This work describes the technology necessary to optimize the performance of any refractory lining. It provides an overview of the thermomechanical behaviour and wear of refractory lining systems, and details the structural behaviour of several classical refractory geometries, highlighting the critical regions of each lining system where high stress is most likely to create fractures.
Table of Contents
Introduction and general overview; load types; material properties concepts; discussion on ASTM strength tests of refractory materials; choosing the best refractory for thermomechanical application; static compressive stress-strain data; creep data; thermomechanical aspects of joints; refractory lining hinges; the influence of stress state on the strength of refractories; thermal expansion data; fundamentals of refractory brick arch behaviour; fundamentals of brick lined cylindrical shells; fundamentals of brick dome behaviour; some fundamentals of flat brick linings; tensile fracture; results of investigative studies of various refractory structural systems.
Charles A. Schacht