Mortise-and-tenon joinery for modern timber construction: Quantifying the embodied carbon of an alternative structural connection

Demi Fang, Caitlin Mueller
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引用次数: 4

Abstract

The mass timber industry offers a compelling pathway for low-carbon structural systems in buildings, replacing carbon-intensive materials like concrete and steel with sustainably forested wood. However, conventional structural connections in mass timber construction are largely made of metallic materials, such as screws, nails, and plates. In contrast, joinery, or geometrically interlocking all-timber connections, is globally prevalent in historic timber construction. This paper investigates the potential of applying joinery, specifically the “Nuki” mortise-and-tenon joinery connection, to contemporary mass timber construction from perspectives of structural behavior and carbon savings. Considering single spans supporting one-way cross-laminated timber (CLT) floor systems at the mid-rise residential scale, carbon savings ranging from 7 to 40% are possible at the beam-joint scale by using Nuki joints instead of steel concealed beam hangers, a more conventional mass timber connection. While these savings are smaller at the building scale, the paper nevertheless demonstrates a methodology and results for quantitatively comparing the scale of savings achieved by implementing this historic but contemporarily alternative connection type.

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现代木结构的榫卯细木工:量化替代结构连接的隐含碳
大规模木材行业为建筑中的低碳结构系统提供了一条引人注目的途径,用可持续的森林木材取代混凝土和钢铁等碳密集型材料。然而,大体积木材结构中的传统结构连接主要由金属材料制成,如螺钉、钉子和板。相比之下,细木工,或几何上相互连接的所有木材连接,在全球历史木材建筑中普遍存在。本文从结构性能和碳节约的角度研究了细木工,特别是“Nuki”榫卯细木工连接在当代大规模木材建筑中的应用潜力。考虑到单跨支撑中高层住宅规模的单向交叉层压木材(CLT)地板系统,通过使用Nuki接头代替钢制隐蔽梁吊架(一种更传统的大块木材连接),在梁接头规模下可以节省7%至40%的碳。虽然这些节省在建筑规模上较小,但本文展示了一种方法和结果,用于定量比较通过实施这种历史上但当代的替代连接类型所实现的节省规模。
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