Load bars at 20mm centres
Load Bar size 20x3mm
Cross-road pitch bars @ 100mm centres
Spans up to 1.5 metres between supports
80% open area allows for easy cleaning
Available untreated or galvanised
Forgebar Grating 30 Series
Forgebar Series 30 grating - load bars @ 30mm centres
Load Bar Size - 20x3mm to 65x5mm
Available plain or serrated, for increased traction, this profile of grating is used extensively due to it's high load carrying capability.
Can be supplied with cross-road pitch bars @
1. 100mm centres ( A30)
2. 50mm centres (B30) providing additional strength for higher impact
Forgebar Grating 40 Series
SERIES 40 GRATING - 40mm CENTRES
Series 40 forgebar grating is lightweight and economical, meeting the relevant code for fixed platforms, walkways, stairs and ladders. It is the ideal product for mezzanine floors, cat walks, conveyors etc.
Series 40 can also be supplied in a serrated finish.
Forgebar Grating 60 series
SERIES 60 GRATING - 60mm centres
Developed for the mining industry, series 60 grating has larger openings. This allows most materials to fall through and minimises build-up of spillage on platform floors, making for a safer walking surface. However, being very light, this profile of grating is not suitable for high impact loads. It has only 50% of the load bearing capacity of Series 30 grating.
Forgebar Grating Stair Treads
Stair treads can be supplied in Forgebar Series 30, 40 or 60. Overall tread length can be made to any dimension. Please feel free to contact us in regard to recommended widths.
Whatever the depth of the main flooring, we recommend that stair treads should never have less than a 25 x 5 Load Bar size.
Stair treads wear at a greater rate than the actual flooring and are more inclined to become bowed because of continual and concentrated impact.
Nosings help to define the edge of the tread. Without Nosing Bars, the pattern of the grating tends to merge when walking down stairs, which can result in over or under stepping. The Nosing Bar also stiffens the front edge of the tread, helping resist deflection caused by impact loads.