由自然弯曲的橡木制成的木结构:原型和工艺

Niels Martin Larsen, Anders Kruse Aagaard, Markus Hudert, Lasse Weyergang Rahbek
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引用次数: 0

摘要

高度优化的加工流程是当今木材行业的特点。所获得的效率主要用于制造标准化的线性材料,以满足市场对具有特定恒定规格的相同产品的连续流动的期望。本文提出的研究试图质疑这些局限性,并为建筑中使用木材提供另一种方法。该研究涉及复杂的几何处理、建筑设计以及材料和结构方面的考虑。树木在生长过程中会吸收二氧化碳,而作为一种建筑材料,木材可以起到二氧化碳储存的作用,从而在建筑的使用寿命内降低大气中的二氧化碳水平,如果建筑构件可以重复使用,则会降低更长的时间。在过去的几年里,我们看到了木材建筑的显著增长。这在一定程度上是由于气候意识的提高和工程木制品(EWP)的可用性的增加。EWP依赖于统一的树木生产。随着人们对使用木材进行建筑的兴趣日益浓厚,预计人工林将增加,导致受影响地区缺乏生物多样性。因此,通过增加使用木材作为建筑材料来表达对总体气候的考虑,似乎与改善生物多样性的努力形成了对比。这项研究试图提供一种替代途径,将通常用作木柴的非均匀木材用作建筑材料。该项目展示了将木材作为生物实体而非标准化材料的具体存在而产生的可能性。虽然历史先例启发了这项研究,但该项目是使用数字工具开发的,如激光扫描、算法设计和机器人制造。我们开发了一种独特的从设计到生产的工作流程,使用原始形式的弯曲天然木材来实现弯曲的建筑设计。因此,工作流程将木材的固有特性与独特的表达模式联系起来。木材是从一家锯木厂回收的,该锯木厂收集当地森林中丢弃的树干。用3D扫描仪对锯木进行登记,并使用定制的参数化方法来处理几何信息并建立不规则锯木的数据库。定制的算法设计工具根据数据库确定锯木在预定义的结构设计中最适合的位置。加工数据被直接提取用于随后的机器人加工。材料的不规则形状表明对每个部件的结构特性进行了离散分析。进行了一系列破坏性物理测试,以表明结构系统的承载力和接头解决方案。为了证明工作流程的可行性,研究控制公差和湿度方面的挑战,并制定组装策略,我们制作了一个由15个构件组成的结构原型,宽度为3米,高度为4米。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Timber structures made of naturally curved oak wood: prototypes and processes

Highly optimised processing workflows characterise today’s wood industry. The gained efficiency is mainly directed towards making standardised linear materials that fulfil the market’s expectation of a continuous flow of identical products with certain constant specifications. The research presented here seeks to question these limitations and provide another approach to the use of wood in construction. The study involves complex geometry handling, architectural design, and material and structural considerations. Trees absorb CO2 during growth, and as a construction material, wood can function as CO2 storage, thereby reducing the levels in the atmosphere during the lifetime of the building—and even longer if the building components can be reused. We have seen a significant rise in wood construction over the past few years. This is partly due to growing climate awareness and the increased availability of engineered wood products (EWP). EWPs are reliant on uniform tree production. With growing interest in using wood for construction, an increase in plantation forests is predicted, leading to a lack of biodiversity in the affected areas. The consideration for the general climate expressed through the increased use of wood as a building material may thus appear to be in contrast to the efforts to improve biodiversity. This research seeks to provide an alternative route where non-uniform wood, usually used as firewood, can be used as a construction material. The project demonstrates possibilities that emerge from engaging with the wood as a specific occurrence of a biological entity rather than a standardised material. While historical precedents inspire the research, the project has been developed using digital tools, such as laser scanning, algorithmic design and robotic fabrication. We have developed a unique design-to-production workflow that uses curved natural wood in its original form to enable curved architectural designs. The workflow thereby links the inherent properties of the wood to a distinct mode of expression. The wood is retrieved from a sawmill that collects discarded tree trunks from local forests. The sawlogs are registered with a 3D scanner, and a customised parametric method is used to handle the geometric information and establish a database of the irregular saw logs. A custom-made algorithmic design tool identifies where the sawlogs fit best in a predefined construction design based on the database. Machining data is directly extracted for the subsequent robotic processing. The irregular shape of the material suggests a discrete analysis of the structural properties of each component. A series of destructive physical tests are carried out to indicate the capacity of the structural system and the joint solution. To demonstrate the viability of the workflow, study challenges in controlling tolerances and humidity, and develop an assembly strategy, we have produced a construction prototype of 15 members in the size of 3 m in width and 4 m in height.

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