Influence of carbon impurity on the microstructure of beryllia ceramics

Standard

Influence of carbon impurity on the microstructure of beryllia ceramics. / Kiiko, V.; Dmitriev, I.; Kashcheev, I. и др.
в: Refractories, Том 30, № 11-12, 01.11.1989, стр. 675-679.

Результаты исследований: Вклад в журнал › Статья › Рецензирование

Harvard

Kiiko, V, Dmitriev, I, Kashcheev, I, Zhuravlev, V, Perepelitsyn, V, Boriskova, T & Savel'ev, VN 1989, 'Influence of carbon impurity on the microstructure of beryllia ceramics', Refractories, Том. 30, № 11-12, стр. 675-679. https://doi.org/10.1007/BF01288268

APA

Kiiko, V., Dmitriev, I., Kashcheev, I., Zhuravlev, V., Perepelitsyn, V., Boriskova, T., & Savel'ev, V. N. (1989). Influence of carbon impurity on the microstructure of beryllia ceramics. Refractories, 30(11-12), 675-679. https://doi.org/10.1007/BF01288268

Vancouver

Kiiko V, Dmitriev I, Kashcheev I, Zhuravlev V, Perepelitsyn V, Boriskova T и др. Influence of carbon impurity on the microstructure of beryllia ceramics. Refractories. 1989 нояб. 1;30(11-12):675-679. doi: 10.1007/BF01288268

Author

Kiiko, V. ; Dmitriev, I. ; Kashcheev, I. и др. / Influence of carbon impurity on the microstructure of beryllia ceramics. в: Refractories. 1989 ; Том 30, № 11-12. стр. 675-679.

BibTeX

@article{50ebdb3c253a4b3a83c9f8e565a878c2,

title = "Influence of carbon impurity on the microstructure of beryllia ceramics",

abstract = "Carbon exerts a significant influence on the microstructure of beryllium ceramics. With the introduction of activated carbon into the composition of the ceramic its microstructure undergoes changes. Even small amounts of carbon (about 0.1%) lead to the development of pores. With increase in carbon concentration there is an increase in the amount of large pores. The distribution of pores over the specimen's cross section is irregular. During sintering some of the fine pores in the peripheral section of the specimens succeed in coalescing, and their density and porosity are the same over the section. Additions of carbon in beryllium ceramics limit the grain growth. The growth of crystals in this case is prevented by pores. Small concentrations of pyrolytic carbon in the compositions lead to a retarding of the growth of BeO crystals, and do not have a significant influence on the density. In the case of the obstructed escape of carbon-containing gases from the thickness of the ceramics during sintering there is a reduction in the impurity ions (e.g. iron) which, in the final account, may lead, on the other hand, to a significant increase in the rate of growth of crystals, and the formation of an irregularly grained structure.",

author = "V. Kiiko and I. Dmitriev and I. Kashcheev and V. Zhuravlev and V. Perepelitsyn and T. Boriskova and Savel'ev, {V. N.}",

year = "1989",

month = nov,

day = "1",

doi = "10.1007/BF01288268",

language = "English",

volume = "30",

pages = "675--679",

journal = "Refractories",

issn = "0034-3102",

publisher = "Springer Nature",

number = "11-12",

}

RIS

TY - JOUR

T1 - Influence of carbon impurity on the microstructure of beryllia ceramics

AU - Kiiko, V.

AU - Dmitriev, I.

AU - Kashcheev, I.

AU - Zhuravlev, V.

AU - Perepelitsyn, V.

AU - Boriskova, T.

AU - Savel'ev, V. N.

PY - 1989/11/1

Y1 - 1989/11/1

N2 - Carbon exerts a significant influence on the microstructure of beryllium ceramics. With the introduction of activated carbon into the composition of the ceramic its microstructure undergoes changes. Even small amounts of carbon (about 0.1%) lead to the development of pores. With increase in carbon concentration there is an increase in the amount of large pores. The distribution of pores over the specimen's cross section is irregular. During sintering some of the fine pores in the peripheral section of the specimens succeed in coalescing, and their density and porosity are the same over the section. Additions of carbon in beryllium ceramics limit the grain growth. The growth of crystals in this case is prevented by pores. Small concentrations of pyrolytic carbon in the compositions lead to a retarding of the growth of BeO crystals, and do not have a significant influence on the density. In the case of the obstructed escape of carbon-containing gases from the thickness of the ceramics during sintering there is a reduction in the impurity ions (e.g. iron) which, in the final account, may lead, on the other hand, to a significant increase in the rate of growth of crystals, and the formation of an irregularly grained structure.

AB - Carbon exerts a significant influence on the microstructure of beryllium ceramics. With the introduction of activated carbon into the composition of the ceramic its microstructure undergoes changes. Even small amounts of carbon (about 0.1%) lead to the development of pores. With increase in carbon concentration there is an increase in the amount of large pores. The distribution of pores over the specimen's cross section is irregular. During sintering some of the fine pores in the peripheral section of the specimens succeed in coalescing, and their density and porosity are the same over the section. Additions of carbon in beryllium ceramics limit the grain growth. The growth of crystals in this case is prevented by pores. Small concentrations of pyrolytic carbon in the compositions lead to a retarding of the growth of BeO crystals, and do not have a significant influence on the density. In the case of the obstructed escape of carbon-containing gases from the thickness of the ceramics during sintering there is a reduction in the impurity ions (e.g. iron) which, in the final account, may lead, on the other hand, to a significant increase in the rate of growth of crystals, and the formation of an irregularly grained structure.

UR - http://www.scopus.com/inward/record.url?partnerID=8YFLogxK&scp=34249954338

U2 - 10.1007/BF01288268

DO - 10.1007/BF01288268

M3 - Article

VL - 30

SP - 675

EP - 679

JO - Refractories

JF - Refractories

SN - 0034-3102

IS - 11-12

ER -

ID: 48980024