Российский фонд
фундаментальных
исследований

Физический факультет
МГУ им. М.В.Ломоносова
 

L

Li Xiaodong

 

Liu Ke, Tian Jing, Li Xiaodong, Jiao Fenglei «One of ideal absorbing materials in architectural acoustics: micro-perforated panel absorbers» КОНСОНАНС-2005. Акустический симпозиум (27–29 сентября 2005 г.), с. 197-202 (2005)

Micro-Perforated panel absorbers (MPA) can be used to reduce or better the noise in architecture. This absorber was developed in 1960s, when a robust sound absorber was needed for severe environments, without porous materials. It has a simple structure and the absorption properties can be exactly calculated. The panel can be made of any materials from cardboard, plastic, plywood to sheet metal, for different purpose. The approximate theory of MPA was first given by Prof. MAA Dah-you in 1975, and then the exact theory was also proposed by him in 1997. MPA has been developed rapidly and used in many fields in recent years. Now the theoretical and experimental investigations on the performance of the MPA are still under progress. Theoretical and experimental investigations on MPA are reviewed in this paper. By reviewing recent research work, this paper reveals a relationship between the maximum absorption coefficient and the limit of the absorption frequency bandwidth. It has been demonstrated that the absorption frequency bandwidth can be extended up to 3 or 4 octaves as the diameters of the micro-holes decrease. This has become possible with the development of the technologies for manufacturing MPA, such as laser drilling, powder metallurgy, welded meshing and electro-etching to form micrometer order holes. In this paper, absorption characteristics of such absorbers in random fields are presented and discussed both theoretically and experimentally. This review shows that the MPA has potentials to be one of ideal absorbing materials in architectural acoustics in the 21st century.

КОНСОНАНС-2005. Акустический симпозиум (27–29 сентября 2005 г.), с. 197-202 (2005) | Рубрики: 10.07 11.06

Liu Ke

 

Liu Ke, Tian Jing, Li Xiaodong, Jiao Fenglei «One of ideal absorbing materials in architectural acoustics: micro-perforated panel absorbers» КОНСОНАНС-2005. Акустический симпозиум (27–29 сентября 2005 г.), с. 197-202 (2005)

Micro-Perforated panel absorbers (MPA) can be used to reduce or better the noise in architecture. This absorber was developed in 1960s, when a robust sound absorber was needed for severe environments, without porous materials. It has a simple structure and the absorption properties can be exactly calculated. The panel can be made of any materials from cardboard, plastic, plywood to sheet metal, for different purpose. The approximate theory of MPA was first given by Prof. MAA Dah-you in 1975, and then the exact theory was also proposed by him in 1997. MPA has been developed rapidly and used in many fields in recent years. Now the theoretical and experimental investigations on the performance of the MPA are still under progress. Theoretical and experimental investigations on MPA are reviewed in this paper. By reviewing recent research work, this paper reveals a relationship between the maximum absorption coefficient and the limit of the absorption frequency bandwidth. It has been demonstrated that the absorption frequency bandwidth can be extended up to 3 or 4 octaves as the diameters of the micro-holes decrease. This has become possible with the development of the technologies for manufacturing MPA, such as laser drilling, powder metallurgy, welded meshing and electro-etching to form micrometer order holes. In this paper, absorption characteristics of such absorbers in random fields are presented and discussed both theoretically and experimentally. This review shows that the MPA has potentials to be one of ideal absorbing materials in architectural acoustics in the 21st century.

КОНСОНАНС-2005. Акустический симпозиум (27–29 сентября 2005 г.), с. 197-202 (2005) | Рубрики: 10.07 11.06

Lysenko K.V.

 

Lysenko K.V. «Investigation of acoustic characteristics of a gas jet burning in the accompanying flow of oxidizer with various turbulence parameters» Теплофизика высоких температур, 30, № 6, с. 1232-1235 (1992)

Теплофизика высоких температур, 30, № 6, с. 1232-1235 (1992) | Рубрика: 08.08