Paper Key : IRJ************156
Author: Aditi Kolpek,Akanksha Jannu,Rutvik Taru
Date Published: 12 Apr 2025
Abstract
The advent of 3D printing technology in construction has revolutionized traditional construction methods by enabling faster, cheaper, more affordable and sustainable building practices. The focus of success in 3D concrete pressure (3DCP) is the development of optimized mixed designs, which ensures proper flow capacity, structure, inverse, and early childhood strength. This study focuses on the wording and evaluation of concrete mixes tailored to 3D printing applications. Important parameters such as water-to-binder, use of complementary cement materials (SCM), inclusion of mixtures (superplasticity, viscosity-active ingredient modification), and overall levels are examined to achieve the desired rheological and mechanical properties. Experimental tests are conducted to assess print quality, Schichtadhsion, time determination, and pressure strength. The results highlight the key balance between pumpability and structural stability and provide insight into sustainable and powerful mix designs that support further development of additive manufacturing in the construction industry.
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