Sound insulation of fuselage aircraft structures with different composition of resonant elements

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The problem of reducing noise in the cabin of a propeller aircraft is an urgent task of internal acoustics, since traditional sound-insulating structures do not have sufficient efficiency in the region of low frequencies. One of the promising ways to solve it is the use of resonant systems, with the help of which it is possible to significantly increase the sound insulation of the fuselage structure of the aircraft in this frequency range. In this work, the effect of resonant systems on the sound-insulating ability of flat and cylindrical panels without and with cross stiffening simulating the body bulkhead frame was experimentally determined, as well as the effectiveness of lining the passenger compartment with resonant systems of various compositions was determined. Tests were carried out in sound chambers and on a full-scale stand, which is a real passenger plane. When facing the tested structures, elasto-acoustic compensators of various types with resonant elements made using foil, micalent paper and thermo-polyurethane were used. It is shown that the efficiency of resonant systems can reach 10–20 decibels or more.

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作者简介

A. Zverev

TSAGI

编辑信件的主要联系方式.
Email: zverev@dubna.ru

Acoustic division

俄罗斯联邦, 17 Radio str., Moscow, 107005

L. Lazarev

TSAGI

Email: leonidl74@mail.ru

Acoustic division

俄罗斯联邦, 17 Radio str., Moscow, 107005

I. Pankratov

TSAGI

Email: ipank76@mail.ru

Acoustic division

俄罗斯联邦, 17 Radio str., Moscow, 107005

参考

  1. Ефимцов Б.М., Лазарев Л.А. Звукоизолирующие свойства панелей с резонансными элементами // Акуст. журн. 2001. Т. 47. № 3. C. 346–351.
  2. Ефимцов Б.М., Лазарев Л.А Анализ звукоизолирующей способности панелей с резонансными системами на основе эквивалентных представлений // Акуст. журн. 2005. Т. 51. № 3. C. 360–365.
  3. Ефимцов Б.М., Лазарев Л.А. Акустическое поле внутри замкнутой слоистой оболочки с резонансными системами // Акуст. журн. 2006. Т. 52. № 1. C. 51–58.
  4. Ефимцов Б.М., Лазарев Л.А. Влияние резонансных систем на акустическое поле в слоистой оболочке // Уч. зап. ЦАГИ. 2006. Т. 37. № 1–2. C. 89–98.
  5. Зверев А.Я., Черных В.В. Экспериментальное определение акустических и виброакустических характеристик многослойных композитных панелей // Акуст. журн. 2018. Т. 64. № 6. C. 727–736.
  6. Зверев А.Я., Черных В.В. Определение акустической эффективности материалов и конструкций в лабораторных и натурных условиях. Часть 1: звукопоглощение и звукоизоляция // Уч. зап. ЦАГИ. 2018. Т. 49. № 8. С. 40–55.

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2. Fig. 1. Resonant elements: (a) — “box-F”, (b) — “plate-B”, (c) — “plate-3D”.

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3. Fig. 2. Facing of a flat duralumin panel with elements (a) — “box-F”, (b) — “box-B”, (c) — “plate-B”.

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4. Fig. 3. Effects of facing a flat smooth panel with resonators “box-B”, “box-F”, “plate-B”.

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5. Fig. 4. View of the reinforced panel (a) — from the RK side, (b) — from the ZE side; (c) — view of the second wall.

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6. Fig. 5. Effect of facing the second wall of a flat reinforced panel with resonators “plate-F”.

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7. Fig. 6. Facing of a cylindrical smooth panel with (a) — spaced and (b) — adjacent “box-F” elements. (c) — Lining of a cylindrical reinforced panel with “plate-B” elements.

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8. Fig. 7. Effects of lining a cylindrical panel with spaced “box-B” and “box-F” resonators.

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9. Fig. 8. Effects of lining a cylindrical reinforced panel with “plate-B” and “box-B” resonators.

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10. Fig. 9. Lining of an aircraft side with resonators (a) — “box-F”, (b) — “plate-B”, (c) — “plate” + “box”.

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11. Fig. 10. Distribution of sound pressure levels at a frequency of 133 Hz inside the cabin (a) — without lining and (b) — with lining with “plate” + “box” resonators. (c) — Effects of lining with “plate” + “box” resonators at points located near the loaded side.

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