Technical sheet

A.01A.02

SystemS-25

Stone ventilated façade

A façade clad in natural-stone slabs hooked onto a metal subframe, held off the insulation by a continuous air cavity. The stone acts as an advanced screen that intercepts rain and sun; the air flowing behind it carries away moisture and heat. The open joints between the slabs do not seal but drain: tightness is entrusted to geometry and the cavity, not to silicone.

Facciata ventilataBack-ventilated rainscreen cladding

B.01

System build-up6 layers

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

Back-ventilated rainscreen cladding

Spessore delle lastre

2-4cm

Intercapedine d'aria

3-6cm

Isolante (lana di roccia)

10-16cm

Peso del rivestimento

50-110kg/m2

Reazione al fuoco (pietra)

Aperture di ventilazione

≥ 50cm2/m

Descriptive memo

The stone ventilated façade is an «advanced screen» (rainscreen) cladding: the stone slabs are not bonded to the wall but hung in front of it, on a subframe of aluminium or stainless-steel profiles, with an air cavity between the cladding and the insulation. It is an envelope of separate layers, in which each element does a single job.

The screen and the cavity

Driving rain strikes the stone, but most of it runs off the outer face; the little that gets through the open joints meets the cavity at once and drains away, without reaching the insulation. The air in the cavity, warmed by the sun, rises by the stack effect and is continuously renewed from eaves to top: it carries off moisture and heat, keeping the insulation dry and the wall cool in summer.

Carrying the weight: clips and subframe

Stone is heavy, and the system lives on its anchors. Each slab is held by clips or undercut anchors set into holes or kerfs on its back and edges, which carry its weight and restrain it against the wind (and the earthquake). The subframe transfers the loads to a few fixed points on the structure, while the other anchors slide to follow thermal movement without restraining the stone.

Joints, maintenance and durability

The open joints give the typical regular pattern and let a single slab be removed and replaced. Durability is high because the insulation is protected and dry and the stone, ventilated at the back, holds no moisture. Care goes to the flatness of the subframe, the thermal bridges of the brackets (with thermal-break spacers) and the edges: eaves, corners and the base where the cavity takes in and exhausts the air.

Systems architecture

Why it works

Advanced screen · drained, ventilated joint

Tightness is not entrusted to a continuous seal but to a sequence: the stone stops most of the rain; the little that passes the open joint enters the cavity and drains away at once, before it touches the insulation. The air in that same space, warmed by the sun, rises by the stack effect and renews itself continuously, carrying off moisture and heat. The insulation thus stays always dry and protected, and in summer the wall heats far less: the façade «breathes» instead of sealing.

Insulation protection and durability

Comparison · insulants

Stone ventilated façade

highest

Lightweight ventilated façade

high

ETICS (external insulation)

medium

Bonded cladding

low

Longer bar = the better the system keeps the insulation dry and protected, and the longer it lasts. Separating the layers and back-ventilating beats bonded systems, where the insulation is exposed to weather.

Nodal details

Critical junctions · sections

D.01

Bracket and anchor

A bracket fixed to the wall carries the rail across the insulation; a thermal-break spacer cuts the bridge. The stone slab hangs from clips or undercut anchors set into its edge, which take the weight and hold it against the wind.

Backing wall
Insulation (rock wool)
Bracket with thermal break
Vertical rail
Clip / undercut anchor
Stone slab

D.02

Base and air inlet

At the base the cladding is held clear of the ground and the cavity is opened with an insect grille: the air enters here and rises by the stack effect. A flashing throws clear of the wall the water that drains down the cavity.

Backing wall
Insulation
Rail
Starter profile
Insect grille (air inlet)
Slab clear of the ground

Installation controls

Specification · checklist

01 · Subframe & brackets

Brackets fixed to sound substrate

Subframe flat and plumb

Thermal-break spacers in place

02 · Insulation & barrier

Continuous insulation, no gaps

Mechanically fixed to the wall

Water-repellent / breathable as required

03 · Anchors & slabs

Kerfs / holes to the rules

Anchors and retention checked

Slab alignment and joint width

04 · Joints & ventilation

Open, drained joints

Air inlets/outlets free (grilles)

Cavity depth respected

05 · Edges & testing

Base, eaves and corner details

Extra retention at edges/corners

Pull-out / retention tests

Recurring defects

Diagnostics · site

Adesione

Detachment and fall of slabs (insufficient anchors)

CauseUndersized, corroded or badly set anchors lose their hold: a heavy slab can loosen and fall, a serious safety risk on a façade.

PreventionAnchors and subframe by calculation, stainless steel, retention checks, kerfs/holes to the rules.

Termo-igrometrica

Thermal bridges of the anchor brackets

CauseThe metal brackets that cross the insulation are highly conductive: without a thermal break they cool the wall, lowering performance and risking condensation inside.

PreventionThermal-break spacers, point (not continuous) brackets, continuity of the insulation, thermal-bridge calculation.

Biologica

Efflorescence and damp staining on the stone

CauseSome stones absorb water and bring salts to the surface, or stain where the cavity does not dry: efflorescence and patches spoil the face.

PreventionSuitable stone selection, true back-ventilation, drained joints, breathable protective treatments where appropriate.

Meccanica

Wind uplift and rattling of the slabs

CauseWind suction, strongest at corners and the top, lifts and vibrates poorly retained slabs, loosening the anchors over time.

PreventionWind-load design, extra retention at edges/corners, anti-vibration gaskets, periodic inspection.

Component materials

The network · materials

Intrusive Igneous Rock

Reference regulations

2 norms

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