BỘ KHOA HỌC VÀ CÔNG NGHỆ
HỆ THỐNG THÔNG TIN KHOA HỌC VÀ CÔNG NGHỆ

Lọc theo danh mục
  • Năm xuất bản
    Xem thêm
  • Lĩnh vực
liên kết website
Lượt truy cập
 Lượt truy cập :  20,090,760
  • Công bố khoa học và công nghệ Việt Nam

Khoa học y, dược

BB

La Thế Vinh, Mai Hữu Thuấn, Nguyễn Thị Hồng Phượng(1)

NGHIÊN CỨU CHẾ TẠO TIỀN CHẤT AMMONIUM ALUM TỪ NHÔM HYDROXIT ỨNG DỤNG TRONG SẢN XUẤT Al2O3 TINH KHIẾT

RESEARCH ON FABRICATION OF AMMONIUM ALUM PRECURSORS FROM ALUMINUM HYDROXIDE, APPLY IN PRODUCTION OF PURE Al2O3

Tạp chí Phân tích Hóa, Lý và Sinh học

2024

2A

152

The demand for high-purity (over 99%) and fine (particle size less than 1 µm) aluminum oxide powder is increasing because this type of powder is essential in various industries such as semiconductor manufacturing, optical devices (LEDs, lasers, etc.), microelectronic components, and medical ceramics (artificial bones and joints). The properties of Al2O3 materials, which are highly resistant to corrosion and wear and have good thermal conductivity, make them valuable. In this study, pure and fine α-Al2O3aluminum oxide powder were prepared using the sol-gel method. The result is a sol system, including nano-sized Al(OH)3, which bonds and forms a transparent gel permeated by urea solution and [Al13O4(OH)24(H2O)12]7+ complex ions. The formed gel is calcined at 300°C to produce γ-alumina, which then transitions to α-Al2O3 at temperatures above 1000°C.

The demand for high-purity (over 99%) and fine (particle size less than 1 µm) aluminum oxide powder is increasing because this type of powder is essential in various industries such as semiconductor manufacturing, optical devices (LEDs, lasers, etc.), microelectronic components, and medical ceramics (artificial bones and joints). The properties of Al2O3 materials, which are highly resistant to corrosion and wear and have good thermal conductivity, make them valuable. In this study, pure and fine α-Al2O3aluminum oxide powder were prepared using the sol-gel method. The result is a sol system, including nano-sized Al(OH)3, which bonds and forms a transparent gel permeated by urea solution and [Al13O4(OH)24(H2O)12]7+ complex ions. The formed gel is calcined at 300°C to produce γ-alumina, which then transitions to α-Al2O3 at temperatures above 1000°C.

Xem toàn văn