Litcius/Paper detail

Interlayer Bond Strength Testing in 3D-Printed Mineral Materials for Construction Applications

Izabela Hager, Marcin Maroszek, Katarzyna Mróz, Rafał Kęsek, Marek Hebda, Леонид Дворкин, Vitaliy Marchuk

2022Materials34 citationsDOIOpen Access PDF

Abstract

There are no standards for testing the properties of 3D-printed materials; hence, the need to develop guidelines for implementing this type of experiment is necessary. The work concerns the development of a research methodology for interlayer bond strength evaluation in 3D-printed mineral materials. In additive manufactured construction elements, the bond strength is a significant factor as it determines the load-bearing capacity of the entire structural element. After we completed a literature review, the following three test methods were selected for consideration: direct tensile, splitting, and shear tests. The paper compares the testing procedure, results, and sample failure modes. The splitting test was found to be the most effective for assessing layer adhesion, by giving the lowest scatter of results while being an easy test to carry out.

Topics & Concepts

Bond strengthMaterials scienceUltimate tensile strengthShear strength (soil)Composite materialStructural engineeringBondTensile testingDirect shear test3d printedStrength of materialsShear (geology)Layer (electronics)EngineeringAdhesiveManufacturing engineeringEnvironmental scienceFinanceSoil waterSoil scienceEconomicsInnovations in Concrete and Construction MaterialsAdditive Manufacturing and 3D Printing TechnologiesBIM and Construction Integration