170

Various polymerization temperature on dimensional accuracy of 
orthodontic acrylic base plate

Elly rusdiana
Department of Orthodontic
Faculty of Dentistry Airlangga University
Surabaya - Indonesia

abstract 
Cold	curing	acrylic	is	more	porous,	having	more	residual	monomer	and	dimensional	change.	Physical	property	of	cold	curing	

acrylic	shows	to	have	very	small	dimensional	change	resulted	from	imperfect	polymerization	process	and	if	dimensional	change	occurs,	
it	would	cause	improper	use	of	orthodontic	appliance.	Orthodontic	acrylic	base	plate	which	is	made	of	cold	curing	acrylic,	in	order	to	
achieve	good	result,	it	is	suggested	to	use	hydro	flask	or	polyclav	with	water	temperature	45°–50°C	and	polyclav	and	pressure	in	2–3	
atm	during	polymerization	process.	Even	though	cold	curing	acrylic	could	polymerization	at	room	temperature,	the	purpose	to	use	hydro	
flask	or	polyclav	is	to	reduce	residual	monomer	and	porosity.	The	purpose	of	the	present	study	is	to	know	the	difference	in	dimensional	
accuracy	of	orthodontic	acrylic	at	various	polymerization	temperature.	The	samples	of	the	study	were	18	acrylic	base	plate	sized	65	×	
10	×	25	mm	classified	into	3	control	groups	with	polymerization	temperature	at	30°	C,	40°	C	and	50°	C.	Measurement	was	done	using	
caliper	in	order	to	know	dimensional	accuracy	of	orthodontic	acrylic.	The	measurement	result	was	tabulated	and	One-Way	ANOVA	
test	one	was	done	with	significant	level	95%,	the	probability	result	0,0055	was	found	which	means	there	was	significant	difference	
among	each	control	group.	LSD	test	showed	that	group	I	polymerization	at	30° C,	group	II	polymerization	at	40°	C,	and	group	III	
polymerization	at	50°C	there	was	significant	difference.	The	conclusion	of	this	study	is	:	dimensional	difference	of	orthodontic	acrylic	
base	plate	on	polymerization	at	group	I	at	30°	C,	group	II	at	40°	C,	and	group	III	at	50°	C	water	temperature	and	could	achieve	better	
dimensional	accuracy	comparing	with	polymerization	at	50°	C.

Key words:	cold	curing	acrylic,	dimension,	polymerization

Correspondence: elly Rusdiana, c/o: Bagian Ortodonsia, Fakultas Kedokteran Gigi Universitas Airlangga. Jln. Mayjend. Prof. Dr. 
Moestopo no. 47 Surabaya 60132, Indonesia.

introduction 

Removable orthodontic appliance consists of several 
components i.e. active, retention, anchoring and plate 
acrylic. In line with the advancement and development of 
dentistry technology, at first heat curing acrylic was applied 
in the making of removable orthodontic appliance, but at 
present cold curing acrylic is applied. If heat curing acrylic 
is used, it is true that it would produce solid plate acrylic, 
harder, nonporous, more stable color, but, the process is 
more complicated because wax model should be firstly 
made and the process of acrylic filling would take time.1 
The use of cold curing acrylic is more advantageous because 
this material is more time saving, cheaper, easier working 
method, the possibility of distortion due to retention or 
springs could be eliminated as minimally as possible or 
it could be prevented. This material would also make the 
process easier if reparation or change should be done in 
removable orthodontic appliance1. The main disadvantage 
of cold curing acrylic is that: unstable color, and more 
porousity.2 Acrylic base plate of removable orthodontic 
appliance is an attachment place of active and passive 
components. The functions of acrylic base plate are to 
sustain other components, to continue the strength of 

active component anchoring denture movement, to prevent 
undesired denture shift, to protect springs on the palate and 
also to be widened to make bite plane either anteriorly or 
posteriorly. Acrylic base plate is made too thick, but strong 
enough so it will not disturb lingual, swallowing function 
and also well attached on the palate or lingual teeth.3

Polymerization is repeated intermolecular reaction 
between polymer and monomer functionally unlimitedly.2,4 
For dentistry material polymerization is usually through 
chemical addition reaction. Polymerization process of 
cold curing acrylic would run in three stages i.e. initiation, 
propagation (change spreader) and termination. The free 
radical contains very reactive free electron and capable to 
break monomer multiple binding, so, the monomer would 
become free radical by itself. Propagation (change spreader) 
would occur because the monomer which is activated has 
reaction with other monomers, the process would continue 
until it would reach termination stage. So, in this stage, 
lengthening change has occurred because the monomer 
which has been activated is interrelated. 

