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Atlas HPE – Marine case study
Atlas HPE – Wind case study
Atlas HPE – Enviromental Study
Image | Title | Overview |
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NMG Atlas HPE Core 90D | 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 | |
NMG Atlas HPE Core 120D | 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 | |
NMG Atlas HPE Core 160D | 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 | |
NMG Atlas HPE Core 220D | 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 | |
NMG Atlas HPE HT Core 110D | 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 | 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 | 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 RCY Atlas HPE Core 12D | 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 |
Atlas HPE is an industry-leading composite core material, engineered with an interpenetrating polymer network (IPN) structure for unmatched strength, fatigue resistance, impact resistance, and high-temperature performance. Designed as an advanced alternative to PVC core, PVC foam, and other structural foam materials, Atlas HPE delivers exceptional mechanical properties while maintaining lightweight durability. Its fine cell structure minimizes resin absorption, making it a cost-effective solution for sandwich core applications in wind turbine blades, marine structures, aerospace components, and high-performance sports equipment. Whether used as a composite core in PVC composites or as a structural reinforcement, Atlas HPE ensures superior strength-to-weight ratio and long-term reliability.
Recognized as a high-performance alternative to traditional PVC structural foam, Atlas HPE is widely used in wind energy, marine, aerospace, industrial manufacturing, and sporting goods applications. The Atlas HPE HT series offers styrene resistance, thermal stability, and low crack growth rates, making it ideal for composite tooling and high-temperature environments.
In South Africa, Allied Fibreglass are the leading suppliers of Atlas HPE, providing premium composite core solutions for engineering, construction, and industrial applications. With its proven durability, lightweight properties, and advanced chemical structure, Atlas HPE stands out as the ultimate choice for composite manufacturing and structural reinforcement.