25
Nov

Structure and Infrastructure Engineering: Maintenance, Management, Life-Cycle Design and Performance

Proper integrated management planning is efficient and optimal when it comes to decision making and improvement of functionality and reliability of infrastructure systems and structures in a life cycle framework. Structure and infrastructure engineering generally deals with the advancements of management, maintenance, and performances of various sectors such as pipelines, ocean structures, naval vessels, nuclear power plant, offshore platforms, dams, bridges, underground construction, automotive and aerospace structures.

Structural and infrastructure engineering aims at providing advanced technologies to be used in optimizing the performance of infrastructure as well as predicting and analyzing. The engineer practitioners and the researchers are supposed to focus on filling the gaps in the management and the maintenance as well as evaluate the performance of life cycle infrastructure system. The other vital gaps to be filled by the two parties are those between the various experts working on different kinds of infrastructure. Structural and infrastructure engineering blends in a practical, technical and scientific manner.

Structure and infrastructure engineering entails various theories and practices. While studying infrastructure and structure engineering, you will come across case studies and theories that highlight the application and significance of Structure and infrastructure engineering. The scope of the study in this sector entails various areas of study such as experiment and computer methods, mathematical modeling, aging and deterioration modeling, life cycle prediction and analysis, financial planning, field testing, diagnostics and inspection and practical applications in areas regarding durability, decision making, assessment, evaluation, designing and constriction. Other areas include management systems, maintenance techniques, codes and specifications, rehabilitation. Performances dependent on time, replacements and repair, risk management, life prediction, whole life costing, strengthening, non –destructive testing and maintenance and management optimization.

It is vital to note the study is not limited to the above-mentioned scope.