Litcius/Paper detail

A Bi-Modulus Material Model for Bending Test on NHL3.5 Lime Mortar

Rebecca Grazzini, Giulia Misseri, Luisa Rovero

2023Materials13 citationsDOIOpen Access PDF

Abstract

The research provides an innovative contribution to the interpretation of three-point and four-point bending tests on mortars by employing a bi-modulus material model, which assumes an asymmetric constitutive law, i.e., different elastic moduli in tension and in compression. To this aim, Euler-Bernoulli and Timoshenko bi-modulus beam models are defined, and the related displacement fields are reported for three-point loading, and provided for the first time for the four-point bending layout. A wide experimental campaign, including uni-axial tensile and compressive tests, three-point and four-point bending tests, and on notched specimens three-point tests for mode-I fracture energy, has been carried out on lime mortar specimens exploiting traditional contact (CE-DT) and contactless (DIC) measurement systems. Experimental results provided the values of tensile and compressive mechanical characteristics, which are employed to validate estimations of the analytical model. The tension-to-compression moduli ratio experimentally observed is on average 0.52. Experimental outcomes of the DIC analysis proved the bi-modulus behaviour during the four-point bending tests showing visible shifting of the neutral axis. The bi-modulus analytical model provides closer results to the experimental ones for the slender specimens subjected to four-point bending.

Topics & Concepts

MortarMaterials scienceComposite materialLimeModulusBendingFlexural strengthStructural engineeringMetallurgyEngineeringInnovations in Concrete and Construction MaterialsMasonry and Concrete Structural AnalysisHygrothermal properties of building materials
A Bi-Modulus Material Model for Bending Test on NHL3.5 Lime Mortar | Litcius