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Materials
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category veneer materialcompressive strength 1 MPathermal conductivity 0.09 W/(m*K)
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category veneer materialcompressive strength 2.2 MPathermal conductivity 0.09 W/(m*K)
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category veneer materialcompressive strength 0.8 MPathermal conductivity 0.09 W/(m*K)
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category veneer materialcompressive strength 2.2 MPathermal conductivity 0.09 W/(m*K)
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category veneer materialcompressive strength 16 MPathermal conductivity 0.09 W/(m*K)
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category veneer materialcompressive strength 12 MPathermal conductivity 0.09 W/(m*K)
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category veneer materialcompressive strength 4 MPathermal conductivity 0.09 W/(m*K)
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category veneer materialcompressive strength 4 MPathermal conductivity 0.09 W/(m*K)
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category veneer materialcompressive strength 9 MPathermal conductivity 0.09 W/(m*K)
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category veneer materialcompressive strength 10 MPathermal conductivity 0.09 W/(m*K)
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category veneer materialcompressive strength 10 MPathermal conductivity 0.09 W/(m*K)
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Geschlossenzelliger Aluminiumschaum (pulvermetallurgisches Verfahren)
Fraunhofer IWU, Abteilung Leichtbau, Textiltechnologien und Circular Economy
category zellularer Werkstoffcompressive strength 5 – 6 MPathermal conductivity – -
Geschlossenzelliger Aluminiumschaum (schmelzmetallurgisches Verfahren)
Fraunhofer IWU, Abteilung Leichtbau, Textiltechnologien und Circular Economy
category zellularer Werkstoffcompressive strength 1 – 1.8 MPathermal conductivity 3.5 – 4.5 W/(m*K) -
Offenzelliger Aluminiumschaum (Gießverfahren)
Fraunhofer IWU, Abteilung Leichtbau, Textiltechnologien und Circular Economy
category zellularer Werkstoffcompressive strength 367 psithermal conductivity 0.1 W/(cm*K) -
Offenzelliger Aluminiumschaum (schmelzmetallurgisches Verfahren)
Fraunhofer IWU, Abteilung Leichtbau, Textiltechnologien und Circular Economy
category zellularer Werkstoffcompressive strength 0.9 – 3 MPathermal conductivity 6 – 11 W/(m*K)