Method and apparatus for screening

What is claimed is: 1. A vibratory screening machine, comprising: a replaceable screen assembly; and a compression assembly that is configured to exert a force on a rigid member of the replaceable screen assembly and deform the replaceable screen assembly into a concave shape and secure the replaceable screen assembly to the vibratory screening machine. 2. The vibratory screening machine of claim 1 , further comprising an apertured support plate having screening material secured to a top surface of the support plate. 3. The vibratory screening machine of claim 1 , wherein a top surface of the screening material is configured to deform to a pre-determined concave shape when the support plate is compressed. 4. The vibratory screening machine of claim 1 , wherein the screening material has a flat top surface when in an uncompressed state. 5. The vibratory screening machine of claim 1 , wherein the screening material has an undulating surface. 6. The vibratory screening machine of claim 1 , wherein the screening material is a mesh screen. 7. A vibratory screening machine, comprising: a replaceable screen assembly; a compression assembly that is configured to secure the replaceable screen assembly to the vibratory screening machine by applying a force to the replaceable screen assembly and deforming the replaceable screen assembly into a concave shape; and a vibratory apparatus secured to the vibratory screening machine and configured to vibrate the replaceable screen assembly. 8. The vibratory screening machine of claim 7 , wherein the replaceable screen assembly is configured to create a concave pathway for material to be screened. 9. The vibratory screening machine of claim 7 , further comprising an apertured support plate having screening material secured to a top surface of the support plate. 10. The vibratory screening machine of claim 7 , further comprising: a concave support surface, wherein the compression assembly is configured to deform the replaceable screen assembly into the concave shape against the concave support surface. 11. The vibratory screening machine of claim 10 , further comprising: a first wall member including the compression assembly; and a second wall member including a stop surface, wherein the concave support surface is located between the first and second wall members, and wherein the compression assembly is configured to exert a force on a first surface of the replaceable screen assembly to thereby press a second surface of the replaceable screen assembly against the stop surface of the second wall member. 12. The vibratory screening machine of claim 7 , further comprising two or more replaceable screen assemblies held under compression, wherein the two or more replaceable screen assemblies form a continuous screening surface. 13. The vibratory screening machine of claim 7 , further comprising a guide assembly having a guide assembly mating surface, wherein the replaceable screen assembly includes a mating surface that is configured to mate with the guide assembly mating surface. 14. The vibratory screening machine of claim 13 , wherein the replaceable screen assembly mating surface is located such that it guides the replaceable screen assembly into a predetermined position when mated with the guide assembly mating surface. 15. The vibratory screening machine of claim 13 , wherein the replaceable screen assembly mating surface is formed in a corner of the replaceable screen assembly or the replaceable screen assembly mating surface is formed generally centrally in a side member of the replaceable screen assembly. 16. A method of screening a material, the method comprising: placing a replaceable screen assembly on a vibratory screening machine; exerting a compressive force on the replaceable screen assembly, using a compression assembly, to thereby secure the replaceable screen assembly to the vibratory screening machine and to deform the replaceable screen assembly into a concave shape; and screening the material. 17. The method of claim 16 , further comprising: releasing the compression assembly such that the replaceable screen assembly is no longer compressed; replacing the replaceable screen assembly with another replaceable screen assembly; and securing the other replaceable screen assembly by exerting a compressive force on the other replaceable screen assembly, using the compression assembly, to thereby secure the other replaceable screen assembly to the vibratory screening machine. 18. The method of claim 16 , wherein exerting a compressive force on the replaceable screen assembly further comprises: exerting sufficient compressive force to deform the replaceable screen assembly into a pre-determined concave shape. 19. The method of claim 16 , further comprising: placing two or more replaceable screen assemblies on a vibratory screening machine; and exerting a compressive force on each of the replaceable screen assemblies, using the compression assembly, to thereby secure the replaceable screen assemblies to the vibratory screening machine, wherein placing and securing the two or more replaceable screen assemblies is performed such that the two or more screening assemblies form a continuous screening surface.