The magnetic susceptibilities of the tricalcium aluminate prepared containing 0.5, 1, or 2 wt% FeC2O4 or Fe2O3 before firing were measured at different temperatures and different magnetic field intensities. The Curie temperature of each compound is determined from the magnetic susceptibility temperature curves. The values of the effective magnetic moments were calculated from the experimental data for the different compounds. The variations in the magnetic properties and the magnetic constants with the type and concentration of iron added to C3A confirm that the magnetic susceptibility measurements could be considered a good tool to estimate the solubility limit of iron in different forms in C3A. Our data confirm also the previous data IR measurements for such samples at low iron concentrations.

{Programming languages naturally play an essential role in the software development process. Finding more powerful and better suited language has been the aim of language designers ever since the dawn of computer programming. For instance, the most recent research in concurrent logic programming paradigm is directed towards concurrent constraints framework where the development of the AKL (Agents Kernel Language) language is significant. AKL+ is a natural development which is derived from the fusion of concurrent constraint logic programming and object-oriented programming paradigms. The result is more than a sum of its parts since many of the inadequacies of one programming paradigm are compensated for by features of the other.This paper is going to describe the AKL+ language. The schemes for developing an efficient implementation is discussed. The AKL+ language has been implemented on UNIX-based workstations and they are parts of the official release of the AKL system, AGENTS, developed at SICS (Swedish Institute of Computer Science).}

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