A systematic classification and typological assessment method for mortise and tenon joints

BioResources Pub Date : 2024-06-05 DOI:10.15376/biores.19.3.4918-4940

Bin Shang, Zhe Chen, Yuxi Lin, Hong Chang, Jianing Wei

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Abstract

The classification of Mortise and Tenon (MT) joints is vital, as it enables standardized terminology, facilitates comparative analysis, and enhances understanding of construction techniques across a variety of applications including the design, manufacturing, and management of wood products. Although the classification of MT joints is crucial, current research in this area lacks a systematic approach. The study adopts a morphological composition paradigm to investigate MT joints. This study introduces a 6-level classification index hierarchy for MT morphology, employing methods from biological classification and arithmetic cross-method coding. By encoding joint features and morphological composition, the study delineates 352 possible joint types and 1056 theoretical compositions across dimensions, elucidating diverse structural logics and aiding comprehension. Next, a feasibility typicality assessment identifies 198 typical and 310 atypical morphological types, presented clearly in graphical form. Validations are conducted through analysis of 2654 research cases, which are encoded according to the index hierarchy, thereby affirming the scientific validity and practical utility of the classification system.

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榫卯的系统分类和类型评估方法

榫卯（MT）连接的分类至关重要，因为它可以实现术语的标准化，便于进行比较分析，并增强对木制品设计、制造和管理等各种应用领域的施工技术的理解。虽然 MT 接头的分类至关重要，但目前该领域的研究缺乏系统的方法。本研究采用形态构成范式来研究 MT 接缝。本研究采用生物分类和算术交叉方法编码的方法，引入了 MT 形态的 6 级分类指数层次结构。通过对关节特征和形态构成进行编码，该研究划分出 352 种可能的关节类型和 1056 种跨维度的理论构成，从而阐明了多样化的结构逻辑并帮助理解。接下来，可行性典型性评估确定了 198 种典型形态类型和 310 种非典型形态类型，并以图表形式清晰呈现。通过对 2654 个研究案例的分析进行验证，并根据索引层次对这些案例进行编码，从而肯定了分类系统的科学性和实用性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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