| High Thermal Conductivity Composite Structures |
20 NOV 1999 |
26 pages |
| Authors:
John Bootle; XC ASSOCIATES INC BERLIN NY
|
 | The work accomplished in this SBIR project demonstrated that the addition of boron nitride (BN) powder to a composite laminate significantly increases the through the thickness thermal conductivity (Kz) of a composite laminate. The importance of this work is that the improved Kz results in significantly lower operating temperatures for thermal applications such as composite thermal planes for advanced electronic applications and space based ... |
|
| High Thermal Conductivity Composite Structures |
20 OCT 1999 |
20 pages |
| Authors:
John Bootle; XC ASSOCIATES INC BERLIN NY
|
| The work accomplished in this SBIR project demonstrated that the addition of boron nitride (BN) powder to a composite laminate significantly increases the through the thickness thermal conductivity (kz) of a composite laminate. The importance of this work is that the improved kz results in significantly lower operating temperatures for thermal applications such as composite thermal planes for advanced electronic applications and space based ... |
|
| High Thermal Conductivity Composite Structures |
20 OCT 1999 |
16 pages |
| Authors:
John Bootle; XC ASSOCIATES INC BERLIN NY
|
| The work accomplished in this SBIR project demonstrated that the addition of boron nitride (BN) powder to a composite laminate significantly increases the through the thickness thermal conductivity (Kz) of a composite laminate. The importance of this work is that the improved Kz results in significantly lower operating temperatures for thermal applications such as composite thermal planes and space based radiators. |
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