The research investigates how 3D concrete printed buildings behave through examinations of printing methods,materials, structural strength, durability, and safety performance. The new structures require reliability testing, sowe gathered experimental data about 3D printed concrete parts through mechanical property analysis, stress tests,and long-term performance measurements. The research demonstrates that particular material pairings withspecific printing methods result in enhanced strength and durability, producing parts that perform better thanpredicted under simulated earthquake forces. The results obtained hold special importance because they apply tothe construction of healthcare facilities, including resilient medical centers in disaster-prone areas. The capabilityto build 3D printed structures with high safety standards would speed up the deployment of healthcare servicesthrough rapid-response hospitals in challenging locations. The research improves additive manufacturing inconstruction and demonstrates how 3D printed concrete can reshape healthcare architecture, creating more logicalfuture projects. The findings indicate that additional focused research should be dedicated to developing andimplementing 3D-printed concrete solutions to enhance safety, durability, operational efficiency, and flexibilityin healthcare facilities and other applications.