Cl PA 2003 XIX ,h International Symposium, 30 September - 04 October, 2003, Antalya, Turkey
572
2. THE CAUSES OF DETERIORATION ON MORTARS
AND PLASTERS USED IN HISTORICAL BUILDINGS
It is possible to list the causes of damage in mortars and plasters
as atmospheric effects, effects of use and production conditions
and destructive effects of restoration. However it is possible to
group the most commonly observed causes of damage in two
basic groups. Table 1 shows causes of damage and their types
(Torraca, G., 1981).
A. The Destructive Effects of the Environment
Factor
Effect
Damage Type
Acidic waters (with C0 2 , S0 2 ) that
come with rain or snow water.
Dissolve the carbonates of lime binder.
Adhesion and Cohesion features of the
mortar is decreased. Aggregates are
decomposed.
The continuity of freezing/thawing
cycles.
The bonds of the mortar among the
binding aggregates are dissolved.
Leads to the dissolution of the mortar.
Exposion to extreme amount of water
vapour (in case of fire).
The critical water vapour content the
mortar can carry is exceeded.
Leads to the hanging of the mortars in folds
through decomposition.
If the sand used in mortar has clay in
content.
The swelling of clay in a moisturous
environment, leading to internal stresses.
Crumbling of the mortar is observed,
regional swellings and draping are seen.
Sea water, air pollution, use of dirty
material.
Anionic salt crystals i.e. Chlorur,
Sulphates and Nitrates are formed.
Decomposition of the mortar, deep cracks
nad draping of the mortar are observed.
Formation of plants
Especially some plant roots lead to the
dissolution of the mortar.
Biological decay, colouring of the mortar
and dissolution.
Existance of organic growth
With the formation of insects, the binding
quality of the mortar is reduced.
Microbiological decay and dissolution of
the mortar.
B. The Destructive Effects of the Repair Mortars
Factor
Effect
Damage Type
Using more cement than lime.
Formation of highly stiff mortar,
cracking.
Shrinkage cracks and diffusion of water
through cracks, drapings due to different
work.
Salts that may come from the cement.
Efflourescence on the surface of the
mortar.
The salts cause the efflourescence and lead
to internal stresses.
Adding synthetic resin, (if it is too
much).
The water and vapour permeability
regime of the original mortar is
deteriorated.
Dissolution in the form of shells on the
surface of the mortar.
Table 1. Some factors that cause damage on original mortar and plaster and damage types
3. AN EVALUATION OF MORTARS AND PLASTERS
PRODUCED FOR USING IN THE RESTORATION OF
HISTORICAL BUILDINGS
Mortars and plasters used in historical buildings provide
important helpful information about the building technology of
their historical period and they are as important as historical
documents. Therefore, the evaluation analyses of original
mortar and plaster during the restoration should be made based
on a scientific base. The work may require to include scholars
with various professions such as art historians, restorators,
physicians, chemists, biologists, engineers and architects within
the same team during the analyses process from time to time.
However, method determination practices that shall be used in
applications on the subject matter have not been standardized.
In addition it is not possible to utilize all the experiments and
the standards that check and control the quality of binding
products and raw material applied on mortar and plaster
analysis of historical buildings. The purpose of mortar and
plaster analysis of historical buildings is not to make a quality
control of the material used, but to determine the physical,
chemical and mechanical properties. Therefore, it is required to
provide the information that explains the current condition of
the material as well as the factors that have led to the formation
of the current situation of the material used in the building.
In order to be able to make the ideal repair mortar choice that
will be used in the restoration of the historical buildings, it is
necessary to know the properties of traditional mortar very well.
Consequently, this should be compared with comparative
mortars. After making such a comparison, production of a
mortar that carries the advantegous properties of traditional and
comparative mortar is possible. Since there is a lack of
academic publication on this issue in our country, different
problems in reaching the accurate and sufficient information are
encountered. This leads to the use of incompatible material
during the restoration process.
An experimental method that can be used in evaluating the
analyses of traditional mortar as well as mortar and plaster that
shall be used in restoration is suggested below. This method is
composed of 4 basic phases. Phase I; Visual Analysis and
Documentation, Phase II; Experimental Research, Phase III;
Evaluation of experiments made in Phase II in order to produce
the repair mortar, Phase IV; Decision making on the
appropriateness of the repair mortar. (Fig.l)
