WO1998035099B1 - Vehicle arresting bed systems - Google Patents

Abstract

Vehicle arresting beds, for installation at the ends of aircarft runways, are effective to safely decelerate aircraft entering the bed. The arresting bed is assembled of a large number of blocks of cellular concrete (70) having predetermined compressive gradient strength, so that aircraft landing gear is subjected to drag forces effective to slow a variety of types of aircraft, while providing deceleration within a safe range of values. An arresting bed typically includes an entry region (52) of a depth increasing from 9 to 24 inches formed of blocks having a first compressive gradient strength. A second region (54), which may be tapered into the first region and increase in depth to 30 inches, is formed of blocks having a greater compressive gradient strength. An aircraft thus experiences increasing drag forces while it travels through the bed, to provide an arresting capability suitable for a variety of aircraft. A protective hardcoat layer (62) of cellular concrete of strength greater than the blocks overlays the blocks to enable service personnel to walk on the bed without damage. Arresting bed systems may be provided in alternative configurations, such as a bed formed of an aggregate including pieces of cellular concrete with or without interspersed pieces of other compressible material and covered by a hardcoat layer.

Claims

AMENDED CLAIMS[received by the International Bureau on 3 August 1998 (03.08.98); original claims 1-38 replaced by amended claims 1-32 (4 pages)]

1. A vehicle arresting bed system, comprising: a bed of cellular concrete having length, width and thickness and configured to decelerate a vehicle entering said bed; and a hardcoat layer overlaying said bed, said hardcoat layer comprising cellular concrete having a thickness not exceeding ten percent of average thickness of said bed and a strength to support a pedestrian.

2. A vehicle arresting bed system as in claim 1, wherein said bed is formed of cellular concrete having a compressibility which is different at different points along the length of said bed.

3. A vehicle arresting bed system as in claim 1 or 2, wherein said bed comprises lateral rows of blocks of cellular concrete.

4. A vehicle arresting bed system as in claim 3, wherein said bed is assembled from preformed blocks of a common length and a common width and includes blocks of different thickness.

5. A vehicle arresting bed system as in claim 1, wherein said bed comprises an aggregate including pieces of cellular concrete and said bed system additionally includes edge members arranged to constrain said aggregate from spreading beyond said length and width.

6. A vehicle arresting bed system as in claim 5, wherein said aggregate consists of pieces having dimensions not exceeding ten percent of average thickness of said bed and said cellular concrete pieces are characterized by one of: irregular size and shape; common size and shape.

7. A vehicle arresting bed system as in claim 5 or 6, wherein said edge members are formed of blocks of cellular concrete positioned along the perimeter of said bed.

8. A vehicle arresting bed system as in claim 5, 6 or 7, wherein said bed includes cellular concrete pieces having a compressibility which is different at different points along the length of said bed.

9. A vehicle arresting bed system, comprising: a bed of cellular concrete having length, width and thickness and including lateral rows of blocks of cellular concrete, each block having a

22 predetermined compressive gradient strength over a depth of penetration to provide gradual deceleration of a vehicle.

10. A vehicle arresting bed system as in claim 9, wherein said bed system additionally comprises a hardcoat layer overlaying said bed, said hardcoat layer comprising cellular concrete having a thickness not exceeding ten percent of average thickness of said bed and a strength to support a pedestrian.

11. A vehicle arresting bed system as in claim 9 or 10, wherein said bed includes a first lateral row of blocks having a dry density nominally equal to 17 pcf and a second lateral row of blocks having a dry density nominally equal to 19 pcf.

12. A vehicle arresting bed system as in claim 11 , wherein blocks of said second lateral row have a greater thickness than blocks of said first lateral row.

13. A vehicle arresting bed system as in claim 11 or 12, wherein blocks of said first lateral row have a 60/80 compressive gradient strength nominally equal to 70 psi and blocks of said second lateral row have an 80/100 compressive gradient strength nominally equal to 90 psi, when averaged over a depth of penetration within said respective blocks.

14. A vehicle arresting bed system as in claim 9, 10, 11 or 12, wherein said bed includes blocks having a 60/80 compressive gradient strength nominally equal to 70 psi, when averaged over a depth of penetration of said blocks.

15. A vehicle arresting bed system as in claim 9, 10, 12, 13 or 14, wherein said bed includes blocks having a dry density in a range of 12 to 22 pcf.

