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ASSESSMENT OF THE COMPRESSIVE STRENGTH OF SOIL CEMENT BLOCK EXPOSED TO NPK FERTILIZER


ABSTRACT

The large number of farmers, especially the rural farmers, make use of NPK fertilizer for farming.

These farmers lack adequate storage facilities for storing farm products. This study is aimed at

determining the compressive strength of soil cement blocks (SCB) in contact with NPK fertilizer

with a view to study the chemical reaction and ascertaining the suitability of the SCB in the

construction of ware houses for the storage of NPK. The SCBs were obtained from a Hydraform

block firm constructing an estate in Kuje, LGA Abuja. A total of 150 samples of the SCB, the

soil used to produce the SCB, obtained from the site in Kuje LGA. The properties of the soil that

determines the cement content and properties of the blocks were investigated in accordance with

BS EN 771-1:2011 and BS EN 772-1:2011 respectively. The shrinkage has a value of 5.8% and

sieve analysis (clay and silt 0.95%) indicates that the cement content can be increased to improve

the strength of the SCB. The wet compressive strength (1.8N/mm2) was 78% of the dry

compressive strength (2.3N/mm2) and less than 80% as recommended by BS EN 772-1:2011.

Chemical analysis of the cement, soil and NPK were carried out, a saturated solution of NPK was

determined to produce different concentrations. The solutions were prepared and three blocks

selected at random were immersed for 7days, 14days, 21days, 28days, 56days and 90days

respectively to ensure adequate exposure to the NPK solution. The compressive strength tests

shows that the behaviour of the control differs from those in the solution. It was observed that the

control experienced leaching of calcium hydroxide from the cement paste with low compressive

strength of 1.64N/mm2. Whereas, the compressive strength of the SCBs in NPK solution was

higher at 7days (1.7N/mm2, 1.74 N/mm2, 2.12N/mm2, 2.13N/mm2, 2.11N/mm2). After 56 days

and 90 days, a white layer was observed to form within the SCB exposed to high concentrations

of NPK. This was related to the likely ions exchange reaction with calcium hydroxide. The SCB

were found to be suitable for use in the construction of ware houses to store NPK fertilizer as long



as the selection of the soil and block production was based on standard code and the structure is

kept dry from moisture.