Structural Hollow Sections · قطاعات مستطيلة

Rectangular Steel Tubes (RHS)

Cold-formed and hot-finished rectangular hollow sections from 40×20 mm to 400×200 mm — manufactured in Dammam to EN 10219, EN 10210 and ASTM A500 for beams, frames, lintels and structural fabrication.

40×20–400×200Size range
2.0–16 mmWall thickness
S235 / S355Grades
6 m / CutLengths

Standards

EN 10219EN 10210 · ASTM A500 · BS 4848

Section

40×20 – 400×200mm rectangular (custom on request)

Finish

Black / GalvMill, pre-galv, hot-dip, primed

Lead time

1–2 weeksStock items · custom 3–6 wks

EN 10219Cold-formed RHS
Overview · نظرة عامة

What is a rectangular hollow section?

A rectangular tube — or rectangular hollow section (RHS) — is a closed structural profile with two longer sides and two shorter sides and a uniform wall thickness. Concentrating material in the longer faces makes RHS exceptionally efficient about its major axis, so it carries more bending and deflects less than a square or round section of the same weight when loaded in one direction.

That makes rectangular tube the natural choice for beams, lintels, purlins and portal-frame rafters — anywhere load is predominantly vertical. Its flat, parallel faces also make it one of the easiest sections to weld, bolt, clad and connect on site.

Rouad Steel produces rectangular tube on dedicated ERW forming lines: steel strip is cold-roll-formed, high-frequency welded along the seam, then sized into a precise rectangular profile. Hot-finished sections (EN 10210) are available where tighter corner radii and relieved residual stresses are specified.

Mill test certificates (EN 10204 3.1) accompany every batch, covering chemical composition, mechanical properties and dimensional tolerances.

RHS vs SHS · مقارنة

Rectangular vs square hollow section

Both are box sections cut from the same grades and standards — the difference is geometry, and it decides where each one performs best.

A side-by-side comparison to help you specify the right profile for your load case.

→ scroll table
Feature Rectangular tube (RHS) Square tube (SHS)
Cross-sectionTwo long + two short sidesFour equal sides
Strength axisStronger about the major (long) axisEqual strength both axes
Best forBeams, lintels, purlins, raftersColumns, posts, frames
Load directionPredominantly one directionFrom any direction
Bending efficiencyHigher in the plane of the long faceUniform, lower than RHS on long axis
Typical sizes40×20 – 400×200 mm20×20 – 200×200 mm
ConnectionsFlat parallel faces — easy to weld/boltFlat faces — easy to weld/bolt
Standards & gradesEN 10219 / 10210 · S235 / S355EN 10219 / 10210 · S235 / S355

Rule of thumb: choose RHS when load is mostly vertical (a beam), and SHS when load can arrive from any direction (a column). Not sure which suits your design? Talk to our technical desk.

Orientation · المحاور

Major & minor axis — get the orientation right

Because a rectangular section is not symmetrical, how you orient it changes its capacity dramatically. The major axis (X–X) runs through the long faces and carries the most bending; the minor axis (Y–Y) runs through the short faces and is weaker.

For a beam, lay the section so the long face is vertical — in the plane of bending — to use the full depth of the profile. Stand it on the short face only when lateral stability or a low build-up height matters more than capacity.

Quick check: for the same weight, a 100×50 RHS on its long edge is far stiffer as a beam than the same tube laid flat — orient the depth in line with the load.

Major axis (X–X) · strongest Minor axis (Y–Y) · weaker
RHS cross-section — orient the long face in the plane of bending
Key Properties · الخصائص

Why engineers choose rectangular tube

A box section tuned for bending — efficient, flat-faced and easy to build with.

High major-axis capacity

Material in the long faces gives a high section modulus about the major axis — more bending strength per kilo as a beam.

Stiff, low-deflection beams

Greater depth in the plane of load means smaller deflections and longer clear spans without extra steel.

Easy to fabricate

Flat, parallel faces make welding, bolting and flush connections fast — and the wide face is simple to clad and fix.

Clean architectural look

Sharp, uniform faces suit exposed steelwork, frames, balustrades and façades with minimal finishing.

Corrosion options

Pre-galvanized, hot-dip galvanized and primed finishes extend service life in exposed and humid environments.

Predictable tolerances

Tight control on side lengths, squareness and straightness for repeatable, drama-free fit-up on site.

