Technical sheet

A.01A.02

SystemS-43

Natural stone flooring

A floor of natural stone slabs — such as Luserna stone, granite, marble or travertine — laid with adhesive or on a mortar bed over a screed, with grouted joints. An ancient, noble material, it combines hardness, durability and a mass that makes it ideal over underfloor heating: it stores the heat and releases it evenly. Incombustible, hygienic and restorable, it is a finish that lasts for generations.

PavimentazioneStone slab flooring

B.01

System build-up6 layers

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

Stone slab flooring

Spessore della lastra

1-3cm

Resistenza a compressione

90-200N/mm²

Assorbimento d'acqua

0,2-0,5%

Resistenza allo scivolamento

R9-R11

Reazione al fuoco

A1 (incombustibile)

Posa

a colla / allettamento

Descriptive memo

A natural stone floor is a finish of stone slabs laid on a solid base. The stone — from Luserna to granite, marble to travertine — brings home hardness, durability and a character time does not scratch. Success lies entirely in the base and the laying.

Thermal mass and radiant

Stone is dense and conducts heat well: this is why it works beautifully over underfloor heating. It stores the heat from the pipes and gives it back to the room evenly and gently, with great inertia. It is slow to warm, but then holds the comfort for long; in summer its coolness is welcome.

Hardness and durability

Few surfaces take foot traffic like stone: it resists wear, is incombustible and hygienic, and can be ground or polished again decades later. Calcareous stones (marble, travertine) do fear acids and staining, though; granite and Luserna are tougher. The choice of finish (honed, flamed) also sets the slip resistance.

Base and joints

Stone's enemy is movement in the base: a cracked or yielding screed telegraphs into the slabs. A mature, stable screed is needed, a de-coupling layer, the expansion joints respected and full adhesive coverage to avoid voids and debonding. The joints are grouted and, on porous stones, a stain-proofing treatment is applied.

Systems architecture

Why it works

Thermal mass · radiant performance

Stone is dense and conducts heat well: two qualities that make it the ideal floor over radiant heating. It absorbs the heat of the pipes embedded in the screed and carries it to the surface, giving it back to the room evenly and gently, with no hot spots. Its great inertia makes it slow to warm, but it then holds the comfort for long even with the system off; in summer the same mass keeps it cool. It is the opposite of a light floor, which warms fast but cools just as quickly.

Performance over radiant heating

Comparison · insulants

Natural stone

dense, conductive

Porcelain stoneware

good

Ceramic

good

Wood / parquet

insulating

Longer bar = the better it stores and transmits the radiant heat. Dense, conductive stone is the ideal mass over underfloor heating; a light floor insulates the pipes.

Nodal details

Critical junctions · sections

D.01

Movement joint

A stone floor must be able to move: expansion joints divide it into fields and run right through the slab, the adhesive and the screed, filled with an elastic sealant. Without them, the screed’s shrinkage and thermal movement crack the slabs.

Stone slab
Movement joint (elastic)
Adhesive
De-coupling layer
Screed
Structural slab

D.02

Perimeter / skirting

At the wall the floor is not built in solid: a stone skirting covers a perimeter joint that lets the floor expand without pushing on the wall. The de-coupling layer and the joint together keep the floor independent of the structure.

Wall
Stone skirting
Perimeter joint (elastic)
Stone slab
Screed
Structural slab

Installation controls

Specification · checklist

01 · Substrate & screed

Sound, stable substrate

Screed mature and to thickness

Flatness and falls checked

02 · Movement joints

Field joints planned

Carried through to the screed

Perimeter joints at walls

03 · Adhesive & laying

Full adhesive coverage

Right adhesive class

Leveling and no lippage

04 · Slabs & finish

Calibrated, sorted slabs

Slip-resistance finish

Stain-proofing where porous

05 · Joints & care

Grout to the stone

Breathable, suitable grout

Cleaning and sealing plan

Recurring defects

Diagnostics · site

Meccanica

Cracking of slabs and joints

CauseShrinkage or thermal movement of the screed, or missing movement joints, telegraphs into the rigid stone and cracks the slabs.

PreventionA mature, stable screed, movement joints carried through, a de-coupling layer, slabs sized to the stone.

Adesione

Detachment and hollow sound (debonding)

CausePartial adhesive coverage leaves voids: the slab loses bond, sounds hollow and eventually lifts or breaks at the edge.

PreventionFull adhesive coverage (double-buttering), the right adhesive class, a clean primed substrate, no laying over dust.

Termo-igrometrica

Efflorescence and damp staining

CauseWater rising through a damp screed carries salts that crystallise at the joints, and porous stones stain and darken.

PreventionA vapour barrier under the screed, a cured screed, stain-proofing on porous stone, breathable grouts.

Meccanica

Substrate settlement and lippage

CauseA yielding or uneven substrate settles unevenly: the slabs step at the joints (lippage) and the floor becomes uneven and a trip hazard.

PreventionA sound, well-compacted substrate, a screed to thickness, leveling clips while laying, flatness checks.

Component materials

The network · materials

Metamorphic Rock (Orthogneiss)

Luserna Stone (Gneiss)

Repair mortar class R4 (EN 1504-3)

Structural Repair Mortar (R4)

Conglomerate

Concrete

Reference regulations

2 norms

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