WHY
CHOOSE ISOBLOC?
Our technology offers superior energy performance, enhanced durability and strength, optimal construction speed, design flexibility to suit a variety of needs, all with reduced environmental impact.
WHY
CHOOSE ISOBLOC?
Our technology offers superior energy performance, enhanced durability and strength, optimal construction speed, design flexibility to suit a variety of needs, all with reduced environmental impact.

Superior thermal insulation with energy-efficient R-25* performance
Type 2 expanded polystyrene insulation
No thermal bridges thanks to the tongue-and-groove design of the polystyrene core

2-hour fire resistance
for enhanced safety

Enhanced protection against moisture, mildew and impact
The wall-mounted system requires no vapour barrier

Excellent soundproofing: Tranquility and comfort,
a very quiet home or workplace.

Eco-responsible products that respect
4 LEED points


Superior thermal insulation with energy-efficient performance of R-25*. Type 2 expanded polystyrene insulation
No thermal bridges thanks to the tongue-and-groove design of the polystyrene core

2-hour fire resistance
for enhanced safety

Enhanced protection against moisture, mould
and impacts
Wall system requires no vapor barrier

Excellent soundproofing: Tranquility and comfort,
a very quiet home or workplace.

Eco-responsible products that meet 4 LEED points

COMPARATIVE TABLE
ISOBLOC panels

Architectural panels

Resistance

High
Durability

High
Thermal insulation

Excellent
Acoustic insulation

Good
Heating energy savings

Very Good
Resistance

Low
Durability

Low
Thermal insulation

Good
Acoustic insulation

Wrong
Heating energy savings

Wrong
COMPARATIVE TABLE

ISOBLOC panels
Resistance

High
Durability

High
Thermal insulation

Excellent
Acoustic insulation

Good
Heating energy savings

Very Good

Architectural panels
Resistance

Low
Durability

Low
Thermal insulation

Good
Acoustic insulation

Wrong
Heating energy savings

Wrong

Superior energy performance
Isobloc offers outstanding thermal insulation, significantly reducing heat loss and heating and cooling costs compared with other building materials.
Durability
and resistance
Buildings constructed with Isobloc are strong, durable and resistant to weather, impact and fire. This guarantees a robust structure and a long, low-maintenance service life.
Rapid construction
Thanks to its modular design and the use of prefabricated blocks, it can be built quickly and efficiently. This shortens lead times and enables owners to benefit from their building sooner.
Design flexibility
Isobloc offers great flexibility in terms of architectural design. Prefabricated blocks can be easily adapted and assembled to create unique shapes and structures, offering homeowners creative, personalized possibilities.
Reduced environmental impact
Isobloc is made from recyclable materials and offers improved energy performance, helping to reduce the building’s carbon footprint and overall environmental impact. By choosing Isobloc, homeowners can make a more sustainable and respectful choice.
One of our customers saves $250,000 a year in heating costs
Isobloc is a building material used for prefabricated and modular buildings, known for its excellent insulating properties. Thanks to its high density and polyurethane foam composition, Isobloc offers superior thermal insulation to traditional materials. The energy savings achieved with Isobloc are linked to its ability to reduce heat loss through the building’s walls and roof. This translates into lower heating and cooling loads, reduced conductive heat loss and lower energy consumption for ventilation, offering significant energy-saving potential.
In short, thermal mass and Isobloc offer solutions for reducing energy consumption in buildings. Thermal masses regulate temperature by gradually absorbing and releasing heat, thus reducing air-conditioning and heating loads. Isobloc, as an insulating building material, reduces heat loss through walls and roofs, resulting in lower heating and cooling loads, lower conductive heat loss and lower energy consumption for ventilation. Both approaches offer significant advantages in terms of saving energy and designing more energy-efficient buildings.