Freeze-thaw Effect on the mechanical properties of different wood species: impact of moisture content variations, microscopic morphology, and thermal modification in a selected species
Abstract This study investigates changes in the mechanical qualities (such as the deformation capacity, compressive strength, and compressive stiffness) of structural timber due to freezing and thawing cycles. Ten (10) specimens, including nine (9) distinct wood species, were assessed, with one from...
Saved in:
| Main Authors: | , , , , , |
|---|---|
| Format: | Article |
| Language: | English |
| Published: |
SpringerOpen
2024-12-01
|
| Series: | Journal of Infrastructure Preservation and Resilience |
| Online Access: | https://doi.org/10.1186/s43065-024-00108-w |
| Tags: |
Add Tag
No Tags, Be the first to tag this record!
|
| _version_ | 1846121861307432960 |
|---|---|
| author | Stephen Asare Megan Stoescu Luis Balmori Srinivas Allena Emmanuel Kidando Josiah Owusu-Danquah |
| author_facet | Stephen Asare Megan Stoescu Luis Balmori Srinivas Allena Emmanuel Kidando Josiah Owusu-Danquah |
| author_sort | Stephen Asare |
| collection | DOAJ |
| description | Abstract This study investigates changes in the mechanical qualities (such as the deformation capacity, compressive strength, and compressive stiffness) of structural timber due to freezing and thawing cycles. Ten (10) specimens, including nine (9) distinct wood species, were assessed, with one from a thermally modified version of a specific species. The findings indicated that by the end of 60 full freeze-thaw cycles, the mechanical qualities had generally deteriorated for all wood species; however, the rate of reduction in these properties varied depending on the type of wood. The maximum reduction of the deformation capacity was evaluated as 16.2% for Iroko, and the lowest was 0.1% for Mahogany. Again, an average decrease of 29.5% was observed in the stiffness of Mahogany, while the least change in the stiffness was 4% for Soft Maple wood. To expound on the possible changes in the wood surface profile and fibers during freeze and thaw cycles of 20, 40, and 60, a scanning electron microscope (SEM) analysis was also conducted. It was observed that the overall fiber density variation, due to the distribution of developed cracks and pores, accounts for the different responses in each complete set of cycles. Some of the wood species showed a progressive decrease in the fiber density from 0 to 60 freeze-thaw cycles, while others exhibited some surging effects. This explains the possibility of some of the wood’s mechanical properties increasing between cycles of freeze-thaw action (before finally reducing). For the first time, the impact of prior thermal treatment on the freeze-thaw resistance of wood was also investigated. It was seen that thermally modified Red Oak showed improved resistance to freeze-thaw in terms of compressive stiffness when compared to untreated Red Oak. However, the deformation capacity and compressive strength declined in the thermally modified wood compared to the untreated wood. |
| format | Article |
| id | doaj-art-705c62c78bed4d37bb3e54af111fa60c |
| institution | Kabale University |
| issn | 2662-2521 |
| language | English |
| publishDate | 2024-12-01 |
| publisher | SpringerOpen |
| record_format | Article |
| series | Journal of Infrastructure Preservation and Resilience |
| spelling | doaj-art-705c62c78bed4d37bb3e54af111fa60c2024-12-15T12:07:27ZengSpringerOpenJournal of Infrastructure Preservation and Resilience2662-25212024-12-015111910.1186/s43065-024-00108-wFreeze-thaw Effect on the mechanical properties of different wood species: impact of moisture content variations, microscopic morphology, and thermal modification in a selected speciesStephen Asare0Megan Stoescu1Luis Balmori2Srinivas Allena3Emmanuel Kidando4Josiah Owusu-Danquah5Graduate student, Department of Civil and Environmental EngineeringUndergraduate students, Department of Civil and Environmental EngineeringUndergraduate students, Department of Civil and Environmental EngineeringFaculty, Department of Civil and Environmental EngineeringFaculty, Department of Civil and Environmental EngineeringFaculty, Department of Civil and Environmental EngineeringAbstract This study investigates changes in the mechanical qualities (such as the deformation capacity, compressive strength, and compressive stiffness) of structural timber due to freezing and thawing cycles. Ten (10) specimens, including nine (9) distinct wood species, were assessed, with one from a thermally modified version of a specific species. The findings indicated that by the end of 60 full freeze-thaw cycles, the mechanical qualities had generally deteriorated for all wood species; however, the rate of reduction in these properties varied depending on the type of wood. The maximum reduction of the deformation capacity was evaluated as 16.2% for Iroko, and the lowest was 0.1% for Mahogany. Again, an average decrease of 29.5% was observed in the stiffness of Mahogany, while the least change in the stiffness was 4% for Soft Maple wood. To expound on the possible changes in the wood surface profile and fibers during freeze and thaw cycles of 20, 40, and 60, a scanning electron microscope (SEM) analysis was also conducted. It was observed that the overall fiber density variation, due to the distribution of developed cracks and pores, accounts for the different responses in each complete set of cycles. Some of the wood species showed a progressive decrease in the fiber density from 0 to 60 freeze-thaw cycles, while others exhibited some surging effects. This explains the possibility of some of the wood’s mechanical properties increasing between cycles of freeze-thaw action (before finally reducing). For the first time, the impact of prior thermal treatment on the freeze-thaw resistance of wood was also investigated. It was seen that thermally modified Red Oak showed improved resistance to freeze-thaw in terms of compressive stiffness when compared to untreated Red Oak. However, the deformation capacity and compressive strength declined in the thermally modified wood compared to the untreated wood.https://doi.org/10.1186/s43065-024-00108-w |
| spellingShingle | Stephen Asare Megan Stoescu Luis Balmori Srinivas Allena Emmanuel Kidando Josiah Owusu-Danquah Freeze-thaw Effect on the mechanical properties of different wood species: impact of moisture content variations, microscopic morphology, and thermal modification in a selected species Journal of Infrastructure Preservation and Resilience |
| title | Freeze-thaw Effect on the mechanical properties of different wood species: impact of moisture content variations, microscopic morphology, and thermal modification in a selected species |
| title_full | Freeze-thaw Effect on the mechanical properties of different wood species: impact of moisture content variations, microscopic morphology, and thermal modification in a selected species |
| title_fullStr | Freeze-thaw Effect on the mechanical properties of different wood species: impact of moisture content variations, microscopic morphology, and thermal modification in a selected species |
| title_full_unstemmed | Freeze-thaw Effect on the mechanical properties of different wood species: impact of moisture content variations, microscopic morphology, and thermal modification in a selected species |
| title_short | Freeze-thaw Effect on the mechanical properties of different wood species: impact of moisture content variations, microscopic morphology, and thermal modification in a selected species |
| title_sort | freeze thaw effect on the mechanical properties of different wood species impact of moisture content variations microscopic morphology and thermal modification in a selected species |
| url | https://doi.org/10.1186/s43065-024-00108-w |
| work_keys_str_mv | AT stephenasare freezethaweffectonthemechanicalpropertiesofdifferentwoodspeciesimpactofmoisturecontentvariationsmicroscopicmorphologyandthermalmodificationinaselectedspecies AT meganstoescu freezethaweffectonthemechanicalpropertiesofdifferentwoodspeciesimpactofmoisturecontentvariationsmicroscopicmorphologyandthermalmodificationinaselectedspecies AT luisbalmori freezethaweffectonthemechanicalpropertiesofdifferentwoodspeciesimpactofmoisturecontentvariationsmicroscopicmorphologyandthermalmodificationinaselectedspecies AT srinivasallena freezethaweffectonthemechanicalpropertiesofdifferentwoodspeciesimpactofmoisturecontentvariationsmicroscopicmorphologyandthermalmodificationinaselectedspecies AT emmanuelkidando freezethaweffectonthemechanicalpropertiesofdifferentwoodspeciesimpactofmoisturecontentvariationsmicroscopicmorphologyandthermalmodificationinaselectedspecies AT josiahowusudanquah freezethaweffectonthemechanicalpropertiesofdifferentwoodspeciesimpactofmoisturecontentvariationsmicroscopicmorphologyandthermalmodificationinaselectedspecies |