期刊
CONSTRUCTION AND BUILDING MATERIALS
卷 280, 期 -, 页码 -出版社
ELSEVIER SCI LTD
DOI: 10.1016/j.conbuildmat.2021.122508
关键词
Cross-laminated timber (CLT); Low-value hardwood; Flexural properties; Static bending test; Finite element modeling
资金
- Michigan Technological University [FS 17-JV-11111133-034]
- USDA Forest Service [FS 17-JV-11111133-034]
- USDA Forest Service, Forest Products Laboratory
The study examines the mechanical performance of low-value sugar maple CLT panels under out-of-plane loads and finds significant improvements in MOE and MOR compared to standard CLT types. Integrated experiment and simulation methods can provide detailed mechanical behaviors for low-value sugar maple CLT.
The objective of this study is to examine the mechanical performance of cross laminated timber (CLT) panels made of low-value sugar maple under out of plane loads through mechanical tests and numerical simulation. The laminations were sorted into High and Low classes based on the measured modulus of elasticity (MOE). Two 3-layer sugar maple CLT layups as High-Low-High and Low-High-Low glued with resorcinol-based adhesive and one CLT layup of High-Low-High glued with melamine-based adhesive were prepared. Block shear, long-span bending (span-to-depth ratio of 33:1) and short-span bending (5.5:1) tests were conducted to evaluate the bonding, flexural and shear behavior of these low-value sugar maple CLTs. With a limited sample size, the lab-manufactured low-value sugar maple CLT provided a 50% to 80% higher MOE and at least two times higher MOR than CLT type El from APA/PRG 320. Similar MOE and MOR improvements were found by comparing CLT made with other species from literatures. The finite element simulation of bending tests was conducted with the orthogonal constitutive law and the progressive damage model based on the calibrated material properties parameters from lumber rating and references. The simulation results on each CLT panel type have a reasonable comparison with experimental test data. Therefore, these integrated experiment and simulation methods can provide detailed mechanical behaviors of the low-value sugar maple CLT, which can also be applied to other CLT species and layup. (C) 2021 Elsevier Ltd. All rights reserved.
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