karakter fisiknya.

Kata kunci: Brown algae, selat Madura, hidrokoloid ireversibel, karakteristik fisik

Correspondence: Prihartini Widiyanti, c/o: Departemen Fisika, Fakultas Sains dan Teknologi Universitas Airlangga, Jl. Mulyorejo 
Surabaya, Indonesia. E-mail: drwidiyanti@yahoo.com



178 Dent. J. (Maj. Ked. Gigi), Volume 45 Number 3 September 2012: 177–180

introduction 

Sargassum sp., the main substance of natrium alginate 
as the material of irreversible hydrocolloid impression 
material in dentistry, could grow in the calm or wavy and 
craggy seas. Sargassum sp has cylindrical thallus shape or 
flattened, with lots of branching resembles land trees. The 
main stems are rounded, harsh, with discoid shape. The 
leaves are wide, tapering like a sword, and has solitaire air 
bubble. The edge of leaves is a bit serrated and wavy with 
curved or tapered tip. Its color is brown, relatively large-
sized, grow and flourish on strong base substrate. The upper 
part resembles bilateral symmetrical shaped shrub or radial 
and equipped with growing part.1 Brown algae, Sargassum 
sp grow in the shallow sea territorial. It can be found in 
many places around Madura strait Indonesia and can be 
easily taken from the sea But the availability in the beach 
is not so abundant. Sargassum sp has not been cultivated 
yet because the people living around the beach still did not 
a ware the benefit of these algae. 

One of dental impression materials is alginate. Alginate 
has become the material of choice due to the accuracy of line 
and shape reproduction, comfortable for patient, and its easy 
mixing and modification.2 Alginate impression material 
is the irreversible hydrocolloid material. So if alginate is 
mixed with other substance and the chemistry reaction 
occurred, the alginate cannot turn back to its original form. 
The main component of hydrocolloid impression material 
is natrium alginate. If natrium alginate is mixed with water, 
it would become solution and as booster could be added 
calsium sulphate. Diatom earth and silica gel was added as 
filler to increase the strength, hardness, to influence setting 
time and physical properties of alginate gel. Accelerator and 
retarder material was needed to arrange the setting time. 
Kalium sulphate is act as accelerator. Natrium or trinatrium 
phosphate is act as retarder.3 Polyethylene glicol is added to 
coat impression material powder so that the powder cannot 
easily steam like dust. 

Research about the influenced of retarder which were 
trinatrium phosphate and kalium oxalat to the alginate 
impression material was performed in 2008.2 Impression 
material with addition of trinatrium phosphate 0.3 
gram yielded flatter surface, homogen, and the highest 
decomposition temperature which was 55° C. Up to now 
the availability of alginate is supported by importing the 
material from abroad. Since the brown algae are contain 
alginate and it can be found easily and abundantly in 
Indonesian Seas, Sargassum sp has an economical value. 
Sargassum sp has potency to produce natrium alginate 
which has been known as raw material for alginate 
dental impression. Some research has been done but the 
result has not been used and produced directly as dental 
impression material. This research aims were to explore 
the potency of brown algae Sargassum sp from Madura 
strait as hydrocolloid impression material and to examine 
its physical characteristic.

materials and methods

Material of this research were brown algae Sargassum 
sp. from Madura strait, aquades, water, 5% HCl, 4% 
Na2CO3, 12% NaOCl, 10% NaOH, isopropanol, calsium 
sulphate, silica gel, calium sulphat, PEG, diatom earth, and 
trinatrium phosphate. The research process was divided 
into 2 parts. The first part was the extraction of natrium 
alginate and second part was the synthesis of irreversible 
hydrocolloid.4,5 

Dry brown algae Sargassum sp. was immersed in 1% 
HCl for 1 hour. After immersion in acid solution brown 
algae was washed and 4% Na2CO3 was added. The mixture 
was heated in the temperature of 60° C for 2 hours. Brown 
algae then was diluted with aquades, left for approximately 
30 minutes, and filtered. The result then was bleached and 
stirred with 12% NaOCl solution. Five percent of HCl 
then was added until pH value reached 2-3 (acid). After 
foam wadding of alginate acid was gained by filtering 
the mixture, the foam wadding was washed with water 
to eliminate dangerous acid sludge and the 10% NaOH 
was added until pH 9 reached. Alginate acid converted to 
natrium alginate then added isopropanol (99%) with the 
ratio 1: 2 (IPA: acid alginate). Separated natrium alginate 
then was filtered and dried. The extraction result was 
natrium alginate powder which ready to be composed as 
impression material. 

