Building with Earth: Design and Technology of a Sustainable Architecture

(Nancy Kaufman) #1

Even after several months, small increases in
strength may be observed. A certain
amount of humidity is essential to this cur-
ing process, so the loam or earth elements
have to be sheltered against direct sun and
wind.



  1. The optimum water content is raised
    with the addition of lime, while the density
    at this new optimum level is less than that
    without lime (4 .12).
    Results of experiments performed at the
    BRL (4 .13) show that the compressive
    strength of a highly silty loam containing
    12% clay, 74% silt and 14% sand, and hav-
    ing a compressive strength of 50 kg/cm^2
    without cement, decreases with the addi-
    tion of small quantities of cement. The origi-
    nal compressive strength is reached again
    with the addition of 2% cement.
    As can be seen in 4 .14, this original strength
    is reached only at 4% when adding lime.
    In this case, it decreases again after 6% of
    lime stabilisation.
    Even more significant is the reduction of
    compressive strength while stabilising lean
    mud mortars, as shown in 4 .15on the right.
    The left side of the same figure shows the
    corresponding changes in tensile bending
    strength. The values of the dry and the wet
    compressive strengths of handmade adobes
    with varying percentages of cement content
    are shown in 4 .16.
    Investigations at the ENTPE show that test-
    ing pure Kaolinite with 4% cement increases
    compressive strength, while with Mont-
    morillonite, the same amount of cement
    shows a decrease in strength. With the
    addition of 4% lime and 2% cement, the
    compressive strength of both types of clay is
    increased by nearly 100% (Oliver, Mesbah,
    1985). It should be noted that these tests
    were done with optimum water content
    and with pure clay. However, in actual prac-
    tice this increase may not be so high, as
    loam used in construction usually has a clay
    content of 5% to 15% and may not be used
    with optimum water content.
    Results of tests conducted at the BRL with
    handmade adobes are shown in 4 .17and
    4 .18. Here, four different mixtures of sand


and clay were tested with the addition of
6% cement and lime, respectively. It is inter-
esting to note that the results were nearly
the same in the case of sand for plastering
and sand with Bentonite. By adding lime to
these mixes, the compressive strength of
Kaolinite loam is even lower than that con-
taining sand (4 .18).
From these investigations, we derive the
following guidelines:


  1. Loam with high Kaolinite content should
    be stabilised with cement (and not with
    lime).

  2. Loam with high Montmorillonite content
    should be stabilised with lime or with a
    mixture of lime and cement in the ratio 2:1
    (and not with cement).

  3. Strong compaction increases the com-
    pressive strength of Montmorillonite signifi-
    cantly. This effect is significant in Kaolinite.
    CRATerre suggests appropriate stabilisers


on the basis of liquid limit, plastic limit
and plasticity index (4 .19), not taking into
account the type of clay minerals (CRATerre,
1979).
When adding cement to loam, the mixture
should be used immediately, since the
setting of cement starts at once. If the mix is
allowed to stand for several hours before
being pressed into soil blocks, the compres-
sive strength of these blocks may be
reduced by as much as 50%. However, if
lime is added, this time lag has no negative
influence on the final strength. If less than
5% cement is added, the drying process
affects the compressive strength. If the

46 Improving the earth

Clayey loam plaster
Silty loam plaster
Sand

Tensile bending strength (N/mm^2 )

Cement added (%)

Dry strength
Wet strength

Compressive strength (N/mm^2 )

Clayey loam plaster
Silty loam plaster
Sand

Compressive strength (N/mm^2 )

Cement added (%)

Cement added (%)
Clayey
loam

Silty
loam

Sandy
loam

4 .16

4 .13

4 .15

5.0

4.0

3.0

2.0

1.0

0.0
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