wem& wgjø vwni in& gvwbi inxg Strength of Materials Mechanical properties of metals (original) (raw)
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The research focuses on the mechanical properties of metals, particularly relating to hardness, resilience, stress strain relationships, and deformation behavior when subjected to loads. It outlines fundamental hardness tests such as Brinell, Vickers, and Knoop, discusses the significance of resilience in material performance, and provides formulas for determining Young's modulus and stress in composite bars. Various methods for stress concentration determination are also examined, contributing to a deeper understanding of material behavior under various loading conditions.
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Resilience: Theory and metrics – A metal structure as demonstrator
Engineering Structures, 2017
The paper develops a theoretical model and metrics for structural resilience. It addresses the general case of physical systems after they suffer damages due to natural or industrial hazards. They may suffer serious physical damages and may generate also social and economic losses. Depending on the interaction between the subsystems and individual components, it may be possible for the system to absorb the damage, remain on service and recover. The method addresses the utility functions (resistance), damaging sequences, residual state, post-event capacity, recovery functions and resilience metrics and indicators. It becomes then possible to identify whether a structure is ''objectively" resilient or not, under a given set of conditions. A simple metal structure relying on a full support is adopted as demonstrator. The resilience indicator expresses the residual capacity under bending effects of the system, when subject to uniform lateral load and initial damage of the critical cross section (at beam support). Due to plasticity, it is shown that the system can recover and be resilient as long as the damage does not exceed 18.4% of the cross critical section. Subdomains for resilience are also easy to identify in the [hazard, vulnerability, damage] operating space for the case study.
Welcome to the 4th lesson of module 2 which is on analysis of strain part IV. In the previous lesson we discussed some aspects of analysis of strain. In this particular lesson we are going to discuss some more aspects of strain analysis. Let us look into those aspects. (Refer Slide Time: 01:10)
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