The irreversible hydrocolloid impression material 
making was done by mixing all the composition material 
using mortar and pestle. The composition material consist of 
19% natrium alginate, 40% calsium sulphate, 15% calium 
sulphate, 4% diatom earth, 15% silica gel, and 7% PEG. 
There were 5 variations of trinatrium phosphate percentage 
of impression material sample which were 0% (sample A), 
1% (sample B), 2% (sample C), 3% (sample D), and 4% 
(sample E). 

Physical characteristics was determined by examined 
the water content, viscosity, porosity and density of 
materials.4,5 Water content examination was done by 
measuring the initial weight, drying material in oven 
(Thermogravimetri) in high temperature (100–300° C) for 
3 minutes to 3 hours or until it reaches constant weight, 
and the final weight. The difference between the weight 
before and after the drying process was the amount of water 
vapor. Viscosity measurement was done using kinematic 
viscometer bath by entering fluid sample, installing the 
rotor, and then switching on the machine. The viscosity of 
substance could be read in the scale. 

The porosity test examined dry weight. The material 
inserted into water and examined the mass. The porosity 
value could be known by comparing the dry weight material 
and the wet material mass. The procedure was done by 
mixing 0.3 gram of material with 150 µL water, after setting, 
measured the dry weight sample. The material was dipped 
into 6 ml water, and measured the wet sample weight. The 
dry and wet weight difference was calculated. 

Density test was calculated using Archimedes method. 
The first step was sample weight measurement using 



179Widiyanti: Physical characteristic of brown algae

analytical scales with accuracy 0.001 gram to determine 
sample mass W, then measured the weight sample in 
water media Wa (whole sample was drowned). Density 
test was done to characterize sample and gain the density 
of sample. It is defined as total mass in one unit volume. 
The denomination was in unit gram per centimeter cubic 
(g/cm3). The mass in gram was the mass in 1 cm3 water in 
specific temperature. 

results 

Extraction result was natrium alginate powder with 
cream colour, odorless, dissolved in water (Figure 1). Was 
the porosity of commercial dental material impression is 
1.82%. The porosity of dental impression with addition of 
0%, 1%, 2%, 3%, 4% trinatrium fosfat were 6.48%; 6.42%, 
6.37%, 6.62% and 3.61% respectively. Density value of 
impression material were with addition of 0%, 1%, 2%, 
3%, 4% trinatrium fosfat were subsequently 3.27, 3.35, 
3.33, 3.26, 3.39 gr/cm3. The data of porosity and density is 
shown in Figure 2. The water content of natrium alginate 
was 21.64% and the viscosity was 0.7 cPs. 

discussion

Extraction of natrium alginate from Sargassum sp refers 
to modified extraction method.4,5 Freeze drying method 
was used for drying process. Natrium alginate powder was 
cream in color, odorless and dissolved in water. This result 
fulfilled the Farmakope requirement 1974.6 

Maximum water content of natrium alginate which had 
required by Food Chemical Codex7 is 15%. The content 
of natrium alginate in food is at least 13%8. According 
to the research,9 water content in natrium alginate was in 
the range between 5% to 20%. Water content of natrium 
alginate of Sargassum sp was 21.64%. It closed to the range 
of allowed water content of natrium alginate. There was no 
significant difference in this data (1.64%). This is because 

Sargassum sp has hygroscopic properties which need long 
time in drying process. Drying process which was used in 
this research was Thermogravimetri method (high heating). 
This method has some weakness. The first was water the 
other substance and could evaporated and gone with water 
vapor. Beside that, the reaction could be happened during 
the heating. Material contain substance which capable to 
bind water strongly will difficult to release water even it 
had been heated. Material which has been dried could be 
more hygroscopic than the origin material. That is why 
during cooling process before weighing, material should 
be placed in closed container like exycator or decycator 
with water absorbant.10