16. A vehicle arresting bed system as in claim 9, 10, 11, 12, 13, 14 or 15, wherein said bed includes blocks formed of cellular concrete having a wet density in a range of 14 to 23 pcf cured in forms of predetermined sizes.

17. A vehicle arresting bed system as in claim 9, 10, 11, 12, 13, 14, 15 or

16, wherein said bed includes blocks of cellular concrete having embedded therein compressible pieces of a material other than cellular concrete.

18. A vehicle arresting bed as in claim 9, 10, 11, 12, 13, 14, 15, 16 or 17, wherein said bed includes blocks of cellular concrete which include a lower layer of higher strength material.

19. A vehicle arresting bed as in claim 9, 10, 11, 12, 13, 14, 15, 16 or 17, wherein said bed includes blocks of cellular concrete having reinforcing members embedded therein.

23

20. A vehicle arresting bed system comprising: a bed formed of an aggregate including pieces of cellular concrete, said bed having length, width and thickness and configured to decelerate a vehicle entering said bed; edge members positioned along the perimeter of said bed to constrain said aggregate from spreading beyond said length and width; and a stabilizing layer overlaying said bed to limit movement of said aggregate within said bed.

21. A vehicle arresting bed system as in claim 20, wherein said edge members are formed of cellular concrete blocks, positioned along said perimeter.

22. A vehicle arresting bed system as in claim 20 or 21, wherein said stabilizing layer is a layer of cellular concrete having a thickness not exceeding ten percent of average thickness of said bed and a strength to support a pedestrian.

23. A vehicle arresting bed system as in claim 20, 21 or 22, wherein said aggregate additionally includes crushable pieces of a material other than cellular concrete.

24. A vehicle arresting bed system as in claim 20, 21, 22 or 23, wherein said aggregate has a different thickness in different portions of said bed.

25. A vehicle arresting bed system as in claim 20, 21, 22, 2 or 24, wherein said aggregate has a different compressibility in different portions of said bed.

26. A vehicle arresting bed system, comprising: a first lateral row of blocks of cellular concrete having a first dry density in a range of 12 to 22 pcf, blocks of said first row having a first height; a second lateral row of blocks of cellular concrete having a dry density nominally the same as said first dry density, blocks of said second row having a height incrementally greater than said first height; a hardcoat layer overlaying blocks of said first and second rows, said hardcoat layer comprising cellular concrete having a dry density greater than said first dry density and a thickness not exceeding ten percent of the average height of said blocks.

27. A vehicle arresting bed system as in claim 26, wherein blocks of said first and second rows have a 60/80 compressive gradient strength nominally equal to 70 psi, when averaged over a depth of penetration of said blocks.

24

28. A vehicle arresting bed system, comprising: first and second lateral rows of blocks of cellular concrete having a first dry density in a range of 12 to 22 pcf, blocks of said second row having a height incrementally greater than the height of blocks of said first row and the blocks of said first and second rows having a first compressive gradient strength to provide vehicle deceleration; third and fourth lateral rows of blocks of cellular concrete having a second dry density greater than said first dry density, blocks of said fourth row having a height incrementally greater than the height of blocks of said third row and the blocks of said third and fourth rows having a second compressive gradient strength, greater than said first compressive gradient strength, to provide greater vehicle deceleration; and a hardcoat layer overlaying blocks of said first, second, third and fourth rows, said hardcoat layer comprising cellular concrete having a dry density greater than said first and second dry densities and a thickness not exceeding ten percent of the average height of said blocks.

29. A vehicle arresting bed system as in claim 28, wherein blocks of said first and second rows have a 60/80 compressive gradient strength nominally equal to 70 psi and blocks of said third and fourth rows have an 80/100 compressive gradient strength nominally equal to 90 psi, when averaged over a depth of penetration within said respective blocks.

30. A vehicle arresting bed system as in claim 28 or 29, additionally including at least one lateral row of composite blocks formed partially of cellular concrete having said 60/80 compressive gradient strength and partially of cellular concrete having said 80/100 compressive gradient strength.

31. A vehicle arresting bed system as in claim 28, 29 or 30, wherein said blocks are formed of cellular concrete having a wet density in a range of 14 to 23 pcf cured in forms of predetermined sizes.

32. A vehicle arresting bed system as in claim 28, 29, 30 or 31, wherein said hardcoat layer is formed of cellular concrete having a wet density in a range of

22 to 26 pcf, which is cured in place overlying said blocks.

25