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SiC FIBER-CONTAINING HYBRID COMPOSITE MATERIAL AND MANUFACTURING METHOD THEREFOR
To provide a SiC fiber-reinforced ceramic composite material in which brittleness as an inherent defect of a monolithic ceramic material is overcome.SOLUTION: A SiC fiber-reinforced ceramic composite material comprises: SiC fibers 10 having the carbon coating layers or BN coating layers 16 located at approximately constant intervals so as to be in a grid or zigzag pattern in the direction where original Ti foil is laminated, in which large diameter SiC fibers (diameter≥50 μm) including the carbon coating layers or BN coating layers 16 located at approximately constant intervals in single layers in the direction where the original Ti foil is expanded; original Ti foil phases 20 that are continuously located in the direction where the original Ti foil is expanded, with surface layers of the SiC fibers having the carbon coating layers or BN coating layers 16 being coated thereon; and matrix phases 30 that carry the original Ti foil phase 20 and the SiC fibers 10 having the carbon coating layers or BN coating layers 16.SELECTED DRAWING: Figure 2
【課題】モノリシックセラミックス材料の固有欠点である脆性を克服したSiC繊維強化セラミックス複合材料を提供すること。【解決手段】炭素被覆層もしくはBN被覆層16を有する大直径のSiC繊維(直径≧50μm)が、旧Ti箔の展開される方向に大略一定間隔に単層に位置すると共に、旧Ti箔の積層される方向に格子状又は千鳥状となるように大略一定間隔に位置する炭素被覆層もしくはBN被覆層16を有するSiC繊維10と、旧Ti箔の展開される方向に連続して位置すると共に、炭素被覆層もしくはBN被覆層16を有するSiC繊維の表面層を覆う状態の旧Ti箔相20と、旧Ti箔相20と炭素被覆層もしくはBN被覆層16を有するSiC繊維10を保持するマトリックス相30とを有する。【選択図】図2
SiC FIBER-CONTAINING HYBRID COMPOSITE MATERIAL AND MANUFACTURING METHOD THEREFOR
To provide a SiC fiber-reinforced ceramic composite material in which brittleness as an inherent defect of a monolithic ceramic material is overcome.SOLUTION: A SiC fiber-reinforced ceramic composite material comprises: SiC fibers 10 having the carbon coating layers or BN coating layers 16 located at approximately constant intervals so as to be in a grid or zigzag pattern in the direction where original Ti foil is laminated, in which large diameter SiC fibers (diameter≥50 μm) including the carbon coating layers or BN coating layers 16 located at approximately constant intervals in single layers in the direction where the original Ti foil is expanded; original Ti foil phases 20 that are continuously located in the direction where the original Ti foil is expanded, with surface layers of the SiC fibers having the carbon coating layers or BN coating layers 16 being coated thereon; and matrix phases 30 that carry the original Ti foil phase 20 and the SiC fibers 10 having the carbon coating layers or BN coating layers 16.SELECTED DRAWING: Figure 2
【課題】モノリシックセラミックス材料の固有欠点である脆性を克服したSiC繊維強化セラミックス複合材料を提供すること。【解決手段】炭素被覆層もしくはBN被覆層16を有する大直径のSiC繊維(直径≧50μm)が、旧Ti箔の展開される方向に大略一定間隔に単層に位置すると共に、旧Ti箔の積層される方向に格子状又は千鳥状となるように大略一定間隔に位置する炭素被覆層もしくはBN被覆層16を有するSiC繊維10と、旧Ti箔の展開される方向に連続して位置すると共に、炭素被覆層もしくはBN被覆層16を有するSiC繊維の表面層を覆う状態の旧Ti箔相20と、旧Ti箔相20と炭素被覆層もしくはBN被覆層16を有するSiC繊維10を保持するマトリックス相30とを有する。【選択図】図2
SiC FIBER-CONTAINING HYBRID COMPOSITE MATERIAL AND MANUFACTURING METHOD THEREFOR
SiC繊維を含むハイブリッド複合材料およびその製造方法
KAKU TATSUHIRO (Autor:in)
04.07.2019
Patent
Elektronische Ressource
Japanisch
IPC:
C04B
Kalk
,
LIME
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