Testimonials

“Lands’ End is a well known clothing retailer which operates from their 240,000 square foot, state of the art distribution centre in Rutland. The company has been in the industry since 1963 and has grown from their origins in Wisconsin, USA to supply most of Europe through their online network.

Quantum Construction worked on the multi million pound extension to their European distribution centre, delivering the project ahead of schedule whilst meeting the detailed environmental challenges imposed by the client.

Adam Osbourne, Facilities Manager for the Lands’ End Company says, “Quantum Construction has provided our company with a successful and efficient service on the extension of our facility. They are always ready and willing to help with any enquiry and we are extremely pleased with the service our company has received.”



LANDS' END

Projects - Enterprise Park, Leominster
Enterprise Park, Leominster

Download Project Specification Sheet PDF
Project:
Enterprise Park, Leominster
Location:
Owen Way, Yeoman’s Drive, Leominster
Value:
£2.69m
Client:
FH Dale Ltd
Contract:
JCT Design & Build Contract 2011 with amendments
Duration:
32 Weeks
Architect:
The Harris Partnership Ltd
Structural Engineer:
Cambria Consulting Ltd
 
Download Project Specification Sheet PDF

The project consisted of a 134,000 sq. ft. (12,450 sq. m) industrial building with additional office space.

Following a cut and fill exercise the greenfield site was relatively straightforward to prepare for the steel frame.

The internal slab incorporated specialist machine bases, underfloor service ducting, loading pits and a low level loading area accessible by a ramp to the main level.

The superstructure incorporated cladding to FH Dale’s corporate colours alongside an assortment of vehicle and pedestrian doors whilst the steel frame incorporated a number of crane rails to enable future materials to pass through the building.

The majority of the external area was designated as stone yard area and utilised a permeable design to aid with the drainage of the site and hence reduce the impact on the local system.