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Maheri, Alireza
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Topics
Publications (8/8 displayed)
- 2024Investigating Thermal Dynamic Behavior of Cryogenic Cooling for Low-Energy Impact Fracturing on ISO EN 1.0577 (S355J2) Mild Carbon Steel Grade Offshore Monopile Structures
- 2018Dynamic simulation of machining composites using the explicit element-free Galerkin methodcitations
- 2015Modelling of cutting fibrous composite materials: current practicecitations
- 2015Machining Unidirectional Composites using Single-Point Toolscitations
- 2015Machining Unidirectional Composites using Single-Point Tools: Analysis of Cutting Forces, Chip Formation and Surface Integritycitations
- 2009Upgrading the performance level of ordinary frames using fibre reinforced plastic sheets
- 2008Variable-state design parameters in the design of aero-structures made of intrinsically smart materialscitations
- 2008Variable-state design parameters in design of aero-structures made of intrinsically smart materials
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document
Investigating Thermal Dynamic Behavior of Cryogenic Cooling for Low-Energy Impact Fracturing on ISO EN 1.0577 (S355J2) Mild Carbon Steel Grade Offshore Monopile Structures
Abstract
<title>Abstract</title><p>This study delves into the significant area of low-energy impact fracturing within ISO EN 1.0577 (S355J2) mild carbon steel grade, exploring its cooling time depending on diverse temperature gradients across varying wall thicknesses. The cooling behavior is analyzed systematically to comprehend the material's structural dynamics under different thermal conditions. The findings, which are of utmost importance, offer insights into the nuanced interplay between temperature gradients and wall thickness, crucial for determining the cooling time needed to reach the desired temperature on the Ductile to Brittle Transition Temperature (DBTT) of the ISO EN 1.0577 (S355J2) mild carbon steel grade for the low-impact energy fracturing of the offshore structure depending on its wall thickness. The research not only delves into the mechanical aspects of low-energy impact fracturing but also unravels the thermal implications on cooling time depending on the desired temperature and the wall thickness of the mild ISO EN 1.0577 (S355J2) mild carbon steel structure, guiding engineering decisions for applications for low-energy impact fracturing added by cryogenic cooling of ISO EN 1.0577 (S355J2) mild carbon steel structure decommissioning.</p>