Fiber snubbing clamp using magnetic gripping action

I claim: 1. A clamping device for securing small diameter fibers or small diameter multi-fiber yarns in a mechanical property testing device, comprising: a device for testing a mechanical property of a single, small diameter fiber or a small diameter multi-fiber yarn and snubbing surfaces that reduce and moderate fiber load on the single, small diameter fiber or small diameter multi-fiber yarn that is being tested, wherein fiber grippage is provided by magnetic forces. 2. The device of claim 1 , where the device weight is 1 kg or less. 3. The device of claim 1 where the snubbing surfaces comprise a magnetizable alloy. 4. The device of claim 1 , where the snubbing surfaces are created by machining a rounded hole into a rectangular prism with orthogonal faces, and further rounding any edges that make contact with the fiber. 5. The device of claim 1 for testing the mechanical properties of fibers having an average diameter or less than 100 microns or a multi-fiber yarn having a total average diameter of less than 100 microns wherein the improvement comprises gripping the fiber or the multi-fiber yarn with a magnet. 6. A mechanical property testing device for testing a mechanical property of a single, small diameter fiber or a small diameter multi-fiber yarn, the mechanical property testing device comprising: a clamping device for small diameter fibers or small diameter multi-fiber yarns in which snubbing surfaces are used to moderate fiber loads, and fiber grippage is provided by magnetic forces where the magnetic gripping forces are provided by an electromagnet. 7. The device of claim 6 where the-device weight is 1 kg or less. 8. The device of claim 6 where the snubbing surfaces comprise a magnetizable alloy. 9. The device of claim 6 , where the snubbing surfaces are created by machining a rounded hole into a rectangular prism with orthogonal faces, and further rounding any edges that make contact with the fiber. 10. The device of claim 6 for testing the mechanical properties of fibers having an average diameter or less than 100 microns or a multi-fiber yarn having a total average diameter of less than 100 microns wherein the improvement comprises gripping the fiber or the multi-fiber yarn with a magnet. 11. A mechanical property testing device for testing a mechanical property of a single, small diameter fiber or a small diameter multi-fiber yarn, the mechanical property testing device comprising: a clamping device for small diameter fibers or small diameter multi-fiber yarns in which snubbing surfaces are used to moderate fiber loads, and fiber grippage is provided by magnetic forces where the snubbing surfaces are created by machining a rounded hole into a rectangular prism with orthogonal faces, and further rounding any edges that make contact with the fiber, where all surfaces are polished to a surface roughness of 10 micrometers or smaller, and where a slit is machined into the side of the prism to create a direct path from the rounded hole to one of the lateral edges of the prism. 12. The device of claim 11 , where the device weight is 1 kg or less or, preferably, 100 g or less. 13. The device of claim 11 where the snubbing surfaces comprise a magnetizable alloy. 14. The device of claim 11 , where the snubbing surfaces are created by machining a rounded hole into a rectangular prism with orthogonal faces, and further rounding any edges that make contact with the fiber. 15. The device of claim 11 for testing the mechanical properties of fibers having an average diameter or less than 100 microns or a multi-fiber yarn having a total average diameter of less than 100 microns wherein the improvement comprises gripping the fiber or the multi-fiber yarn with a magnet. 16. A pair of clamping devices for securing small diameter fibers or small diameter multi-fiber yarns in a mechanical property testing device comprising snubbing surfaces used to moderate fiber loads and fiber grippage is provided by magnetic forces, mechanical property testing device comprising an upper specimen holder comprising a first snubbing surface and a lower specimen holder comprising a second snubbing surface wherein the upper specimen holder can be displaced relative to the second specimen holder to test the where the snubbing surfaces are created by machining a rounded hole into a rectangular prism with orthogonal faces, and further rounding any edges that make contact with the fiber where all surfaces are polished to a surface roughness of 10 micrometers or smaller, and where the snubbing surfaces are designed so that the fiber load path is parallel and centered relative to the mounting hole that interfaces the device to an external loading apparatus. 17. The device of claim 16 , where the device weight is 1 kg or less or, preferably, 100 g or less. 18. The device of claim 16 where the snubbing surfaces comprise a magnetizable alloy. 19. The device of claim 16 , where the snubbing surfaces are created by machining a rounded hole into a rectangular prism with orthogonal faces, and further rounding any edges that make contact with the fiber. 20. The device of claim 16 for testing the mechanical properties of fibers having an average diameter or less than 100 microns or a multi-fiber yarn having a total average diameter of less than 100 microns wherein the improvement comprises gripping the fiber or the multi-fiber yarn with a magnet. 21. An assembly for testing the mechanical properties of fibers having an average diameter or less than 100 microns or a multi-fiber yarn having a total average diameter of less than 100 microns wherein the assembly comprises: a first fiber holder that comprises a first base that comprises a magnetizable alloy and a first magnet for holding a fiber between the first base and the first magnet, and a second fiber holder that comprises a second base that comprises a magnetizable alloy and a second magnet for holding a fiber between the second base and the second magnet. 22. The assembly of claim 21 wherein the first base and the second base each comprises a hole. 23. A device for testing tensile properties of a single fiber having an average diameter of not greater than 100 microns or a multi fiber yarn having an average diameter of not greater than 100 microns comprising: a first fiber holder having a surface that comprises a portion that comprises a ferromagnetic material or other magnetizable alloy; a first magnet for holding one end of a fiber having an average diameter of not greater than 100 microns or multi-fiber yarn having an average diameter of not greater than 100 microns; a second fiber holder that comprises a surface that comprises a portion that comprises a ferromagnetic material or other magnetizable alloy; a second magnet for holding another end of a fiber having an average diameter of not greater than 100 microns or multi-fiber yarn having an average diameter of not greater than 100 microns; wherein the surface of the first fiber holder and first magnet are attracted to each other and secure one end of the fiber having an average diameter of not greater than 100 microns or the multi-fiber yarn having an average diameter of not greater than 100 microns and the second fiber holder and second magnet are attracted to each other and secure the other end of the fiber having an average diameter of not greater than 100 microns or multi-fiber yarn having an average diameter of not greater than 100 microns with sufficient force to hold th