초록 ▼

A light-weight acoustical substrate is disclosed. In one embodiment, the substrate includes a substantially open core and outer facing layers. The core is comprised of a plurality of open, cells which extend between the facing layers. The cells may have numerous configurations, including honeycomb.

A light-weight acoustical substrate is disclosed. In one embodiment, the substrate includes a substantially open core and outer facing layers. The core is comprised of a plurality of open, cells which extend between the facing layers. The cells may have numerous configurations, including honeycomb. The facing layers may be non-woven or woven glass scrims in some embodiments, A multi-layered acoustical structure is provided which in one non-limiting embodiment is comprised of two cores with outer facing layers and an interlayer between the cores.

대표청구항 ▼

1. An acoustical substrate having a first major surface opposite a second major surface, the acoustical substrate comprising: a substantially open core having a plurality of open cells defined by cell walls extending perpendicular to opposing first and second major sides of the core, the first major

1. An acoustical substrate having a first major surface opposite a second major surface, the acoustical substrate comprising: a substantially open core having a plurality of open cells defined by cell walls extending perpendicular to opposing first and second major sides of the core, the first major side being substantially planar;a first facing layer having an upper surface opposite a lower surface, the lower surface being substantially planar and attached directly to and contacting the first major side of the core, the first facing layer forming the first major surface; anda second facing layer attached to the second major side of the core, the second facing layer forming the second major surface,wherein the first facing layer is porous and has an airflow resistance in a range of about and including 100 to 7500 mks rayls. 2. The acoustical substrate of claim 1, wherein the acoustical substrate has a noise reduction coefficient equal to or greater than 0.5. 3. The acoustical substrate of claim 1, wherein the first facing layer is coated with a high solids paint which configures the first facing layer to have the airflow resistance in a range of about and including 100 to 7500 mks rayls. 4. The acoustical substrate of claim 1, wherein the first facing layer is comprised of laminated non-woven glass fibers. 5. The acoustical substrate of claim 1, wherein the first and second facing layers have a thickness ranging from about and including 0.010 to 0.050 inches. 6. The acoustical substrate of claim 1, wherein the core is formed of 20 to 80 pound Kraft paper. 7. The acoustical substrate of claim 1, wherein the core is formed of fiberglass or aluminum sheet. 8. The acoustical substrate of claim 1, wherein the core has at least one of honeycomb shaped cells and triangular shaped cells. 9. The acoustical substrate of claim 1, wherein the core has a corrugated construction with cells having open ends disposed proximate to the first and second major sides of the core. 10. The acoustical substrate of claim 1, wherein cells create an open volume of the core which accounts for 90% or more of the total volume occupied by the core. 11. The acoustical substrate of claim 1, wherein the second facing layer is porous and has an airflow resistance in a range of about and including 100 to 1000 mks rayls. 12. The acoustical substrate of claim 1, wherein the first facing layer is formed of a woven glass scrim. 13. An acoustical substrate comprising: a substantially open core having a perimeter edge extending around lateral sides of the core, the core formed of a plurality of open cells defined by cell walls extending perpendicular to opposing first and second major sides of the core, the cells walls being formed of paper;a first facing layer attached directly to and contacting the first major side of the core with adhesive; anda second facing layer attached to the second major side of the core with adhesive,wherein the first and second facing layers are each porous and have an airflow resistance in a range of about and including 100 to 7500 mks rayls. 14. The acoustical substrate of claim 13, wherein the acoustical substrate has a noise reduction coefficient equal to or greater than 0.65. 15. The acoustical substrate of claim 13, wherein the first and second facing layers are coated with a high solids paint which configures the facing layers to have the airflow resistance in a range of about and including 100 to 7500 mks rayls. 16. The acoustical substrate of claim 13, wherein the first facing layer is comprised of laminated non-woven glass fibers. 17. The acoustical substrate of claim 13, wherein the first and second facing layers have a thickness ranging from about and including 0.010 to 0.050 inches. 18. The acoustical substrate of claim 13, wherein the core is formed of 20 to 80 pound Kraft paper. 19. The acoustical substrate of claim 13, wherein the substrate is frameless on all lateral sides around the perimeter edge of the core. 20. An acoustical structure comprising: a first substrate comprising a substantially open first core having a plurality of first open cells defined by cell walls extending perpendicular to opposing first and second major sides of the first core, the first major side being substantially planar, the first open cells having a first diameter;a first facing layer having an upper surface opposite a lower surface, the lower surface being substantially planar and attached directly to and contacting the first major side of the first core, wherein the first facing layer is porous and has an airflow resistance of about and including 100 to 1000 mks rayls;a second substrate comprising a substantially open second core having a plurality of second open cells defined by cell walls extending perpendicular to opposing first and second major sides of the second core, the second open cells having a second diameter;a second facing layer attached to the second major side of the second core; andan interlayer disposed between the first and second substrates, the first and second substrates being bonded to opposite sides of the interlayer; wherein the first diameter and second diameter are not equal.