Beams

Strong and versatile metal products widely used in construction, structural work and various manufacturing solutions.

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Steel beams HEA
Steel beams HEA
Steel beams HEB
Steel beams HEB
Steel beams HEM
Steel beams HEM
Steel beams IPE
Steel beams IPE
Steel beams IPN
Steel beams IPN

FILTERS

Steel beams IPE (IPE 80; t 3.8 / 5.2)

made according to EN 10034
Dimensions, mm 80 x 46
TW / TF, mm 3.8 / 5.2
Theoretical weight, kg/m 6

Steel beams IPN (IPN 80; t 3.9 / 5.9)

made according to EN 10024
Dimensions, mm 80 x 42
TW / TF, mm 3.9 / 5.9
Theoretical weight, kg/m 5.95

Steel beams HEA (HEA 100; t 5.0 / 8.0)

made according to EN 10034
Dimensions, mm 96 x 100
TW / TF, mm 5.0 / 8.0
Theoretical weight, kg/m 16.7

Steel beams HEB (HEB 100; t 6.0 / 10.0)

made according to EN 10034
Dimensions, mm 100 x 100
TW / TF, mm 6.0 / 10.0
Theoretical weight, kg/m 20.4

Steel beams HEM (HEM 100; t 12.0 / 20.0)

made according to EN 10034
Dimensions, mm 120 x 106
TW / TF, mm 12.0 / 20.0
Theoretical weight, kg/m 41.8

Steel beams IPE (IPE 100; t 4.1 / 5.7)

made according to EN 10034
Dimensions, mm 100 x 55
TW / TF, mm 4.1 / 5.7
Theoretical weight, kg/m 8.1

Steel beams IPN (IPN 100; t 4.5 / 6.8)

made according to EN 10024
Dimensions, mm 100 x 50
TW / TF, mm 4.5 / 6.8
Theoretical weight, kg/m 8.32

Steel beams HEA (HEA 120; t 5.0 / 8.0)

made according to EN 10034
Dimensions, mm 114 x 120
TW / TF, mm 5.0 / 8.0
Theoretical weight, kg/m 19.9

Steel beams HEB (HEB 120; t 6.5 / 11.0)

made according to EN 10034
Dimensions, mm 120 x 120
TW / TF, mm 6.5 / 11.0
Theoretical weight, kg/m 26.7

Steel beams HEM (HEM 120; t 12.5 / 21.0)

made according to EN 10034
Dimensions, mm 140 x 126
TW / TF, mm 12.5 / 21.0
Theoretical weight, kg/m 52.1

Steel beams IPE (IPE 120; t 4.4 / 6.3)

made according to EN 10034
Dimensions, mm 120 x 64
TW / TF, mm 4.4 / 6.3
Theoretical weight, kg/m 10.4

Steel beams IPN (IPN 120; t 5.1 / 7.7)

made according to EN 10024
Dimensions, mm 120 x 58
TW / TF, mm 5.1 / 7.7
Theoretical weight, kg/m 11.20

Steel beams HEA (HEA 140; t 5.5 / 8.5)

made according to EN 10034
Dimensions, mm 133 x 140
TW / TF, mm 5.5 / 8.5
Theoretical weight, kg/m 24.7

Steel beams HEB (HEB 140; t 7.0 / 12.0)

made according to EN 10034
Dimensions, mm 140 x 140
TW / TF, mm 7.0 / 12.0
Theoretical weight, kg/m 33.7

Steel beams HEM (HEM 140; t 13.0 / 22.0)

made according to EN 10034
Dimensions, mm 160 x 146
TW / TF, mm 13.0 / 22.0
Theoretical weight, kg/m 63.2

Steel beams IPE (IPE 140; t 4.7 / 6.9)

made according to EN 10034
Dimensions, mm 140 x 73
TW / TF, mm 4.7 / 6.9
Theoretical weight, kg/m 12.9

Steel beams IPN (IPN 140; t 5.7 / 8.6)

made according to EN 10024
Dimensions, mm 140 x 66
TW / TF, mm 5.7 / 8.6
Theoretical weight, kg/m 14.40

Steel beams HEA (HEA 160; t 6.0 / 9.0)

made according to EN 10034
Dimensions, mm 152 x 160
TW / TF, mm 6.0 / 9.0
Theoretical weight, kg/m 30.4

Steel beams HEB (HEB 160; t 8.0 / 13.0)

made according to EN 10034
Dimensions, mm 160 x 160
TW / TF, mm 8.0 / 13.0
Theoretical weight, kg/m 42.6

Steel beams HEM (HEM 160; t 14.0 / 23.0)

made according to EN 10034
Dimensions, mm 180 x 166
TW / TF, mm 14.0 / 23.0
Theoretical weight, kg/m 76.2

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FREQUENTLY ASKED QUESTIONS

HOW DO I CHOOSE THE RIGHT METAL PROFILE FOR MY PROJECT?

The right choice depends on the project purpose, planned loads, installation location, and expected durability. Lighter structures often need smaller profiles, while larger projects require stronger solutions.

WHICH METAL THICKNESS IS BEST?

Metal thickness should be selected according to load, installation location, and structure type. If you are unsure, send us an inquiry and we will help choose the right option.

WHERE ARE METAL PROFILES MOST COMMONLY USED?

They are used in construction, production structures, frames, supports, gates, fences, and other metal product solutions.

ARE METAL PROFILES SUITABLE FOR OUTDOOR USE?

Yes, but outdoor conditions require the right coating, steel type, or additional corrosion protection.

WHAT IS THE DIFFERENCE BETWEEN SQUARE AND RECTANGULAR PROFILES?

Square profiles have equal sides, while rectangular profiles make it easier to distribute loads in a specific direction.