The Department of Defence & No Bolt partner to solve the problem of safely accessing and maintaining medium and heavy vehicles.
On Monday 4th March 2019, representatives from No Bolt travelled to Victoria Barracks to meet with representatives from the LAND 121 – Phase 3B team to formally recognise a project milestone with the delivery of the 100th Working-at-Heights (WAH) Platform. (No Bolt has delivered a further 19 units since the production of the 100th platform).
No Bolt was presented with a certificate of appreciation recognising No Bolt’s contribution to the Australian Defence Force; in particular the provision of WAH Platforms, which enable safe maintenance of the ADF’s medium and heavy vehicle capability.
Will Collie, No Bolt Managing Director commented “we are thrilled to be recognised by such an important client. We are small enough to provide a high level of personal service and responsiveness, but also have the capability to work with such a sophisticated client with a complex set of requirements and standards.”
To recognise the delivery of the 100th WAH Platform, No Bolt created a scale miniature using our 3D printer and mounted it to an aluminium angle which had been treated with a hydrographically applied camouflage print. Like our platforms, the scaled version was designed and manufactured locally in Melbourne.
The Certificate of Appreciation recognised No Bolt “For its contribution to The Australian Defence Force; in particular the provision of Working-at-Heights Maintenance Platforms, which enable safe maintenance of The Australian Defence Force’s Medium and Heavy Logistics vehicle capability. No Bolt Operations has been a truly exemplar Small to Medium Enterprise contractor over the past two years, designing, manufacturing and delivering high-quality maintenance platforms on a budget and to schedule. No Bolt Operations continues to demonstrate their commitment to being a trusted and proven Australian defence industry parter”
Representatives from the Department of Defence
& No Bolt
The 3d printed model.