The use of concrete aggregate in the production of new concrete
Maukonen, Sara (2022)
2022
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Julkaisun pysyvä osoite on
https://urn.fi/URN:NBN:fi:amk-2022082819668
https://urn.fi/URN:NBN:fi:amk-2022082819668
Tiivistelmä
As climate change proceeds, a frugal lifestyle becomes increasingly important
for the wellbeing of the Earth’s ecosystems. The reasonable use of nature’s
raw materials supports the circular economy, which lessens the environmental
burden. Construction and demolition waste is a major waste source within
cities, and therefore more valuable reuse of this waste is needed. Since the
concrete industry is one of the most polluting industries globally, the reuse of
raw materials in concrete production would not only diminish urban waste but
also the emissions of the concrete industry itself.
The aim of the thesis was to find out how the compressive strength of
concrete changes if quarried stone aggregate used in concrete production is
replaced by concrete aggregate. For the study, leftover concrete aggregate
from concrete production was prepared by sieving, and particle size
distribution was calculated. Concrete test pieces were then made in a
laboratory. Finally, compressive strength tests were conducted on concrete
test pieces to gain quantitative data about the potential change in compressive
strength when using recycled concrete aggregate.
The results of the compressive strength tests show that the compressive
strength of concrete decreases by 6–7.3 MPa when using concrete aggregate
instead of natural aggregate in the production of new concrete. It has been
estimated that this difference in strength can be compensated by using a
plasticizer. Therefore, the use of concrete aggregate in the production of new
concrete is possible. To improve the reuse of concrete aggregate, the
standard SFS-EN 206 (2014) should be updated to allow the use of concrete
aggregate with a 100 % replacement ratio. Mikkeli Development Miksei Ltd.
can utilise the results of this study to advance the use of concrete aggregate
in the production of new concrete. Further research is needed to find ways to
improve the technical properties of recycled concrete aggregate and to
examine the effect of fine recycled concrete aggregate on the quality of new
concrete.
for the wellbeing of the Earth’s ecosystems. The reasonable use of nature’s
raw materials supports the circular economy, which lessens the environmental
burden. Construction and demolition waste is a major waste source within
cities, and therefore more valuable reuse of this waste is needed. Since the
concrete industry is one of the most polluting industries globally, the reuse of
raw materials in concrete production would not only diminish urban waste but
also the emissions of the concrete industry itself.
The aim of the thesis was to find out how the compressive strength of
concrete changes if quarried stone aggregate used in concrete production is
replaced by concrete aggregate. For the study, leftover concrete aggregate
from concrete production was prepared by sieving, and particle size
distribution was calculated. Concrete test pieces were then made in a
laboratory. Finally, compressive strength tests were conducted on concrete
test pieces to gain quantitative data about the potential change in compressive
strength when using recycled concrete aggregate.
The results of the compressive strength tests show that the compressive
strength of concrete decreases by 6–7.3 MPa when using concrete aggregate
instead of natural aggregate in the production of new concrete. It has been
estimated that this difference in strength can be compensated by using a
plasticizer. Therefore, the use of concrete aggregate in the production of new
concrete is possible. To improve the reuse of concrete aggregate, the
standard SFS-EN 206 (2014) should be updated to allow the use of concrete
aggregate with a 100 % replacement ratio. Mikkeli Development Miksei Ltd.
can utilise the results of this study to advance the use of concrete aggregate
in the production of new concrete. Further research is needed to find ways to
improve the technical properties of recycled concrete aggregate and to
examine the effect of fine recycled concrete aggregate on the quality of new
concrete.