31Orchid: https://orcid.org/0000-0003-4759-0725Google Scholar: https://scholar.google.com/citations?user=tKRwWN8AAAAJ&hl=enResearcherID: https://publons.com/researcher/3085783/mayakarishnan-prabakaran/An explorative study on the development Organic Corrosion Inbhibitorsto protect corrosion of aluminum and its alloy needs to be done.The main challenge that is faced while using the extract of plants as a metal rust restraint is the lack of capability to find the biologically active compounds that are accountable for corrosion inhibition.From TRC beams, the optimum level of replacement is identified as 50% steel replacement with one layer of carbon fabric.From the crack pattern, it is observed that the beam failed in shear. Hence, shear strengthening of the beam would yield better results.Carbon fabric can be effectively used as textile reinforcement in beams in addition to steel reinforcement to improve the flexural strength of beams.The aspect ratio of DNASF and the geometry of the fiber to be researched. The DNA‐shaped steel fiber is now fabricated using an approximate method and the optimized fabrication and economical method is yet to be researched on for mass production with interdisciplinary engineering.Even though the DNASF costs higher than the Hooked end steel fiber, the play can be made in the design of the structure like optimizing the steel reinforcement and fiber dosage. The study can be further include long‐term durability tests such as fire resistance, blast resistance, freeze‐thaw cycles, sulfate attack, or chloride ion penetration for long‐term performance of DNAFRC, especially in harsh environmental conditions. The mechanical properties of DNASF are far higher than the existing steel fibers, the structural elements like columns can have structural efficiency under cyclic loads.The DNAFRC exhibits superior load‐carrying capacity because of the individual fiber contribution in arresting cracks in all directions. DNAFRC can be extensively used in machine floors, tunnel lining, and in structural elements like beams, columns, and slabs under seismic loads.
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