INNOVATION IN FLY ASH–GGBS BASED GEOPOLYMER CEMENT FOR ENHANCED DURABILITY AND STRUCTURAL APPLICATIONS

Authors

  • A.Paulmakesh Post Doctoral Fellowship, Department of Civil Engineering, Eudoxia Research University (USA), India Author

Keywords:

Geopolymer Cement, Fly Ash GGBS, Durability, Structural Applications, Sustainable Concrete, Artificial Intelligence, Cost Analysis

Abstract

Contemporary mission practice faces unprecedented complexity due to social, cultural, ecological, and technological transformations. Traditional diagnostic frameworks often fail to address the underlying worldviews and ontologies that shape institutional and societal behavior. This article introduces the Tripolar Systemic Analysis (TSA), a diagnostic methodology built upon the Moleka Grid, which integrates symptomatic, paradigmatic, and ontological analyses. Drawing upon ontorics, philosophy, and leadership studies, TSA enables mission leaders and researchers to engage with systemic transformation holistically. Comparative analysis with classical models such as the Iceberg Model and Three Horizons Framework demonstrates TSA’s novel contribution: a multi-level, philosophically grounded, and actionable framework for transformational leadership and systemic mission intervention.

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Published

2026-05-29