Withdrawal Capacity of a Novel Rigging Device for Prefabricated Wood I-Joist Floor Panels

Author:

Zhang Sigong1ORCID,Chui Ying Hei2ORCID,Joo David3

Affiliation:

1. School of Engineering, Newcastle University, Newcastle upon Tyne NE1 7RU, UK

2. Department of Civil and Environmental Engineering, University of Alberta, Edmonton, AB T6G 1H9, Canada

3. HausTec Ltd., Calgary, AB T3H 5H5, Canada

Abstract

Prefabricated wood construction relies heavily on efficient material handling, yet rigging system design for floor panels remains understudied. This study introduces a novel rigging device that attaches to prefabricated wood I-joist floor panels using self-tapping screws, avoiding potential damage caused by predrilled holes in the sheathing panels and framing members. To establish allowable lifting capacities and optimal installation practices, comprehensive withdrawal tests were conducted on 114-floor panel specimens. Factors influencing withdrawal capacity, such as anchor plate placements, flange materials and width, screw type and quantity, and sheathing panel thickness, were systematically evaluated. Results indicate that withdrawal capacity does not scale linearly with screw quantity and that anchor plates with eight screws centered on the flange enhance performance by up to 20% compared to four-screw configurations. Unexpectedly, thinner sheathing panels yielded higher capacities, potentially due to increased screw penetration depth in the joist flange. In addition, anchor plate orientation, flange width, and flange materials also impact capacity. These findings provide essential data for designing reliable and efficient rigging systems in prefabricated wood construction.

Funder

NSERC Engage Grants Program

Publisher

MDPI AG

Reference7 articles.

1. Ni, C., and Popovski, M. (2015). Mid-Rise Wood-Frame Construction Handbook, FPInnovations. [1st ed.].

2. Laboratory and Outdoor Weathering of Wood-Composite I-Joists;Way;J. Mater. Civ. Eng.,2018

3. MTC Solutions (2024). Rigging Design Guide, MTC Solutions Inc.. Version 2.0.

4. Withdrawal resistance of structural self-tapping screws parallel-to-grain in common Canadian timber species;Gutknecht;Can. J. Civ. Eng.,2019

5. Withdrawal capacity and strength of self-tapping screws on cross-laminated timber;Khai;Structures,2022

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