沿纤维轴向压缩下落叶针叶木材实际做功的广义模型

S. Homon, S. Gomon
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摘要

由木材制成的元素和结构已经反复证明了它们比由金属和钢筋混凝土制成的类似物的优势。同时,由木材制成的材料、零件、元件和结构需要额外的实验和理论研究,以建立材料的实际力学特性。也就是说,分析与随后的建模工作的木材作为一种材料,从开始加载到其完全破坏。实木的实验研究大多是在所谓的“软”试验模式下进行的,也就是说,这种材料的工作只分析到“σ-u”图上升分支的某一点(根据载荷的增加),这不能让我们准确地研究该图顶部的强度和变形特性,更不用说它的下降分支了。自上世纪末以来,各国科学家开始在现代伺服液压和机电试验机上对材料进行所谓“硬模式”(增加位移)的实验研究,这使得从加载开始到材料完全破坏的图表建立成为可能。该工作的目的是建立一个理论模型,用于硬木和针叶木材在轴向压缩下沿纤维的短期载荷下的运行,从加载开始到材料完全破坏,而不考虑木材的年龄和湿度。提出了硬木和针叶木材在短时间轴向压缩作用下沿纤维实际做功的广义模型。建立了四个特色木制品区(两个在上升分支上,两个在下降分支上)。提出了木材全变形图的主要强度和变形参数的理论定义。建立了一个近似函数,这是一个四次多项式,它充分地描述了变形图。提出了确定木材临界变形量和极限变形量、初始弹性模量和变形模量的方法
本文章由计算机程序翻译,如有差异,请以英文原文为准。
GENERALIZED MODEL OF THE ACTUAL WORK OF DECIDOUS AND CONIFEROUS WOOD UNDER AXIAL COMPRESSION ALONG THE FIBERS
Elements and structures made of wood have repeatedly proven their advantages over analogues made of metal and reinforced concrete. At the same time, materials, parts, elements and structures made of wood need additional experimental and theoretical studies to establish the actual mechanical characteristics of the material. That is, analysis with subsequent modeling of the work of wood as a material from the beginning of loading to its complete destruction. Most of the experimental studies of solid wood were carried out in the so-called "soft" test mode, that is, the work of such material was analyzed only up to a certain point of the ascending branch of the "σ-u" diagram (according to the increase in loads), which did not allow us to accurately study the strength and deformable characteristics on top of this chart, not to mention its descending branch. Since the end of the last century, scientists from different countries began to conduct experimental studies of materials in the so-called "hard mode" (increasing displacements) on modern servo-hydraulic and electromechanical testing machines, which made it possible to build diagrams from the beginning of loading to the complete destruction of the material. The purpose of the work is to develop a theoretical model for the operation of hardwood and coniferous wood under axial compression along the fibers with a short-term load from the beginning of loading to the complete destruction of the material, regardless of the age of the wood and humidity. A generalized model of the actual work of hardwood and coniferous wood under axial compression along the fibers by a short-term load is proposed. Four characteristic areas of wood work were established (two on the ascending branch and two on the descending one). A theoretical definition of the main strength and deformation parameters of the complete wood deformation diagram is proposed. An approximating function has been established - this is a polynomial of the 4th degree, which sufficiently describes the deformation diagram. Methods for determining the critical and limiting deformations of wood, the initial modulus of elasticity and the modulus of deformations are proposed
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