Types We Supply · الأنواع

Cold-formed, hot-finished & pre-galvanized RHS

01

Cold-formed (EN 10219)

Roll-formed and ERW-welded at ambient temperature. The most economical, widely-used RHS for general structural and fabrication work.

  • Grades S235JRH / S355J2H
  • Sharp, consistent corners
  • Best value for volume orders
02

Hot-finished (EN 10210)

Formed and normalized at elevated temperature for relieved residual stress and uniform properties — preferred for heavy or dynamically loaded beams.

  • Superior toughness & fatigue
  • Tighter corner radii
  • Ideal for seismic / cyclic loads
03

Pre-galvanized

Formed from zinc-coated strip for ready corrosion resistance, or hot-dip galvanized after fabrication for the heaviest-duty exposure.

  • Pre-galv & hot-dip options
  • Outdoor & humid environments
  • Lower lifecycle maintenance
Available finishes
Black / mill finish Oiled Red-oxide primed Pre-galvanized Hot-dip galvanized Painted to RAL
Size Chart · جدول المقاسات

Rectangular tube sizes & weights

Nominal mass per metre for carbon-steel RHS to EN 10219. Other sizes, walls and grades available — ask our team.

→ scroll table
Section (H × B) Wall t (mm) Mass (kg/m) Standard length
40 × 20 mm 2.0 1.68 6 m / cut-to-length
40 × 20 mm 2.5 2.03
40 × 20 mm 3.0 2.36
50 × 25 mm 2.0 2.15 6 m / cut-to-length
50 × 25 mm 2.5 2.62
50 × 25 mm 3.0 3.07
50 × 30 mm 2.5 2.82 6 m / cut-to-length
50 × 30 mm 3.0 3.30
50 × 30 mm 4.0 4.20
60 × 40 mm 2.5 3.61 6 m / cut-to-length
60 × 40 mm 3.0 4.25
60 × 40 mm 4.0 5.45
60 × 40 mm 5.0 6.56
80 × 40 mm 3.0 5.34 6 m / cut-to-length
80 × 40 mm 4.0 6.97
80 × 40 mm 5.0 8.54
80 × 40 mm 6.0 10.0
80 × 60 mm 3.0 6.28 6 m / cut-to-length
80 × 60 mm 4.0 8.23
80 × 60 mm 5.0 10.1
80 × 60 mm 6.0 11.9
100 × 50 mm 3.0 6.71 6 m / cut-to-length
100 × 50 mm 4.0 8.78
100 × 50 mm 5.0 10.8
100 × 50 mm 6.0 12.7
100 × 60 mm 3.0 7.22 6 m / cut-to-length
100 × 60 mm 4.0 9.48
100 × 60 mm 5.0 11.7
100 × 60 mm 6.0 13.8
100 × 60 mm 8.0 17.8
120 × 60 mm 4.0 10.7 6 m / cut-to-length
120 × 60 mm 5.0 13.3
120 × 60 mm 6.0 15.8
120 × 60 mm 8.0 20.7
120 × 80 mm 4.0 11.9 6 m / cut-to-length
120 × 80 mm 5.0 14.8
120 × 80 mm 6.0 17.5
120 × 80 mm 8.0 22.6
140 × 80 mm 5.0 16.3 6 m / cut-to-length
140 × 80 mm 6.0 19.4
140 × 80 mm 8.0 25.1
140 × 80 mm 10.0 30.4
150 × 100 mm 5.0 18.6 6 m / cut-to-length
150 × 100 mm 6.0 22.1
150 × 100 mm 8.0 28.7
150 × 100 mm 10.0 34.8
150 × 100 mm 12.0 40.4
160 × 80 mm 5.0 17.8 6 m / cut-to-length
160 × 80 mm 6.0 21.2
160 × 80 mm 8.0 27.6
160 × 80 mm 10.0 33.7
200 × 100 mm 5.0 22.6 6 m / cut-to-length
200 × 100 mm 6.0 26.8
200 × 100 mm 8.0 35.1
200 × 100 mm 10.0 43.1
200 × 100 mm 12.0 50.7
200 × 120 mm 6.0 28.7 6 m / cut-to-length
200 × 120 mm 8.0 37.6
200 × 120 mm 10.0 46.3
200 × 120 mm 12.0 54.6
250 × 150 mm 6.0 36.2 6 m / cut-to-length
250 × 150 mm 8.0 47.7
250 × 150 mm 10.0 58.8
250 × 150 mm 12.0 69.6
250 × 150 mm 16.0 89.0
300 × 200 mm 8.0 59.3 6 m / cut-to-length
300 × 200 mm 10.0 73.6
300 × 200 mm 12.0 87.4
300 × 200 mm 16.0 114
400 × 200 mm 8.0 72.8 6 m / cut-to-length
400 × 200 mm 10.0 90.2
400 × 200 mm 12.0 107
400 × 200 mm 16.0 139

Weights are indicative and rounded. H = depth (long side), B = width (short side). Tolerances on mass, dimensions and straightness are per the relevant standard. Need a stock list or a section not shown here? Contact our sales desk.

