Development of a Design-Driven Parametric Mass Timber Construction System for Modular High-Rise Urban Housing

Modular and Offsite Construction (MOC) Summit Proceedings Pub Date : 2019-05-24 DOI:10.29173/MOCS111

O. Lang, Cindy Wilson, Clayton Blackman, Ryan Gillespie, O. Krieg, Shaique Uddin

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引用次数: 2

Abstract

This paper presents the outcome of an ongoing research and development process at Lang Wilson Practice and Architecture Culture and Intelligent City on a parametric mass timber construction system for modular mid- to high-rise urban housing that started in 2006. The system was developed to systematically address the urban housing crisis in North America, and it is currently applied in two Canadian housing projects in seismic zones with 4 and 12 storeys in an evolution from previous modular housing projects by the companies. The first part of this paper explains the holistic, design-driven and parametric approach to urban housing, and how platform-based design is critical for an adaptable, sustainable and qualitative urbanization. Criteria of livability, affordability and sustainability inform the development of a customizable and modular mass timber building system, which can adapt to grid spacing and module sizes as well as to structural requirements for up to 18 floors in seismic zones. The building system is developed to meet Passive House certification and to be fully prefabricated. Constructional innovations within the system reduce the typical redundancy of doubled-up material layers of modular construction. In the second part, the authors explain how the building system is also the result of the development of a fully parametric design tool that allows not only for the optimization of building typology, home layouts or even energy consumption, but also automatically adapts the geometry of all mass timber building elements. This high level of parametrized building information density in an early stage of the design process allows for an unprecedented collaboration of designers, architects and engineers while ensuring constructability. In the last part the authors present a case study, explaining the advantages and challenges of such a collaborative effort and explain how they successfully obtained approvals to build a 12-storey mass timber housing project.

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设计驱动的模块化高层城市住宅参数化大质量木结构系统的开发

本文介绍了Lang Wilson事务所和建筑文化与智慧城市正在进行的研究和开发过程的结果，该研究始于2006年，是模块化中高层城市住宅的参数化大规模木结构系统。该系统的开发是为了系统地解决北美的城市住房危机，目前它被应用于加拿大地震带的两个住房项目，分别为4层和12层，是公司之前模块化住房项目的演变。本文的第一部分解释了城市住房的整体、设计驱动和参数化方法，以及基于平台的设计如何对适应性、可持续和定性的城市化至关重要。宜居性、可负担性和可持续性的标准为可定制的模块化木结构建筑系统的开发提供了信息，该系统可以适应网格间距和模块大小，以及地震带高达18层的结构要求。该建筑系统的开发是为了满足被动房认证和完全预制。系统内的结构创新减少了典型的模块化结构的双重材料层的冗余。在第二部分中，作者解释了建筑系统如何也是全参数化设计工具发展的结果，该工具不仅可以优化建筑类型，住宅布局甚至能耗，还可以自动适应所有大型木结构建筑元素的几何形状。在设计过程的早期阶段，这种高水平的参数化建筑信息密度允许设计师、建筑师和工程师进行前所未有的合作，同时确保可建造性。在最后一部分中，作者提出了一个案例研究，解释了这种合作努力的优势和挑战，并解释了他们如何成功地获得了建造12层大型木材住宅项目的批准。

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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Modular and Offsite Construction (MOC) Summit Proceedings

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