Experimental Investigation on Optimal Cement Utilization with Partial Replacement of Lime Calcined Clay Cement (Lc3) – A Review
Keywords:
Building sector, Cement substitution, Durability, Environmental advantages, Gypsum, Limestone powder, Performance, Sustainable alternative, UltrafineAbstract
The construction materials and sustainable
building practices sector has experienced a
notable transition towards environmentally
friendly and cost-effective solutions. Within
this shift, there has been a growing focus on
exploring the optimal use of cement through
partial replacement using Lime Calcined Clay
Cement (LC3), representing a promising
avenue for research. LC3, an innovative
cement material, substitutes a considerable
part of conventional Portland cement with
calcined clay, offering both economic and
environmental benefits. The study involves a
comprehensive analysis of LC3's composition,
attributes, and production methods, laying
the foundation for its application in the
construction field. It aims to systematically
and rigorously compare LC3's performance,
durability, and environmental advantages
against regular cement.
The development of elective development
materials, exemplified by LC3, goes about as
a directing guide in the continuous
undertaking to limit the natural effect of the
development business. LC3's reduced carbon
footprint and substantial energy conservation
make a convincing argument for its broader
adoption. The shift towards sustainable
building practices not only impacts immediate
construction methodologies but also aligns
with broader global environmental objectives.
Introducing LC3 as a viable option marks a
significant stride in harmonizing construction
practices with environmentally conscious
initiatives and worldwide sustainability
aspirations.