49 Improving the earthners as well as the air spaces left around the
edges of the mould are eliminated. The
larger the sample, the greater the accuracy,
since there is always some edge erosion
during cutting and handling.
Due to the above-mentioned errors, unfor-
tunately, densities of as low as 300 kg/m^3
tend to be assumed and the k-value com-
puted accordingly. Since, in reality, densities
are typically about 700 kg/m^3 in built sec-
tions, the k-value of this is 0.21 W/mK, from
which, for a 30-cm-thick wall plastered on
both sides, the U-value can be derived as
0.6 W/m^2 K. This value of heat transmission
is double the value that can be claimed by
assuming a density of 300 kg/m^3.
The following points are to be kept in mind
when working with lightweight straw loam,
for lightweight straw loam has certain un-
deniable disadvantages in comparison with
pure loam:- In a moderate or humid climate, fungus
growth occurs after only a few days, emit-
ting a characteristic strong smell. This can, in
extreme cases, give rise to allergies. There-
fore, good ventilation during construction
must be provided so that building compo-
nents dry out quickly. After the walls have
dried completely, which might take several
months, or even a year or more, depending
upon thickness and climate, the fungus
stops producing spores. However, spore for-
mation may be reactivated if water perme-
ates the walls either from the outside
through leakage, or from inside through
condensation. Fungus growth can be inhib-
ited by adding lime or borax, but this has
the following disadvantages:
- binding force and compressive strength
are significantly decreased, - hands become irritated while working
with this mixture. - Walls thicker than 25 cm may appear dry
on the surface, even though they are rotting
within (see chapter 10, p. 83).
- The surface strength of the mix for a wall
with a density of less than 600 kg/m^3 is usu-
ally too low to effectively grip nails or dow-
els, as is often required. Since two layers are
necessary, plastering is more laborious,
sometimes with some reinforcement in
between.- When drying, vertical settling occurs,
leading to gaps on top of wall elements
(4.21). These must carefully be filled later on
in order to prevent heat and sound bridges
and air infiltration. - Working with this material is fairly labori-
ous. Without special machines for mixing
and transportation, the labour input for a
typical 30-cm-thick wall is about 6 h/m^2
(20 h/m^3 ). This is four times the labour
required for typical brick masonry work.
The disadvantages mentioned above can
be avoided if porous mineral aggregates are
used instead of straw, as discussed in the
following section.
The potential advantages of lightweight
straw loam are the low material costs
involved, and the fact that it can be worked
without investments in special tools and
machinery. It is especially appropriate, hence,
for do-it-yourself construction.
Lightweight mineral loam
In order to increase thermal insulation,
porous mineral aggregates can be added to
loam as an alternative to straw; these
include expanded clay, foamed glass,
expanded lava, expanded perlite and
pumice. It is possible to achieve a shrinkage
ratio of 0 (i.e., to eliminate shrinkage alto-
gether) by choosing the right proportion of
aggregates. All other techniques of earth
construction require consideration of shrink-
age.
In comparison with straw loam, the vapour
diffusion resistance is two to three times
higher and, therefore, the probability of con-
densation of water within the wall is low
(see chapter 2, p. 29).
Another advantage of the material is that
the mixture can be pumped into a form-
work, thereby greatly reducing labour input.
As investments on machines are higher,
this method is recommended only for
larger construction projects. The densities
generally achieved vary from 500 to 1,200
kg/m^3.Straw Weight Compressive strength
[%/mass] [kg/m^3 ] [N/mm^2 ]
0
1
2
4
81882
1701
1571
1247
8722.2- 4
- 3
1.1
0.3
4.20
4 .18Compressive
strengths of loams and
sand with the addition
of 6% lime
4 .19Suggested appro-
priate stabilisers for loam
in relation to their plastici-
ty (CRATerre, 1979)
4.20Reduction of the
compressive strength of
loam by adding cut straw
(5 cm)