440 likes | 595 Views
Chemometric in Civil Engineering. Kazan State University of Architecture and Engineering. Alfred Suleymanov. The general structure of the University. The University is subdivided in: 1. Institute of Architecture and Design
E N D
Chemometric in Civil Engineering Kazan State University of Architecture and Engineering Alfred Suleymanov
The general structure of the University The University is subdivided in:1. Institute of Architecture and Design Faculty of General Architectural and Art Training Architecture Faculty Design Faculty Building Design Department Architectural School for Children DASHKA
The general structure of the University 2 Institute of Transport Faculty of Transport Engineering Faculty Engineering Basics
The general structure of the University 3. Institute of Economy and Building Management Faculty of Economics Faculty of Part-time and Extended Studies
The general structure of the University 4. Centre for Humanities Sciences 5. Faculties Building Science Engineering Faculty of Engineering Systems and Ecology Faculty of Construction Technologies Engineering Faculty for Part-time Studies
Specialties - Architecture - Building Engineering- Restoration and Reconstruction of Architectonical Heritage - Design of Architectonical Environment - Interior Art - Industrial and Civil Engineering
Specialties - Economy and Business Management - Expertise and Real Estate Management - Heat Supply and Ventilation - Water Supply and Water Removal - Production of Constructional Material, Manufactures and Construction
Specialties - Highway and Airdrome - Transport Organization and Safety - Bridges and Transport Tunnels - Engineering Protection of Environment - Informational Systems and Technologies - Professional Education (Engineering, Wiring and Repair Technologies)
Scientific directions - Mechanics of deforming solids - Building facilities, edifices and constructions - Heat supply, ventilation, air conditioning, natural gas supply and illumination - Water supply, sewerage systems, building water-preserving systems.
Scientific directions - Building materials and products - Philosophy of science and technology - Theory and history of architecture, restoration and reconstruction of historical-architectural heritage - Architecture of building and constructions. Creative conceptions of architectural activity - City and rural inhabited locality planning
Chemometric techniques in civil engineering • monitoring of historical buildings with non-intrusive measurements (image analysis, acoustic and ultrasonic probing ) • estimation of heterogeneity in concrete slabs, identification of the substrate defects on painted slates, etc. (novel methods of texture analysis);
Chemometric techniques in civil engineering • ecological analysis of pollution; (PCA, PLS and N-way methods) • analysis of aging and degradation of various materials (multivariate projection methods) • quantitative structure – property relationship (QSPR)
Structure of Composite 1-textile reinforcing basis 2-film covering (matrix)
Problems of prediction of polymer materials durability • Degradation processes take place at various structural levels with manifestation of various relationships of cause and effect • Nowadays there is no general theory of polymer aging and destruction • Traditional kinetic approach fails in description of the complicated aging phenomena including both chemical and physical ways of degradation
Problems of prediction … • The situation is even more aggravated with multi-dimensionality and multi-criteriality Under such circumstances we are forced to apply the soft models for prediction of polymer materials durability!
Choice and substantiation of aging parameters (data for construction of mathematical model) • Developing the practical methods for durability prediction it is necessary to choose such characteristics that clearly represent the relationships between the structural changes and material quality • Certainly, it would be nice to get these characteristics without complex methods of structural analysis • Basically, it is impossible to single out a parameter that unequivocally represents both physical and chemical processes in polymeric materials at their aging
Physic-mechanical properties are measured and used for investigation • Durabilityσ and elongation at break ε • The initial module of elasticityЕ • Creep at ageing Δ • ColorΔΕ • Shine • Transparencyα • Limiting wetting angleθ
The following aging conditions were simulated • UV sun radiation • Rain • Temperature • Tensile stress
PLS Model Predictor matrixX Response matrixY PLS
Tensile strength prediction Calibration set Test set
Elongation at break prediction Calibration set Test set
Conclusions Multivariate approach enables us to analyze jointly the material properties in the course of its aging The presented approach substitutes the mechanical testing by a rapid and non-destructive measurement of such physical properties as color, shine and others