Change of termination (stage of ended change ) appears 
because of reaction between two change of free radical 
which is in growing process, therefore, stable molecule is 
formed.2 Imperfect polymerization of cold curing acrylic 



171Rusdiana: Various polymerization temperature on dimensional accuracy

shows the presence of higher residual monomer which 
resulting irritation in oral tissue and more porosity which 
could decrease transversal strength.4 Physical property of 
cold curing acrylic shows very small dimensional change 
resulting from imperfect polymerization process. To obtain 
nonporous acrylic base plate, in order to achieve tooth 
strength, good aesthetic, hygienic, low residual monomer 
so it would not irritate oral tissue.5 Houston and Isaacson3 
suggested that polymerization of acrylic base plate 
done in hydro flask or polyclav containing warm water  
45–50° C with the pressure 2–3 atm and the purpose is to 
reduce residual monomer and porosity.

American Dental Association6 also suggested that to 
achieve good result by increasing the temperature and 
giving pressure during polymerization process. Because 
polymerization of cold curing acrylic was quick process, 
as a result dimensional change would happen.7,8 Cold 
curing acrylic dimensional change would cause removable 
orthodontic appliance is not properly used. 

The purpose of this study is to know the difference in 
dimensional accuracy of orthodontic acrylic plate at various 
polymerization temperature.

material and method

The present study was done in experimental laboratory 
study and the materials were: cold curing acrylic resin, hard 
gypsum and devices were: model master die with diameter 
65 × 10 × 2,5 mm metal cuvet, digital balance, polyclav, 
water thermometer, caliper, bowl, spatula, vibrator, glass 
plate. 

The process of sample making: firstly mould was made 
using 100 gram hard gypsum mixed 35 ml water (according 
to factory procedure) was stirred in bowl using spatula, then 
put in the cuvet and place on the vibrator. Model master die, 
was put in the middle of the cuvet, the gypsum was flatten 
using glass plate, finally the gypsum was left hardening. 
After hardening the model was taken, the mould was soaked 
in the water for ten minutes, when it was almost dry it was 
polished by separator material, until it was dry. Filling 
of acrylic resin into the mould with comparison polymer  
3.5 gr and monomer 1.5 ml (according factory procedure) 
using layering i.e. monomer which was dropped on the 
mould, then, polymer was spread and monomer dropped 
again until polymer was absorb and the desired thickness 
was achieved. Cuvet with acrylic resin was put into polyclav 
at 30° C, 40° C, 50° C, water temperature in 2 atmosphere 

for 10 minutes and next, sample was removed from the 
cuvet. 

The test of dimensional accuracy of acrylic base 
plate was done by measuring and using caliper on mould 
before acrylic filling, the different measurement was done 
on acrylic base plate which was already formed, data 
analysis using One-Way ANOVA test in order to know 
the significant difference among every group, LSD test 
was done.

result 

The result of the study on accurate dimension of acrylic 
base plate at various polymerization temperature as shown 
on table 1. Table 1 show that highest dimensional change 
occurred in group III (50° C water temperature), while 
the lowest dimensional change in group II (40° C water 
temperature).

To know the presence of difference in variant 
polymerization temperature on the accuracy of orthodontic 
acrylic base plate dimension, the above data analyzed using 
One-Way ANOVA test variant analysis with significance 
level 95% was found probability < 0.05. It could be 
concluded that there is significant difference in accuracy of 
orthodontic acrylic base plate in every group. To be able to 
know significant difference among controlled groups, LSD 
test was done and it is shown on table 2.

