Floor panel

The invention claimed is: 1. A method for manufacturing a plurality of floor panels, said floor panels being rectangular, having at least a pair of longitudinal opposite edges and a pair of short opposite edges the method comprising: forming a board larger than a single one of said floor panels; said board comprising at least a synthetic material substrate, a printed polyvinyl chloride film located on top of said synthetic material substrate, and a transparent or translucent wear layer located on top of said printed polyvinyl chloride film; said synthetic material substrate having a density of more than 450 kilograms per cubic meter and comprising polyvinyl chloride and fillers; said transparent or translucent wear layer comprising a vinyl film having a thickness of 0.2 mm to 1 mm; wherein forming said board includes a first step of extruding synthetic material substrate; a second step of providing a top layer on said synthetic material substrate by at least adhering the printed polyvinyl chloride film to said synthetic material substrate by at least one of heating or pressing and providing said transparent or translucent wear layer on said printed polyvinyl chloride film by at least adhering the transparent or translucent wear layer to said polyvinyl chloride film by at least one of heating or pressing; and a third step of mechanically embossing said top layer in such a way that impressions formed from said mechanically embossing are limited in depth to said transparent or translucent wear layer; wherein said first step and said second step are performed in a continuous manner on a same production line; obtaining said plurality of floor panels from said board; wherein said obtaining said plurality of floor panels from said board comprises a dividing operation; wherein said obtaining said plurality of floor panels from said board comprises a milling treatment with rotating milling tools at least for providing mechanical coupling parts to at least the pair of longitudinal opposite edges of said plurality of floor panels; wherein said mechanical coupling parts are configured to allow two of said plurality of floor panels to couple to each other at the corresponding pair of longitudinal opposite edges; wherein said mechanical coupling parts include vertically active locking surfaces configured to provide locking in a vertical direction between the two of said plurality of floor panels perpendicular to a plane of the coupled floor panels; wherein said mechanical coupling parts include horizontally active locking surfaces configured to provide locking in a horizontal direction between the two of said plurality of floor panels in the plane of the coupled floor panels; wherein the vertically active locking surfaces and horizontally active locking surfaces are realized in said synthetic material substrate; and wherein said milling treatment occurs after said dividing operation. 2. The method of claim 1 , wherein said milling treatment comprises forming a recessed edge at least on one or both edges of said pair of longitudinal opposite edges by removing a portion on the respective edges. 3. The method of claim 2 , wherein said recessed edge has a shape of a chamfer. 4. The method of claim 3 , wherein said chamfer is limited in depth to the thickness of said transparent or translucent wear layer. 5. The method of claim 2 , wherein a surface of said recessed edge is formed by said synthetic material substrate. 6. The method of claim 5 , wherein the surface of said recessed edge comprises a separate decorative covering. 7. The method of claim 4 , wherein said top layer further comprises a UV surface coating; wherein forming said board includes applying said UV surface coating subsequently to said adhering the transparent or translucent wear layer to the printed polyvinyl chloride film. 8. The method of claim 7 , wherein said dividing operation is a sawing operation. 9. The method of claim 8 , wherein said board is rigid and cannot be wound up. 10. The method of claim 9 , wherein said board has a thickness of 5 millimeter or more. 11. The method of claim 1 , wherein said transparent or translucent wear layer is free from filler materials and hard particles. 12. A method for manufacturing a plurality of floor panels, said panels being rectangular, having at least a pair of longitudinal opposite edges and a pair of short opposite edges the method comprising: forming a board larger than a single one of said floor panels; said board comprising at least a synthetic material substrate board, a printed polyvinyl chloride film located on top of said synthetic material substrate, and a transparent or translucent wear layer located on top of said polyvinyl chloride film; said synthetic material substrate having a density of more than 450 kilograms per cubic meter and comprising polyvinyl chloride and fillers; said transparent or translucent wear layer comprising a vinyl film having a thickness of 0.2 mm to 1 mm; wherein at least the pair of longitudinal opposite edges of said plurality of floor panels comprises mechanical coupling parts configured to allow two of said plurality of floor panels to couple to each other at the corresponding pair of longitudinal opposite edges; wherein said mechanical coupling parts comprise a tongue and a groove; wherein said groove is defined by an upper lip and a lower lip extending in a horizontal direction beyond said upper lip in a plane of the coupled floor panels; wherein said mechanical coupling parts include a first pair of vertically active locking surfaces formed between an upper surface of the tongue and a lower side of the upper lip configured to provide locking in a vertical direction between the two of said plurality of floor panels perpendicular to the plane of the coupled floor panels; wherein said mechanical coupling parts include a first pair of horizontally active locking surfaces formed between an upstanding part on the lower lip and a recess on a lower side of the tongue configured to provide locking in a horizontal direction between the two of said plurality of floor panels in the plane of the coupled floor panels; wherein the first pair of vertically active locking surfaces and first pair of horizontally active locking surfaces are realized in said synthetic material substrate; wherein forming said board includes a first step of extruding said synthetic material substrate; a second step of providing a top layer on said synthetic material substrate by at least adhering the printed polyvinyl chloride film to said synthetic material substrate by at least one of heating or pressing and providing said transparent or translucent wear layer on said printed polyvinyl chloride film by at least adhering the transparent or translucent wear layer to said polyvinyl chloride film by at least one of heating or pressing; and a third step of mechanically embossing said top layer in such a way that impressions formed from said mechanically embossing are limited in depth to said transparent or translucent wear layer; wherein said first step and said second step are performed in a continuous manner on a same production line; and obtaining said plurality of floor panels from said board, wherein said obtaining said plurality of floor panels from said board comprises a dividing operation; wherein said obtaining said plurality of floor panels from said board comprises a milling treatment with rotating milling tools at least for providing said mechanical coupling means. 13. The method of claim 12 , wherein said first pair of horizontally active locking surfaces is oriented at an angle with said plane of the coupled panels; s