Application
Before applying the plaster, the loam sur-
face should be moistened and primed with
lime-casein milk. The plaster is then applied
in two layers, bringing the total thickness up
to a maximum of 20 mm. In the first layer,
some cement can be added for faster cur-
ing. The second layer should be applied
while the first is still slightly moist. When
shrinkage cracks occur, these should be
moistened with a brush dipped in lime milk
and then closed by rubbing with a trowel.
It should be noted that lime plasters cure
when in contact with carbon dioxide from
the air, and this process is only possible in
the presence of sufficient moisture. There-
fore, walls should be sheltered from direct
sun and wind, or kept moist with a damp
fabric.
Internal plasters can be applied in one layer.
Gypsum plaster or gypsum-lime plaster,
with or without casein, can also be used in
internal work. Cement plasters, however,
should not be used even for internal work.
Effect on vapour diffusion
The effect of adding double-boiled linseed
oil and casein on reducing the vapour diffu-
sion of lime plasters was tested at the BRL.
The values of the vapour diffusion resistance
coefficient μ obtained are listed in table
12. 6.
Shingles, planks and other covers
Besides plasters and coatings, shingles,
planks, larger covering panels or baked brick
walls separated by an air cavity can be used
to protect loam walls. These methods are
especially useful if additional thermal insula-
tion is to be applied from the outside.
A common method is shown in 12. 7. In
Mesopotamia (Iraq), layers of glazed baked
bricks have sheltered adobe walls for thou-
sands of years. It is always advisable to
separate such covering layers from the wall
with an air cavity, so that rain that pene-
trates can drain out and does not harm the
wall.
Structural methods
Protection from rain
One method of preventing rain from com-
ing into contact with a loam wall is to pro-
vide it with a roof overhang. A sufficiently
high plinth (30 to 50 cm) can protect from
splashing rain. The joint of the wall with the
plinth has to be carefully designed so that
the rainwater can flow down unhindered
without entering the joint between wall and
plinth. In 12. 8, solution A is unacceptable.
Solutions B and C may be acceptable in
areas with little rain. Solution D is common,
whereas E and F show perfect designs for
combating this problem.
Protection against rising damp
Exterior loam walls have to be protected
from rising damp in the same way as baked
brick or stone masonry walls. A damp-proof
course, usually bituminous felt, and some-
times plastic or metallic sheets are used.
As these means are fairly expensive in the
developing world, a 3 to 4-cm-thick rich
cement concrete layer is often used as an
alternative. This should be impregnated
with bitumen or waste mobil oil.
Protection against flooding
In kitchens and bathrooms, the plinth should
have a waterproof skirting of tiles, slates,
rich cement plaster etc. The skirting design
should prevent water from leaking or bro-
ken pipes, which could flood floors, from
reaching the loam wall.
103 Weather protection
6
8
Lime
1 – 1 1 1 1
- 5
Trass-
lime
- 1 – – – – –
Sand
3
3
6
15
3
3
10
Fat-free
cheese
0.5
0.5
0.25
Linseed
oil
0.05
0.05
Clayey
loam
- – – 3 – – 2
Cow-
dung
- – – – – – 6
μ-value
- 2
10.8
6.2
9.7
15.2
28.5
8.0