wooden
This article is available also in Spanish here

Is it feasible to use wood in major constructions?

My list

Author | M. Martínez Euklidiadas

Wood has been the material of choice for thousands of years. Readily available, easy to treat and resistant, it made up the first columns, planks were used to make beams and it helped build bridges or railway lines. But humidity, pests or fire made them vulnerable compared with steel. Is it time to go back to wood as a structural material?

Fire, plagues and damp: why did we abandon wood as a structural material?

Wood is an incredibly versatile material It is capable of withstanding compression, traction, bending, shear or torsional stress, which is why it has been used for thousands of years in all types of structures, from low-rise houses to major engineering projects or machines such as carriages or ships. But the rise in popularity of steel and affordable concrete, marked the relegation of wood.

Unlike wood, steel does not rot, it lasts longer, it is much more stress-resistant and it does not burn. The combination of steel plus concrete as reinforced concrete is capable of reaching considerable heights (not always desirable after a certain height), increasing urban efficiency and in turn reducing the environmental impact. It is not surprising that wood slipped into the background.

The extremely high flammability of dry wood is probably its greatest defect and the reason behind most deaths in the past. Most centenary cities have completely burned down on numerous occasions. Porosity and the capacity to house insects led to deposits of parasites in the past, together with diseases. Have these issues been resolved?

The use of wood in construction is increasing worldwide

wooden building 2

As indicated by organizations such as Mass Timber Institute or WoodWorks the number of buildings in using wooden columns (vertical) and beams (horizontal) have continued to increase over the last decade. In the case of Ascent, the world’s highest mixed-use skyscraper (wood-concrete) (it has a reinforced concrete structure at its base and nucleus), or the Mjostarnet, in Norway, the tallest wooden building.

In these buildings, the wood has been treated to prevent fires, but the prevention and extinction systems have also been improved. They have to meet the same safety requirements as any other building of the same characteristics, therefore they are as safe, if not safer, than any other type of building.

The main benefits of building with wood

The advantages of building with wood include:

Simplified construction. It has been proven that working with wooden beams and columns is easier than doing so with concrete elements. They not only require less energy because of their own lower weight, but the joints require less workforce and complexity.. This allows for faster construction. It is an interesting solution given the lack of interest among younger generations in certain skilled trades.

It retains CO₂. Wood is an interesting way of retaining CO₂, and it could be an ecological solution provided certain points are met. One, that it lasts for decades before being reprocessed as waste. Two, that it comes from sustainable environments and does not contribute to forest degradation.

Improves health. As explained in the paper ‘Human physiological responses to wooden indoor environment’ and in many other similar ones, it is a fact that people who live in wooden indoor environments have better mental health indicators.

As the climate crisis concern increases, everything seems to indicate that timber buildings will become more relevant.

Images | Nazrin Babashova, Tom Podmore

Related content

Recommended profiles for you

AK
Aashit Khant
Shashvat Corporation
Director of the Shashvat Corporation. One of the leading companies in Real Estate.
彭彭
彭双双 彭
自由职业
文邓
文浩 邓
amanzaon
AP
Abbie Pokorny
Dentons LLP
Senior Associate
AS
Aarti Shah
Co-REGEN
XB
Xiao Bian
Renmin University of China & University of Groningen
AA
Aamer Azeemi
Petrus Consulting LLC
Managing Consultant
AN
ABASSI Narjess
Head Unit of Next Generation Network Engineering and Approval of Telecommunications Access Networks studies
Head Unit of NGN Engineering and Approval of \\nTelecommunications Access Networks studies
XW
xia wu
11111
AH
Aaron Huang
SHANGHAI LONG-JOIN INTELLIGENT TECHNOLOGY INC.
LONGJOIN® Photocell Manufacturer engineer /photocell /zhaga book 18
DC
Diego Castañeda
BUAP
AA
Abdulaziz Almogren
SILZ
佳陶
佳 陶
同济大学
文徐
文康 徐
东南大学
AD
Aashna Dodhia
KPMG
NN
Neo Natt
aitortilla books
MB
max burks
university
ET
Esther Tu
Le Quy Don Highschool
Karolína Čuntalová
VUT
ON
ouqwf nasv
js