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HARD MATERIAL, SINTERED BODY, POWDER, AND METHOD OF MANUFACTURING HARD MATERIAL

ISHII AKITO / OKAMURA KATSUMI / ONOKI TAKAMASA

Provided is a hard material comprising either one or both of aluminum and titanium, and nitrogen, carbon, and oxygen, and having a cubic rock salt structure, wherein an X-ray diffraction line on a (200) plane has a full width at half maximum of 0.05° to 4.0° measured by an X-ray diffraction method.

L'invention concerne un matériau dur comprenant de l'aluminium et/ou du titane, et de l'azote, du carbone et de l'oxygène, et ayant une structure de sel gemme cubique, une ligne de diffraction des rayons X sur un plan (200) ayant une largeur totale à mi-hauteur de 0,05° à 4,0° mesurée par un procédé de diffraction des rayons X.

硬質材料は、アルミニウム及びチタンのいずれか一方又は両方と、窒素と、炭素と、酸素とを含み、立方晶岩塩型構造を有し、Ｘ線回折法による（２００）面でのＸ線回折線の半値幅が０．０５°以上４．０°以下である。

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HARD MATERIAL, SINTERED BODY, POWDER, AND METHOD OF MANUFACTURING HARD MATERIAL

ISHII AKITO / OKAMURA KATSUMI / ONOKI TAKAMASA

Provided is a hard material comprising either one or both of aluminum and titanium, and nitrogen, carbon, and oxygen, and having a cubic rock salt structure, wherein an X-ray diffraction line on a (200) plane has a full width at half maximum of 0.05° to 4.0° measured by an X-ray diffraction method.

L'invention concerne un matériau dur comprenant de l'aluminium et/ou du titane, et de l'azote, du carbone et de l'oxygène, et ayant une structure de sel gemme cubique, une ligne de diffraction des rayons X sur un plan (200) ayant une largeur totale à mi-hauteur de 0,05° à 4,0° mesurée par un procédé de diffraction des rayons X.

硬質材料は、アルミニウム及びチタンのいずれか一方又は両方と、窒素と、炭素と、酸素とを含み、立方晶岩塩型構造を有し、Ｘ線回折法による（２００）面でのＸ線回折線の半値幅が０．０５°以上４．０°以下である。

HARD MATERIAL, SINTERED BODY, POWDER, AND METHOD OF MANUFACTURING HARD MATERIAL

ISHII AKITO / OKAMURA KATSUMI / ONOKI TAKAMASA

Provided is a hard material comprising either one or both of aluminum and titanium, and nitrogen, carbon, and oxygen, and having a cubic rock salt structure, wherein an X-ray diffraction line on a (200) plane has a full width at half maximum of 0.05° to 4.0° measured by an X-ray diffraction method.

L'invention concerne un matériau dur comprenant de l'aluminium et/ou du titane, et de l'azote, du carbone et de l'oxygène, et ayant une structure de sel gemme cubique, une ligne de diffraction des rayons X sur un plan (200) ayant une largeur totale à mi-hauteur de 0,05° à 4,0° mesurée par un procédé de diffraction des rayons X.

硬質材料は、アルミニウム及びチタンのいずれか一方又は両方と、窒素と、炭素と、酸素とを含み、立方晶岩塩型構造を有し、Ｘ線回折法による（２００）面でのＸ線回折線の半値幅が０．０５°以上４．０°以下である。

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Title:

HARD MATERIAL, SINTERED BODY, POWDER, AND METHOD OF MANUFACTURING HARD MATERIAL

Additional title:

MATÉRIAU DUR, CORPS FRITTÉ, POUDRE ET PROCÉDÉ DE FABRICATION DE MATÉRIAU DUR
硬質材料、焼結体、粉末、及び、硬質材料の製造方法

Contributors:

ISHII AKITO (author) / OKAMURA KATSUMI (author) / ONOKI TAKAMASA (author)

Publication date:

2020-02-20

Type of media:

Patent

Type of material:

Electronic Resource

Language:

Japanese

Classification:

IPC: C04B Kalk , LIME / B23B Drehen , TURNING / B23C Fräsen , MILLING

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