Scanning rheometer

The invention claimed is: 1. A filament stretching rheometer for measuring rheological and/or mechanical properties of a sample, comprising: a pair of opposed surfaces configured to hold the sample therebetween; an actuator configured to provide a controlled axial displacement of at least one of said opposed surfaces; a sample scanning unit configured to measure a diameter of said sample; and an environmentally controlled chamber comprising a surface for surrounding the sample, the environmentally controlled chamber configured to control environmental conditions of the sample and configured such that the sample can be instantly exposed to a different set of conditions by displacing the surface, thereby removing the entire surface from the sample; wherein said entire surface can be removed from said sample by vertically displacing said entire surface, wherein the environmentally controlled chamber is a housing, and wherein the filament stretching rheometer further comprises a holder for the housing, and wherein the housing is configured to slide vertically inside the holder. 2. The filament stretching rheometer according to claim 1 , wherein the environmentally controlled chamber is configured to correct at least one of the following: ambient temperature, ambient gas composition, flow rate of ambient gas, ambient humidity, and ambient pressure of gas inside the chamber. 3. The filament stretching rheometer according to claim 1 , wherein the environmentally controlled chamber comprises a temperature controller having a heating element, a cooling element, or both. 4. The filament stretching rheometer according to claim 3 , wherein the heating element is an induction heating device, a convection heating device, a thermoelectric heating device, or combination thereof. 5. The filament stretching rheometer according to claim 3 , wherein the cooling element is a thermoelectric cooling device, a refrigerator device, a circulation device configured to produce a circulation of cold gas, or combination thereof. 6. The filament stretching rheometer according to claim 1 , wherein the environmentally controlled chamber further comprises a humidity controller. 7. The filament stretching rheometer according to claim 1 , wherein the environmentally controlled chamber further comprises a pressure controller. 8. The filament stretching rheometer according to claim 1 , wherein the environmentally controlled chamber further comprises an inert gas flow rate controller. 9. The filament stretching rheometer according to claim 1 , wherein an insulating surface is part of the housing, and wherein the housing further comprises a top surface. 10. The filament stretching rheometer according to claim 9 , wherein the housing is cylindrical. 11. The filament stretching rheometer according to claim 1 , wherein the surface comprises an optical access and optical exit in an arrangement allowing the diameter of the sample to be measured optically across and inside the environmentally controlled chamber. 12. The filament stretching rheometer according to claim 11 , wherein the optical access and optical exit are elongated windows. 13. The filament stretching rheometer according to claim 1 , wherein a top surface of the pair of opposed surfaces is connected to a connector that is configured to be operated inside the environmentally controlled chamber and through a side of the surface.