Viscosity value is a measurement of the resistance of 
a fluid which is being deformed by either shear stress or 
tensile stress. The lower viscosity, the higher elasticity and 
the lower permanent deformity of impression material.11 
Viscosity value of natrium alginate of Sargassum sp and 
control was 7000 cPs and 5000 cPs respectively. Viscosity 
of natrium alginate from Sargassum sp higher than the 
control group, it showed that the sample's elasticity was 
lower than control. Viscocity of natrium alginat standard 
value are varied in the range of 10 to 5.000 cps (solution 

porosity
density

1,82

6,75 6,48

3,27

6,42

3,35

6,37 6,62

3,33 3,26 3,61 3,39

0

Control A (0% 
trisodium 
phosphat)

B (1% 
trisodium 
phosphat)

C (2% 
trisodium 
phosphat)

D (3% 
trisodium 
phosphat)

E (4% 
trisodium 
phosphat)

gr
/c

m
3

0
1

2

3

4

5

6

7

figure 2. The porosity and density of impression material with natrium alginate from Sargassum sp.

figure 1. Natrium alginate powder of Sargassum sp.



180 Dent. J. (Maj. Ked. Gigi), Volume 45 Number 3 September 2012: 177–180

concentration 1%).9 Beside that, there are 3 type of 
viscocity standard commercial (SIGMA 2008) which are 
14.000 cps (high viscosity), 3.500 cps (medium viscosity) 
and 250 cps (low viscosity). It has been suggested that the 
viscosity property of all alginates is affected by method 
of extraction.12 Prolong extraction period with higher Na2 
C03 concentration also causes degradation of alginates. 
Sargassum habitat is rocky areas and is affected by direct 
waves, so the concentration of polygalacturonate is 
higher than alginofit which live in different habitat and 
has weak holdfast. The viscosity was also determined by 
the presence of cations such as Ca2+ and the residue of 
galacturonate.13 The difference of viscosity value may cause 
of the different of sample viability and quality. Compare 
with the commercial viscosity standard of SIGMA, the 
viscosity result in this research was in the range of "medium 
viscosity" and "high viscosity". It showed that Sargassum 
sp has high potential as raw material of natrium alginate 
processing in Indonesia.

The density value of sample was much lower than the 
density value of control which was 6.75 gr/cm3. It might 
be caused by the procedures of milling and the quality of 
brown algae. The quality of brown algae is depend on the 
salinity of sea water, humidity etc. It revealed that we still 
need more advanced research of natrium alginate from 
Sargassum sp Density was supporting the porosity value. 

The high density, the minimum amount of extractable 
fraction, and the good mechanical properties of cross-linked 
alginate were found to be responsible for the elasticity of 
water-swollen hydro gel hybrid.14 The density standard of 
natrium alginate were 2.54 g/cm3 (anhydrous), 2.25 g/cm3 
(monohydrate), 1.51 g/cm3 (heptahydrate) and 1.46 g/cm3 
(decahydrate).15 The porosity value of natrium alginate 
commercial product was 1.82%. The porosity value of 
sample without addition of trinatrium phosphate was 6,48%, 
and with the addition of trinatrium phosphate were 1%, 2%, 
3%, 4% were 6.42%, 6.37%, 6.62%, 3.61% respectively. 
Compared with commercial product, impression material 
with natrium alginate from Sargassum sp had higher 
porosity value, which was not caused by the retarder 
(trinatrium phosphate). Addition of 4% trinatrum phosphate 
in impression material will decrease the porosity value. In 
porosity test, the weight of impression material and the 
volume of water were constant so the porosity value was 
not influenced by both factors. Porosity value is drived 
by the size of particle. The mixing process of impression 

material which used mortar and pestle (manual) could be 
considered as one of the reasons. This manual method 
provided different pressure to the particle of sample.16 
The research suggested that brown algae Sargassum sp 
from Madura strait is potential as hydrocolloid impression 
material, due to its physical properties which close to 
dental impression material, but still need further research 
to optimize the physical characteristic. 

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