Profiled wire mesh
Mostostal Met carries an end-to-end fencing solution based on welded wire mesh panels, complete with fence posts and installation accessories.
The fence gates are available with sliding or swing leaves.
The available wire mesh panel sizes are 2,500 mm in width and 630 to 2,430 mm in height. The standard wire mesh size is 50x200 mm. Other spacing of vertical wires is available on request. The profiled wire mesh panels feature a number of wedge profiles to match the selected panel height to retain the required rigidity and impart great aesthetic value.
W × H [mm]
|Post height [mm]||No. of panel profiles
No. of clamps (S5 system) per post
|Wire dia. [mm]||Wight [kg]|
Profiled panel fencing, side view
See the selection of installation systems for the profiled wire mesh panels.
Find more details in the “Installation Systems” section of the website
The most effective anti-corrosive protection process for fencing products. In the hot-dip galvanising process, pre-treated steel parts are immersed in a solution of molten zinc which is held at a temperature of 440-460°C. The molten zinc reacts by diffusion with the steel surface, which builds an anti-corrosive layer of zinc. An advantage of hot-dip galvanising is that the process facilitates anti-corrosive zinc coating of surfaces hardly accessible in other types of protective processing, including the inner surfaces of hollow sections.
Selected atmosphere corrosivity categories, ref. PN-EN ISO 12944-5:
Corrosivity category: C2 – low atmospheric corrosivity
Outdoor environment: Atmospheres with a low level of pollution. Mostly rural areas.
Indoor environment: Unheated buildings where condensation may occur, e.g.. depots, warehouses, and sports halls.
Zinc coating reduction per year: 0,1 to 0,7 µm
Corrosivity category: C3 – medium atmospheric corrosivity
Outdoor environment: Urban and industrial atmospheres, moderate sulphur dioxide pollution. Coastal areas with low salinity.
Indoor environment: Production rooms with high humidity and some air pollution (food processing plants, laundries, breweries, and dairies).
Zinc coating reduction per year: 0,7 to 2,1 µm
|Part thickness||Zinc coating layer||Reduction per year||Estimated coating life|
|C2 atmospheric environment||C3 atmospheric environment||C2 atmospheric environment||C3 atmospheric environment|
|≤ 1,5 mm||45 µm||0,1 to 0,7 µm||0,7 to 2,1 µm||> 60 years||21 to 64 years|
|1,5 to 3,0 mm||55 µm||> 75 years||26 to 78 years|
|3,0 to 6,0 mm||70 µm||> 100 years||33 to 100 years|
|> 6,0 mm||80 µm||> 110 years||38 to 114 years|
Powder coating is a process of electrostatic deposition of powdered paint. Parts coated with electrostatically-charged powdered paint are “baked” in an oven at 180-200°C. The heat causes the powder to flow and form a continuous, durable and neat paint coat in a colour of choice.
Aside from providing decorative value, powder coats improve the corrosion resistance of fencing by the principle of coating interaction.