带穿孔壁的通道和I形弯曲闭合型材的优化

A. Marutyan
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引用次数: 0

摘要

本文介绍了通道和I形弯曲闭合型材(BCP)的优化的延续,该型材具有由相同和不同厚度的轧制板材制成的管状法兰和穿孔壁。这种型材是为轻钢薄壁结构(LSWS)设计的,其特点是技术和经济指标的提高以及工业和民用建筑中的大量需求,这证实了其进一步发展的相关性。该研究的目的是表明,通过成型轮廓,将闭合轮廓和开放轮廓的直轮廓和圆轮廓结合在复合截面中,包括穿孔,可以进一步改善LSWS的特性。通过试验设计研究、求解优化问题和BCP的变型设计,改进了BCP在最小质量下具有最大抗弯强度裕度的设计截面。专利审查证实了技术方案的独创性。通道BCP具有极高的重量和强度,壁中切口的相对高度为1/1.87,宽度和高度尺寸的比率为1/4.32。当搁架的厚度是壁厚的2倍时,I形BCP的强度和质量在切口的相对高度为1/1.23和尺寸比为1/4.17时是极端的,并且当搁架厚度是壁厚度的0.6时,BCP的厚度和强度在切口高度为1/1.73和尺寸比是1/5.22时是极端。如果搁板和墙壁的厚度相等,则BCP的强度和质量在切口高度为1/1.46和尺寸比为1/3.17时是极端的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Optimization of channels and I-shaped bended closed profiles with perforated walls
The article presents a continuation of the optimization of channel and I-shaped bended closed profiles (BCP) with tubular flanges and perforated walls made of rolled sheet products of both equal and different thicknesses. Such profiles are designed for light steel thin-walled structures (LSWS), which are distinguished by improved technical and economic indicators and mass demand in industrial and civil construction, which confirms the relevance of their further development. The purpose of the study is to show that the characteristics of LSWS can be further improved by shaping profiles, combining straight and round outlines of closed and open contours in a composite section, including their perforation. Through experimental design studies, solving optimization problems and variant design of the BCP, their design sections with a maximum margin of bending strength with a minimum mass have been refined. The originality of technical solutions is confirmed by patent examination. The channel BCP has extreme weight and strength with a relative height of cutouts in the wall of 1/1.87 and a ratio of width and height dimensions of 1/4.32. When the thickness of the shelves is 2 times the wall thickness, the strength and mass of the I-shaped BCP are extreme at a relative height of cutouts of 1/1.23 and a ratio of dimensions of 1/4.17, and when the thickness of the shelves is 0.6 of the wall thickness, the strength and mass of the BCP are extreme with a cutout height of 1/1.73 and a size ratio of 1/5.22. If the thicknesses of the shelves and the wall are equal, then the strength and mass of the BCP is extreme at a cutout height of 1/1.46 and a size ratio of 1/3.17.
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