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Sacrificial materials to improve chemical vapor infiltration of B4C loaded preforms

LINCK JOHN S / PEREA THOMAS

A method of forming a composite component is provided. The method includes locating a fibrous preform, providing a slurry, mixing the slurry with sacrificial fibers, injecting the slurry into the fibrous preform, heating the fibrous preform, forming channels in the fibrous preform, and densifying the fibrous preform. The sacrificial fibers are suspended in the fibrous preform along an injection pathway such that heating the sacrificial fibers forms the channels along the injection pathway as the sacrificial fibers are burned away.

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Sacrificial materials to improve chemical vapor infiltration of B4C loaded preforms

LINCK JOHN S / PEREA THOMAS

A method of forming a composite component is provided. The method includes locating a fibrous preform, providing a slurry, mixing the slurry with sacrificial fibers, injecting the slurry into the fibrous preform, heating the fibrous preform, forming channels in the fibrous preform, and densifying the fibrous preform. The sacrificial fibers are suspended in the fibrous preform along an injection pathway such that heating the sacrificial fibers forms the channels along the injection pathway as the sacrificial fibers are burned away.

Sacrificial materials to improve chemical vapor infiltration of B4C loaded preforms

LINCK JOHN S / PEREA THOMAS

A method of forming a composite component is provided. The method includes locating a fibrous preform, providing a slurry, mixing the slurry with sacrificial fibers, injecting the slurry into the fibrous preform, heating the fibrous preform, forming channels in the fibrous preform, and densifying the fibrous preform. The sacrificial fibers are suspended in the fibrous preform along an injection pathway such that heating the sacrificial fibers forms the channels along the injection pathway as the sacrificial fibers are burned away.

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Title:

Sacrificial materials to improve chemical vapor infiltration of B4C loaded preforms

Contributors:

LINCK JOHN S (author) / PEREA THOMAS (author)

Publication date:

2024-02-20

Type of media:

Patent

Type of material:

Electronic Resource

Language:

English

Classification:

IPC: F16D COUPLINGS FOR TRANSMITTING ROTATION , Nicht schaltbare Kupplungen / C04B Kalk , LIME

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