On the above table we could see the dimensional 
accuracy of orthodontic acrylic base plate in group I and 
group II no significant difference was found, between group 
I and III significant difference was found and between group 
II and III significant difference was also found.

discussion 

To achieve the success of orthodontic removable 
appliance, some requirements which are needed are 

table 1.  The mean difference of orthodontic acrylic base plate dimension with the working model of every group 
(mm)

Group Number of sample Mean Deviation  standard

I.      30° C water temperature
II.     40° C water temperature
III.    50° C water temperature

6
6
6

0.0333
0.0200
0.0750

0.0258
0.0237
0.0274

table 2.  LSD test among every group 

Group I II III

I
II
III

–
–
–

–
–
–

+
+
–

Note: – : No significant difference; + : Significant difference



172 Dent. J. (Maj. Ked. Gigi), Vol. 40. No. 4 October-December 2007: 170-172

appropriate acrylic base plate, nonporous, good aesthetic, 
hygienic, low residual content, preventing unmovable 
dental. The making of acrylic resin of removable appliance 
using cold curing acrylic with finer particles comparing 
with cold acrylic in Orthodontia. Various cold curing 
acrylics have the same size of particles. While particle of 
polymer used in removable orthodontic appliance is 75 mm. 
The smaller the size of a particle the quicker the monomer 
infiltrates. The properties of cold curing acrylic are in higher 
porosity. even though it is not easily seen in pigmented 
resin, it is because the air is dissolved monomer fluid which 
is not absorbed in polymer powder at room temperature, 
having satisfying color which is matched with the color of 
oral Mucosa (pink in color), determined by transitional glass 
(Tg). Temperature glass transitional of cold curing is 90° C, 
so the possibility of distortion of hot water would occur, the 
glass temperature affects the average of molecular weight 
of a polymer. In general the average of molecular weight is 
lower and contains more than 80% of heat curing material, 
it is probably correlated with lower molecular weight. The 
rheology property of heat curing acrylic is better comparing 
with cold curing, because cold curing material shows higher 
distortion in implementation.2 The result of this study 
shows that acrylic resin in which the polymerization at  
30° C water temperature and 40° C producing better 
accurate dimension comparing with polymerization at 50° C 
water temperature. It is possibly because physical property 
of cold curing acrylic shows every little dimensional change 
caused by less perfect polymerization process.4

On this study 30° C was used with consideration that 
room temperature was about 30° C, while 40° C was 
matched with polyclav which was used on this study. 50° 

C was according to statement given by ADA6 suggested to 
increase temperature during polymerization process. 

In group I: polymerization at 30° C, there is not 
significant difference with polymerization at 40° C in 
groups II. It is possible that cold curing acrylic could 
polymerize at room temperature due to the presence of 

chemical activator,7 i.e. amino group which is added in 
monomer fluid to activate benzoil peroxide to form free 
radical, so polymerization could run at room temperature in 
which amino tertier: dimetil-p-toludin (DMPT)7 is usually 
used, therefore, 30° C water temperature and 40° C is not too 
different with room temperature so there is no significant 
change found in dimensional acrylic change. 

In group II polymerization at 40° C water temperature 
comparing with III polymerization at 50° C water 
temperature, there is significant difference. It is possibly 
because the temperature is too high comparing to room 
temperature, so polymerization process would quickly 
occur. The result of quick polymerization process, 
dimensional change would occur.7,8 The conclusion is the 
accuracy of orthodontic acrylic base plate dimension in 
polymerization at 30° C and 40° C air temperature could 
produce better dimensional accuracy comparing with 
polymerization at 50° C room temperature. 

references

1. Adams CP. The design and construction and use removable 
orthodontic appliance. 6th ed. London: Butter Worth Haineman Ltd; 
1990. p. 209–11.

2. Combe eC. Notes on dental materials. 6th ed. New York: Churchill 
Livingstone; 1992. p. 79–120.

3. Houston WJB, Isaacson KG. Orthodontic treatment with removable 
appliances. 2nd ed. Bristol: John Wright & Sons Ltd; 1992  
p. 132–8.

4. Anusavice KJ. Phillip’s science of dental materials. 11th ed. Saint 
Louis: WB Saunders Company; 2003. p. 207–10.

5. Nuraini I. Sitotoksisitas resin akrilik rapid heat polymerized terhadap 
kultur sel BHK. Majalah Kedokteran Gigi (Dental Journal) 2004; 
37(1):15–18.

6. American Dental Association. Guide to dental material devices.  
7th ed. Chicago: American Dental Association 1974; p. 97–102.

7. Anderson JN. Applied dental materials. 5th ed. Oxford: Blackwell 
Scientific Publications; 1976. 284–95. 

8. Craig RG, Obrien WJ, Powers JM. Dental material properties 
and manipulation. 7th ed. St Louis, Missouri: Mosby Inc; 2000.  
p. 79–120.