All systems
Technical sheet
A.01A.02
SystemS-16

Standing seam metal roof

A covering of metal sheet (zinc-titanium, copper, steel, aluminium) made of strips joined by raised vertical seams. The joint, lifted above the water plane, is watertight even at low pitch; hidden clips let the expanding metal slide. Light, extremely durable and with a clean line.

CoperturaContinuous metal covering with raised seams (standing seam)
B.01
System build-up6 layers
ESTERNOINTERNOPIOGGIA1. Manto aggraffato2. Separatore4. Assito5. Isolante6. Freno + struttura

Technical section of the system, from inside (left) to outside (right).

Continuous metal covering with raised seams (standing seam)
Trasmittanza U (tipica)
0,18-0,26W/m2K
Pendenza minima
5-7%
Altezza aggraffatura
25-38mm
Spessore lamiera
0,7-1,0mm
Durabilita manto
molto alta (50+ anni)
Reazione al fuoco manto
A1 (metallo)
Descriptive memo

A covering of metal sheet (zinc-titanium, copper, steel, aluminium) made of strips joined by raised vertical seams. The joint, lifted above the water plane, is watertight even at low pitch; hidden clips let the expanding metal slide. Light, extremely durable and with a clean line.

The standing seam roof solves the tightness of a metal roof with the geometry of the joint, not with sealants. The metal strips, as long as the slope, are joined along their edges with a raised double fold - the standing seam - that takes the joint well above the water plane. The fixing is hidden: clips hooked onto the fold hold the covering without piercing it.

The raised seam: tightness and low pitch

On a metal covering the water runs in the channels between one fold and the next; the weak point is the joint. By lifting it with a double seam of 25 mm and more, the joint stays above the level the water reaches even in driving rain and wind: the roof becomes watertight at far lower pitches than a discontinuous covering (down to 5-7%). No through-fixing pierces the covering in the field: tightness does not depend on gaskets that age.

Expansion and sliding clips

Metal expands greatly with heat: a long strip, warmed by the sun, lengthens by millimetres for every metre. If fixed rigidly, it would buckle or tear. For this reason the fixing clips are partly sliding (fixed clips and sliding clips): they hold the covering against the wind but let it move freely. The length of the slopes and the clip spacing are sized on the expansion coefficient of the chosen metal.

The downside of metal: condensation and noise

A metal covering has two weaknesses to manage. Condensation: the metal, cold and impervious, can cause the vapour arriving from inside to condense on its back; for this it is laid on a continuous support with a separating drainage layer and, above all, on a well-ventilated build-up with correct vapour control. Noise: rain and hail on metal are loud, and are attenuated by the solid support (boarding) and by the mass and insulation of the build-up below.

Systems architecture

Why it works

Raised seam · sliding clip
water stays below the seamsliding clip (thermal movement)raised seam

Tightness comes from geometry: the double seam takes the joint above the level the water reaches, so the roof is watertight even at low pitch, with no through-fixings or sealants. Partly sliding clips hold the covering against the wind but let the metal expand freely with heat.

Minimum pitch by covering type

Comparison · insulants
Standing seam metal
≈ 5-7%
Profiled metal sheet
≈ 10%
Tiles
≈ 30%
Timber shingles
≈ 35%

Shorter bar = works at a lower pitch. The raised seam takes the metal covering down to minimal pitches, where tiles would not be watertight.

Nodal details

Critical junctions · sections
12345
D.01
Standing seam and clip

The edges of two panels are folded together into a raised double seam, hooked onto a hidden clip fixed to the boarding: the joint stays above the water plane and without through-fixings.

  1. Boarding
  2. Fixed clip
  3. Double standing seam
  4. Panel edges
  5. Above the water plane
123456
D.02
Eaves (air intake)

At the eaves the covering folds into a drip edge over the gutter; below, an opening protected by a mesh lets air into the cavity above the insulation, ventilating the back of the metal and preventing condensation.

  1. Metal covering
  2. Drip edge
  3. Air intake (ventilation)
  4. Boarding + membrane
  5. Insulation
  6. Gutter

Installation controls

Specification · checklist

01 · Support

Continuous, flat, dry boarding
Separating drainage layer
Breathable membrane below

02 · Covering & clips

Fixed and sliding clips by calculation
Double seam done properly
Slope length and spacing checked

03 · Ventilation

Ventilated cavity under the metal
Intakes at eaves, vents at ridge
Vapour control on the inner side

04 · Singular points

Ridges, eaves and edges done properly
Galvanic compatibility of contacts
Flashings and valleys

05 · Safety

Fixings for the wind zone
Fall-arrest / snow guards
Access for maintenance

Recurring defects

Diagnostics · site
Meccanica
Buckling from blocked expansion
CauseAll-fixed clips, slopes too long: the metal cannot move.
PreventionSliding clips, lengths and spacing by calculation.
Termo-igrometrica
Condensation on the metal back
CauseCold metal, indoor vapour, no ventilation or vapour control.
PreventionSeparating drainage layer, ventilation, vapour control.
Adesione
Galvanic / contact corrosion
CauseIncompatible metals in contact, stagnant water.
PreventionSeparate the metals, avoid stagnation, compatible choices.
Biologica
Debris and moss in the channels
CauseDebris and moss in the channels at low pitch.
PreventionCleaning, adequate pitch, accessibility.

Component materials

The network · materials
Zinc alloy
Zinc-Titanium
LARICE A VISTA
Structural Solid Wood
Spruce / Larch (Carpentry Timber)
sp. 40–200 mm · λ 0.038–0.042 W/mKFIBRA LEGNO
Wood Fibre (WF)
Wood Fibre

Reference regulations

2 norms

Informational links to the regulatory framework. Always verify the current text on the official source.