Selection Guide · دليل الاختيار

How to choose the right rectangular tube

Four quick checks that get you to the correct section — share these with your quote and we will confirm the rest.

Define the load & span

Work out the load it must carry and the clear span. Heavier loads or longer spans call for a deeper section (a larger H dimension).

Pick depth, then width

Choose the depth (H) for bending strength, then the width (B) for lateral stability, fixing room and the look you need.

Set the wall thickness

Thicker walls add capacity and weldable material. Match thickness to load, connection detail and any corrosion allowance.

Choose grade & finish

S275 or S355 for most structures; add pre-galv or hot-dip galvanizing for outdoor service. Specify the standard (EN 10219 / 10210).

Applications · الاستخدامات

Where rectangular tube is used

From structural beams to architectural metalwork, rectangular tube is the section of choice wherever load runs mainly one way.

  • Beams, purlins & rafters
  • Lintels over door & window openings
  • Portal-frame rafters & columns
  • Mezzanine & platform beams
  • Goalpost & gantry frames
  • Truck, trailer & chassis rails
  • Crane runways & conveyor supports
  • Bridge, walkway & handrail members
  • Signage gantries & billboards
  • Display stands, racking & shelving
  • Solar & PV mounting beams
  • Furniture & equipment frames
S355J2HStructural grade

Need rectangular tube for a project?

Send us your cutting list or BOQ — we reply with pricing, weights and mill test certificates within 24 hours.

Standards & Grades · المعايير

Specifications we manufacture to

Standard Type Common grades Notes
EN 10219Cold-formed weldedS235JRH, S355J2HGeneral structural RHS
EN 10210Hot-finished weldedS275J2H, S355J2HHeavy / dynamic loads
ASTM A500Cold-formed weldedGr B, Gr CUS structural tubing
BS 4848-2Hot-finishedS275, S355Legacy UK projects
ASTM A1085Cold-formed weldedGr ATighter tolerances · on request
FAQ · الأسئلة الشائعة

Rectangular tube — common questions

What is a rectangular hollow section (RHS)?
A rectangular hollow section (RHS) is a closed structural steel tube with two longer sides and two shorter sides. The unequal dimensions give it greater strength about its major (long) axis, making it efficient for beams, lintels and members loaded mainly in one direction.
What sizes of rectangular tube do you supply?
Rectangular hollow sections from 40×20 mm up to 400×200 mm, with wall thickness from 2.0 mm to 16 mm. Larger or custom sections are available on request.
What is the difference between RHS and SHS?
RHS (rectangular hollow section) has two longer and two shorter sides, giving more bending capacity about its long axis — ideal for beams and lintels. SHS (square hollow section) has four equal sides and equal strength about both axes — ideal for columns and posts.
Which is stronger — rectangular or square tube?
For the same steel weight, a rectangular tube is stronger and stiffer about its major (long) axis, so it carries more bending in that direction. A square tube is stronger overall when load can come from any direction. Orient the long face of RHS in the plane of bending for best performance.
What standards and grades apply to RHS?
EN 10219 (cold-formed) and EN 10210 (hot-finished) in S235JRH / S355J2H, plus ASTM A500 Gr B/C and BS 4848 equivalents.
What is the standard length of rectangular tube?
Standard mill length is 6 metres. We also cut to fixed or random lengths and bundle to your project requirement.
Can rectangular tubes be galvanized?
Yes. We supply pre-galvanized and hot-dip galvanized rectangular tube, as well as primer-painted and black (mill) finish.
How do I calculate the weight of a rectangular tube?
Mass per metre is approximately the cross-sectional area multiplied by 0.00785 kg per square centimetre per metre for steel. Use our RHS size & weight chart above for nominal mass, or send your size and wall thickness and we will confirm the exact weight.

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