Jacek Domski

Validation of Aramis Digital Image Correlation System for Tests of Fibre Concrete Based on Waste Aggregate

The paper presents a research programme focused on steel fibre reinforced concrete (SFRC) based on waste ceramic aggregate (WCA) prepared from debris. The matrix was reinforced by steel fibre from 0.5% to 1.5% (by volume). Flexural tests were performed using a limit of proportionality (LOP) method and a procedure based on optical measurements with the help of Digital Image Correlation (DIC) System. Residual strengths were calculated and flexural strength classes were assigned. Conclusions concerning both properties of SFRC based on WCA and feasibility of using DIC system for testing SFRC were drawn.

Change of a Crack Propagation Rate in Fine-Grained Cement-Based Composites due to Partial Replacement of Aggregate by Ceramic Waste

Concrete used in civil structures is usually made on cement-based matrix and natural aggregates (such as sand, gravel, crushed stone, etc.). Ceramic waste aggregate is considered as a perspective replacement of a part of natural aggregate in modern environmentally oriented building material. Concrete with natural aggregate partially replaced by ceramic waste aggregate usually show different mechanical characteristics than ordinary concrete. This paper introduces the pilot study of fatigue parameters of six concrete mixtures with various amount of ceramic waste. The experimentally obtain results are compared and discussed.

Specific Dynamic Properties of SFRC Based on Waste Ceramic Aggregate

Red waste ceramics (RWC) is getting increasing popularity as a raw material for coarse aggregate production. Aggregate obtained from RWC is characterized by very high water absorptivity. Therefore traditional concrete mix designing methods are not suitable for mixes based on RWC aggregates and a new approach is required. Replacing traditional coarse aggregates by RWC aggregate significantly influences the homogeneity of properties of hardened concrete and properties themselves. The conducted research programme addressed these technological obstacles through steel fibre reinforcement and the process of internal curing. Fibres were used in volumes of 0.0%, 0.5%, 1.0% and 1.5%. Specimens were in a form of: cubes, cylinders (used for strength tests), prisms (used for LOP test), circular plates (used for impact tests). During the impact tests, deflection and propagation of cracks were followed. Created fibre reinforced RWC concrete is characterized by values of residual flexural strengths enabling substitution of conventional reinforcement.

Static And Dynamic Characteristics Of Waste Ceramic Aggregate Fibre Reinforced Concrete

Abstract There are multiple obstacles associated both with technology and properties of waste ceramic aggregate concrete preventing its wide production and application. In the research programme these limitations were addressed through utilizing steel fibre reinforcement and the phenomenon of internal curing. After laboratory tests of mechanical properties a numerical analysis of composites in question was conducted.