Core Materials

Strucell ® P PVC Structural Foam Core P60 offers excellent strength, durability, and impact resistance, making it ideal for for a wide range of marine, road/rail transportation, industrial and construction applications.

Strucell ® P PVC Structural Foam Core P80 offers excellent strength, durability, and impact resistance, making it ideal for for a wide range of marine, road/rail transportation, industrial and construction applications.

Strucell ® P PVC Structural Foam Core P130 offers excellent strength, durability, and impact resistance, making it ideal for for a wide range of marine, road/rail transportation, industrial and construction applications.

CoreLite® PVC 100 provides superior strength and durability, engineered for heavy-duty structural applications. Ideal for aerospace interiors, marine superstructures, and industrial molds, it is used where strength, impact resistance, and precision are essential.

CoreLite® PVC 200 is a very high-density foam core, offering extremely high compressive and shear strength. This makes it suitable for critical load-bearing structures, impact-prone areas, and heavy-duty industrial applications.

CoreLite® PVC 60 offers an excellent balance between weight and strength, making it versatile for both structural and semi-structural parts. Frequently used in boat decks, RV sidewalls, and automotive floors, this yellow-coded core is a popular choice across industries.

With higher density and rigidity, CoreLite® PVC 80 is suitable for structural applications requiring enhanced mechanical performance. It performs well in marine hulls, industrial tooling, and wind energy nacelles. Its green color indicates higher load-bearing capability.

CoreLite® PVC 130 is a high-density structural core designed for demanding load-bearing applications where superior mechanical strength and fatigue resistance are required.

CoreLite® PVC 48 is a low-density core material designed for lightweight applications where weight savings are critical without compromising structural integrity. Its large panel size makes it ideal for marine interiors, non-structural bulkheads, and lightweight transportation panels.

Strucell ® P PVC Structural Foam Core P200 offers excellent strength, durability, and impact resistance, making it ideal for for a wide range of marine, road/rail transportation, industrial and construction applications.

Mouldfoam has been specifically designed as modelling material or for tooling applications; it is used to create styling and design models, masters for composite and layup tools, prototypes, master models, and mold patterns.

Atlas HPE 90 is a new type of material with IPN (interpenetrating polymer network structure). Due to this unique chemical structure, it is an ideal choice for applications with high strength, fatigue resistance, high temperature resistance and impact resistance. It is widely used in large-scale wind power blades and main supporting components, ships, sports equipment and other fields.

2440mm X 1220mm

Download Weight and Resin Saving Guide

Atlas HPE 120 is a new type of material with IPN (interpenetrating polymer network structure). Due to this unique chemical structure, it is an ideal choice for applications with high strength, fatigue resistance, high temperature resistance and impact resistance. It is widely used in large-scale wind power blades and main supporting components, ships, sports equipment and other fields.

2440mm X 1220mm

Download Weight and Resin Saving Guide

Atlas HPE 160 is a new type of material with IPN (interpenetrating polymer network structure). Due to this unique chemical structure, it is an ideal choice for applications with high strength, fatigue resistance, high temperature resistance and impact resistance. It is widely used in large-scale wind power blades and main supporting components, ships, sports equipment and other fields.

2440mm X 1220mm

Atlas HPE 220 is a new type of material with IPN (interpenetrating polymer network structure). Due to this unique chemical structure, it is an ideal choice for applications with high strength, fatigue resistance, high temperature resistance and impact resistance. It is widely used in large-scale wind power blades and main supporting components, ships, sports equipment and other fields.

2440mm X 1220mm

Mouldfoam has been specifically designed as modelling material or for tooling applications; it is used to create styling and design models, masters for composite and layup tools, prototypes, master models, and mold patterns.

Mouldfoam has been specifically designed as modelling material or for tooling applications; it is used to create styling and design models, masters for composite and layup tools, prototypes, master models, and mold patterns.

Mouldfoam has been specifically designed as modelling material or for tooling applications; it is used to create styling and design models, masters for composite and layup tools, prototypes, master models, and mold patterns.

Mouldfoam has been specifically designed as modelling material or for tooling applications; it is used to create styling and design models, masters for composite and layup tools, prototypes, master models, and mold patterns.

NMG Atlas HPE HT Core 110D has an IPN ("interpenetrating network polymer") structure. Due to this chemical structure the material can sustain high shear elongation before failure and allow a very low crack growth rate (high toughness). HPE is a thermoset material and shows higher temperature and styrene resistance than PVC and SAN. Thanks to its production process HPE is constituted by a very uniform and fine cell structure. The lower cell size leads to a lower resin intake in sandwich manufacturing.

2440mm X 1220mm

NMG Atlas HPE HT Core 160D has an IPN ("interpenetrating network polymer") structure. Due to this chemical structure the material can sustain high shear elongation before failure and allow a very low crack growth rate (high toughness). HPE is a thermoset material and shows higher temperature and styrene resistance than PVC and SAN. Thanks to its production process HPE is constituted by a very uniform and fine cell structure. The lower cell size leads to a lower resin intake in sandwich manufacturing.

2440mm X 1220mm

NMG Atlas HPE HT Core 300D has an IPN ("interpenetrating network polymer") structure. Due to this chemical structure the material can sustain high shear elongation before failure and allow a very low crack growth rate (high toughness). HPE is a thermoset material and shows higher temperature and styrene resistance than PVC and SAN. Thanks to its production process HPE is constituted by a very uniform and fine cell structure. The lower cell size leads to a lower resin intake in sandwich manufacturing.

2440mm X 1220mm

NMG Atlas HPE RCY Core 120D has an IPN ("interpenetrating network polymer") structure. Due to this chemical structure the material can sustain high shear elongation before failure and allow a very low crack growth rate (high toughness). HPE is a thermoset material and shows higher temperature and styrene resistance than PVC and SAN. Thanks to its production process HPE is constituted by a very uniform and fine cell structure. The lower cell size leads to a lower resin intake in sandwich manufacturing.

2440mm X 1220mm

CoreLite® PVC 250 represents the highest density in the PVC range, engineered for extreme structural applications. It is capable of withstanding high loads and elevated temperature conditions, with very low deformation.