Engineered timber
Contents |
[edit] What is engineered timber?
‘Engineered timber’, also known as 'Mass timber', relates to wood-based composite materials. Typically, solid softwood is processed in a factory, combined with other materials (for example adhesives) and formed into a new material. These engineered timber products combine all the positive attributes of timber, for example strength, weight, sustainability etc, while removing some of the negative attributes, such as variability, stability and limited section sizes.
[edit] Is engineered timber better than natural timber?
Although timber is a strong, flexible, structural material it is also a natural material and so the strength properties can vary significantly based on features of the tree.
Engineered timber products help to overcome these issues by processing the timber and removing some of the variability of the natural material. Solid timber can be converted to particles, strands or laminates which can be combined with other materials, such as glues, to form composite wood products.
The principal reasons for transforming wood into engineered timber products include to:
- Transcend the dimensional limitations of sawn wood.
- Improve performance, structural properties, stability or flexibility
- Transform the natural material into a homogenous product.
- Utilise low-grade material, minimise waste and maximise the use of a valuable resource.
[edit] What are the advantages of engineered timber products?
The advantages of engineered timber products include:
- improved structural properties and dimensional stability
- large sections and lengths
- reduced overall wastage of the timber resource
- less material variability aesthetic variety utilisation of logs unsuitable for conversion to sawn timber.
In addition, the products are produced at low moisture contents therefore reducing the risk of movement due to drying in service in internal environments.
Since structural timber composites are factory produced, the only constraints on length and section size are the practicalities of transportation and handling. This offers many advantages to structural engineers. For example, long span/double spanning engineered I-joists can be used in the construction of multi-storey timber framed buildings. These long, multiple span I-joists help to improve the disproportionate collapse design of the building, making construction of the buildings more simple and cost effective.
[edit] What are the types of engineered timber products?
Engineered timber products include layed composites which are considered structural timber solutions. Their properties are consistent and they are typically stronger and longer spanning than solid timber sections:
Engineered timber products can also include particle composites such as:
- Parallel strand timber
- Particle boards
- Orientated strand board (OSB)
--Timber Development UK 16:52, 14 Dec 2022 (BST)
[edit] Related articles on Designing Buildings
- 11 things you didn't know about wood.
- A guide to the use of urban timber FB 50.
- Biomaterial.
- Carpentry.
- Chip carving.
- Cross-laminated timber.
- Facts about forestry.
- Glulam.
- Janka hardness rating scale.
- Laminated veneer lumber LVL.
- Modified wood.
- Nails - a brief history.
- Panelling.
- Physical Properties of Wood.
- Plywood.
- Sustainable timber.
- Testing timber.
- The differences between hardwood and softwood.
- Timber and healthy interiors.
- Timber vs wood.
- Types of timber.
- Wainscoting.
- Whole life carbon assessment of timber.
- Wood around the world.
- Wood, embodied carbon and operational carbon.
Featured articles and news
Permitted development rights for agricultural buildings
The changes coming into effect as of May 21, 2024.
Biodiversity and the built environment digital series
The nature of building, with CIOB and CWP.
A call for prevention and sensitive re-use.
Risks to the long-term effectiveness of the BNG scheme
National Audit Office publish review of Biodiversity Net Gain.
The CIAT principal designer register
Providing assurance and verification of the capability and competence of registered ATs.
Building Safety recommendations and Northern Ireland
The NI roadmap to improving safety in high rise residential.
Specifying rendered external wall insulation for fire safety
How to interrogate the evidence provided to the specifier.
The benefits of writing articles for your organisation
How to create a profile for your organisation and publish for free.
No Falls Week. The importance of safe working at height
What to expect and what is on offer to avoid accidents.
Scottish Government action to reach net-zero targets
Retrofit expert group highlight critical actions needed.
A forward thinking, inclusive global community of members.
From engineered product life-spans, to their extension.
Circular economy in the built environment
A brief description from 2021. Where are we now?
CLC publishes domestic retrofit competency framework
Roadmap of Skills for net zero.
Understanding is key to conservation.
Open industry engagement survey seeks responses
Institutions and the importance of engagement.
Comments
[edit] To make a comment about this article, click 'Add a comment' above. Separate your comments from any existing comments by inserting a horizontal line.