DJ Cooper Building Conservation

image link to close detail window
Open in New Window
image link to close detail window
Open in New Window

Since 1989, customers have relied on DJ Cooper to clean a wide range of surfaces using a variety of methods.

This experience enables us to choose the most effective and gentle method needed to complete any given project cost effectively, with no damage to the substrate.

From  churches and listed buildings through to bus stops and private houses, contaminants have been removed from surfaces, some of which were extremely delicate, with perfect results and no damage.

As a small firm, you know that when you contact us, you will be speaking directly to someone with broad knowledge of old buildings and many years of experience in the construction industry.

If you would like to see samples for architect / client approval, just let us know. Whether your organisation is large or small, we are used to working alongside your architects, conservation officers and contractors to get the best possible result.

Our specialists clean:

  • Masonry, Brickwork & Concrete
  • Wood (Beams & Patios)
  • Ferrous Metal & Some Non-Ferrous Metals
To remove:
  • Graffiti - promptly and carefully
  • Smoke damage
  • Paint
  • Bird droppings
  • Air pollution residues
  • Organic matter (slime and moss)
  • Grease
For details of the Doff Torc systems, pressure washing, sandblasting and poultice cleaning methods, to to our Cleaning Processes Page.

An image of Sandblasting goes here.
--Request Information-- Photo from Featured Project near Cirencester, Gloucestershire
Sandblasting

Abrasive blasting, commonly referred to as 'Sandblasting', is the operation of forcibly propelling a stream of abrasive material against a surface under high pressure to smooth a rough surface, roughen a smooth surface, shape a surface, or remove surface contaminants.

Despite the common use of the term, it is illegal in the UK to use most forms of sand for abrasive blasting, as the fine dust particles which are created when the sand is projected at high speed, can cause silicosis – a potentially fatal lung disease.

With a wide choice of abrasive media available, the process can be fine tuned to suit the contamination to be removed and the surface from which it is to be cleaned. By choosing correctly and applying the process skilfully, excellent results can be achieved on a great variety of cleaning tasks.

There are several variants of the process, using various media; some are highly abrasive, whereas others are milder. The most abrasive are shot blasting (with metal shot) and sandblasting (with sand). Moderately abrasive variants include glass bead blasting (with glass beads) and plastic media blasting (PMB) with ground-up plastic stock or walnut shells and corncobs. Some of these substances can cause anaphylactic shock to both operators and passers by.[2] A mild version is sodablasting (with baking soda). In addition, there are alternatives that are barely abrasive or nonabrasive, such as ice blasting and dry-ice blasting.

Use of cookies. Mouse over here for details.

Use of cookies on this web site: DJ Cooper Building Conservation collects no personally identifiable data in cookies. However, a number of social media and search engine companies place tracking cookies without our consent or co-operation. If you wish to avoid tracking, please read our cookies policy, where you will find links to resources that will help you set your browser accordingly.
Show Cookies Policy
Accept & Continue
Join Mailing List
Home | Processes | Testimonials | Gallery | Videos | What's New? | Contact | Data Protection | Areas Served | Links© Content copyright DJ Cooper Building Conservation 2024    Sitemap   Layout and CMS ©The Village Websmith  contact websmith Page generated in 0.0068 seconds.
Home | Processes | Testimonials | Gallery | Videos | What's New? | Contact | Data Protection | Areas Served | Links© Content copyright DJ Cooper Building Conservation 2024    Sitemap   Layout and CMS ©The Village Websmith  contact websmith Page generated in 0.0068 seconds.