Plasticity in construction
The term 'plasticity' refers to the degree to which as material has the characteristic of being easily shaped, moulded or formed. More specifically in terms of material science and building physics it relates to the terms plastic region and plastic deformation - where a material is unable to retain elasticity (return to its original shape), or as such has the ability to undergo permanent deformation in response to forces being applied. It is the middle stage of the characteristic behaviour of materials under stress and strain from forces being applied, the first stage being elasticity and the last stage being fracture or failure.
It is important to note that plasticity refers to a materials characteristics rather than being a reference to a particular type of material, such as plastic.
For example, natural clay has the characteristic of plasticity because it can be moulded into any shape, but also wood can have the characteristic of plasticity, where timber beams for example over years become permanently bowed but retain their strength and do not reach fracture point.
Plastics may also posses plasticity as a characteristic when they are heated and moulded into for example building components.
The level that a material can sustain plastic deformation under tensile force is referred to as ductility, whilst a material's ability to deform plastically without failing under compressive stresses is referred to as malleability.
A material that has a very small plastic region and potentially elastic region also is referred to as brittle.
[edit] Related articles on Designing Buildings
Featured articles and news
Inspiring the next generation to fulfil an electrified future
Technical Manager at ECA on the importance of engagement between industry and education.
Repairing historic stone and slate roofs
The need for a code of practice and technical advice note.
Environmental compliance; a checklist for 2026
Legislative changes, policy shifts, phased rollouts, and compliance updates to be aware of.
UKCW London to tackle sector’s most pressing issues
AI and skills development, ecology and the environment, policy and planning and more.
Managing building safety risks
Across an existing residential portfolio; a client's perspective.
ECA support for Gate Safe’s Safe School Gates Campaign.
Core construction skills explained
Preparing for a career in construction.
Retrofitting for resilience with the Leicester Resilience Hub
Community-serving facilities, enhanced as support and essential services for climate-related disruptions.
Some of the articles relating to water, here to browse. Any missing?
Recognisable Gothic characters, designed to dramatically spout water away from buildings.
A case study and a warning to would-be developers
Creating four dwellings... after half a century of doing this job, why, oh why, is it so difficult?
Reform of the fire engineering profession
Fire Engineers Advisory Panel: Authoritative Statement, reactions and next steps.
Restoration and renewal of the Palace of Westminster
A complex project of cultural significance from full decant to EMI, opportunities and a potential a way forward.
Apprenticeships and the responsibility we share
Perspectives from the CIOB President as National Apprentice Week comes to a close.
The first line of defence against rain, wind and snow.
Building Safety recap January, 2026
What we missed at the end of last year, and at the start of this.
Comments
[edit] To make a comment about this article, or to suggest changes, click 'Add a comment' above. Separate your comments from any existing comments by inserting a horizontal line.