Process for forming a fibrous nonwoven web with uniform, directionally-oriented projections

What is claimed is: 1. A process for forming a fibrous nonwoven web with uniform, directionally-oriented projections comprising: providing a first forming surface defining a plurality of openings therein; providing a second forming surface which is pervious to air; overlaying said first forming surface atop said second forming surface; causing said first forming surface to travel in a first direction at a first speed; causing said second forming surface to travel in said first direction at a second speed to cause a speed differential between said first forming surface and said second forming surface; depositing a plurality of fibers onto said first forming surface to form a fibrous nonwoven web; causing a portion of said plurality of fibers to extend through said openings in said first forming surface and contact said second forming surface to form a plurality of fibrous projections in said fibrous nonwoven web; said speed differential causing said projections to have a uniform, directional orientation relative to said first direction of travel of said first forming surface and each projection having a base portion formed of fibers throughout its cross section and a head portion connected to said base portion and wherein said head portion is skewed relative to said base portion thereby forming an overhang; and removing said fibrous nonwoven web with said uniform, directionally-oriented projections from said first forming surface. 2. The process of claim 1 which further includes providing a vacuum source beneath said second forming surface on a side of said second forming surface opposite said first forming surface to aid in a movement of said fibers through said openings in said first forming surface and contact said second forming surface. 3. The process of claim 1 which further includes causing said first and second forming surfaces to travel at a distance differential “y” as defined herein of between about 51millimeters (2 inches) and about 152 millimeters (6 inches). 4. The process of claim 1 which further includes driving one of said first and second forming surfaces by frictional engagement with the other of said first and second forming surfaces. 5. The process of claim 1 which further includes driving said first forming surface in said first direction independently of said second forming surface. 6. A process for forming a fibrous nonwoven web with uniform, directionally-oriented projections comprising: providing a first forming surface defining a plurality of openings therein; providing a second forming surface which is pervious to air; overlaying said first forming surface atop said second forming surface; causing said first forming surface to travel in a first direction at a first speed; causing said second forming surface to travel in said first direction at a second speed to cause a speed differential between said first forming surface and said second forming surface; depositing a plurality of fibers onto said first forming surface to form a fibrous nonwoven web; causing a portion of said plurality of fibers to extend through said openings in said first forming surface and contact said second forming surface to form a plurality of fibrous projections in said fibrous nonwoven web; said speed differential causing said projections to have a uniform, directional orientation relative to said first direction of travel of said first forming surface and each projection having a solid base portion formed of fibers throughout its cross section and a head portion connected to said base portion and wherein said head portion is skewed relative to said base portion thereby forming an overhang. 7. The process of claim 6 which further includes providing a vacuum source beneath said second forming surface on a side of said second forming surface opposite said first forming surface to aid in a movement of said fibers through said openings in said first forming surface and contact said second forming surface. 8. The process of claim 6 which further includes causing said first and second forming surfaces to travel at a distance differential “y” as defined herein of between about 51millimeters (2 inches) and about 152 millimeters (6 inches). 9. The process of claim 6 which further includes driving one of said first and second forming surfaces by frictional engagement with the other of said first and second forming surfaces. 10. The process of claim 6 which further includes driving said first forming surface in said first direction independently of said second forming surface. 11. A process for forming a fibrous nonwoven web with uniform, directionally-oriented projections comprising: providing a first forming surface defining a plurality of openings therein; providing a second forming surface which is pervious to air; overlaying said first forming surface atop said second forming surface; causing said first forming surface to travel in a first direction at a first speed; causing said second forming surface to travel in said first direction at a second speed to cause a speed differential between said first forming surface and said second forming surface; depositing a plurality of fibers onto said first forming surface to form a fibrous nonwoven web; causing a portion of said plurality of fibers to extend through said openings in said first forming surface and contact said second forming surface to form a plurality of fibrous projections in said fibrous nonwoven web; said speed differential causing said projections to have a uniform, directional orientation relative to said first direction of travel of said first forming surface and each projection having a base portion and a head portion connected to said base portion, said head portion is skewed relative to said base portion thereby forming an overhang and wherein said base portion has a base portion width and said head portion has a head portion width greater than the base portion width. 12. The process of claim 11 , wherein the base portion is formed of fibers throughout its cross section.