Advanced Materials Science Research

Structural Engineering Peer-review Journals

Structural engineering relies upon an in depth knowledge of applied mechanics, materials science and applied math to know and predict how structures hold and resist self-weight and imposed loads. To apply the knowledge successfully a structural engineer mostly requires detailed knowledge of relevant experimental and intellectual design codes, the humanities of structural analysis, also as some intelligence of the corrosion resistance of the materials and networks, specifically when those structures are revealed to the foreign environment. Since the 1990s, specialist software has become accessible to aid in the design of structures, with the performance to sustain in the drawing, concluding and designing of structures with maximum attention; examples include AutoCAD, StaadPro, ETABS, Prokon, Revit Structure, Induct RCB, etc. Such software can also earn into deliberation environmental loads, like from earthquakes and winds. Structural engineering may be a branch of engineering that involves the appliance of the laws of physics, mathematics and empirical knowledge to securely design the ‘bones’ and cargo bearing elements of artificial structures. Modern day structural engineering provides an outsized and detailed body of data which will accurately predict the performance of various shapes and materials utilized in structures to resist loads and stresses on structures. The principles of structural engineering were used thousands of years ago when building structures just like the pyramids in Egypt or the Acropolis in Greece.

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