Apparatus for microscopic detection of hardness

What is claimed is: 1. An adjustable stage mount, comprising: a housing including a base defining a hole and an annular protrusion extending from the base; an adjustable stage including a mounting surface and a ball joint extension extending from the mounting surface and defined by a ball joint extension wall and a semi-spherical end, the wall including at least one radial bore extending therethrough; the annular protrusion including a central axis and further including a plurality of xy-axis bores extending therethrough in a sloped radial configuration and a z-axis locking assembly, the z-axis locking assembly including a radial pin hole, oriented radially with respect to the annular protrusion, and two z-axis bores perpendicular to the radial pin hole, and offset from the central axis of the annular protrusion; a pin configured to engage the at least one radial bore; a plurality of xy-axis bolts configured to engage the plurality of xy-axis bores and to contact the ball joint extension wall; and a plurality of z-axis bolts configured to engage the two z-axis bores and to contact the pin, wherein the semi-spherical end is configured to rotatably engage the hole. 2. The adjustable stage mount of claim 1 , wherein the adjustable stage includes a mounting plate. 3. The adjustable stage mount of claim 2 , wherein the mounting plate includes a plurality of bores configured to mount a component. 4. The adjustable stage mount of claim 1 , wherein the housing includes a plurality of mounting slots configured to removably mount the housing. 5. The adjustable stage mount of claim 1 , wherein the housing includes one or more T-shaped protrusions extending from a bottom of the base. 6. The adjustable stage mount of claim 1 , wherein the hole is defined by a rounded edge. 7. The adjustable stage mount of claim 1 , wherein the ball joint extension wall includes a plurality of radial bores. 8. The adjustable stage mount of claim 1 , wherein the ball joint extension wall is configured as a conical wall. 9. The adjustable stage mount of claim 1 , wherein the xy-bores extend through the annular protrusion at an angle. 10. An adjustable indenter mount, comprising: a housing including a shoulder defining a hole and an annular protrusion; an adjustable indenter including an indenter tip mount and a ball joint extension extending from the indenter tip mount and defined by a ball joint extension wall and a semi-spherical end, the wall including at least one radial bore extending therethrough; the annular protrusion including a central axis and further including a plurality of xy-axis bores extending therethrough in a sloped radial configuration and a z-axis locking assembly, the z-axis locking assembly including a radial pin hole, oriented radially with respect to the annular protrusion, and two z-axis bores perpendicular to the radial pin hole, and offset from the central axis of the annular protrusion; a pin configured to engage that at lest one radial bore; a plurality of xy-axis bolts configured to engage the plurality of xy-axis bores and to contact the ball joint extension wall; and a plurality of z-axis bolts configured to engage the two z-axis bores and to contact the pin, wherein the semi-spherical end is configured to rotatably engage the hole. 11. The adjustable indenter mount of claim 10 , further comprising: an indenter tip; and a collar adapted to removably attach to the indenter tip mount, wherein the collar is configured to secure the indenter tip to the indenter tip mount. 12. The adjustable indenter mount of claim 11 , wherein the collar is adapted to removably connect to the indenter tip mount with a snap-fit connection. 13. The adjustable indenter mount of claim 11 , wherein the indenter tip mount includes external threading and the collar includes internal threading for mating with the external threading of the indenter tip mount. 14. The adjustable indenter mount of claim 10 , wherein the housing is configured to be attached to an indenter machine. 15. The adjustable indenter mount of claim 10 , wherein the shoulder includes a rounded edge defining the hole. 16. The adjustable indenter mount of claim 10 , wherein the ball joint extension wall includes a plurality of radial bores. 17. The adjustable indenter mount of claim 10 , wherein the ball joint extension wail is configured as a conical wall. 18. The adjustable indenter mount of claim 10 , wherein the xy-bores extend through the annular protrusion at an angle. 19. A microhardness tester, comprising: the adjustable stage mount of claim 1 ; and a collision protection switch, comprising: a first plate formed of an electrically insulative material, the first plate including a first, a second, and a third pair of electrically conductive pins; the first pair, the second pair, and the third pair of electrically conductive pins each including a first pin and a second pin spaced apart from each other, the first pin of the first pair of electrically conductive pins in electrical communication with the second pin of the second pair of electrically conductive pins, and the first pin of the second pair of electrically conductive pins in electrical communication with the second pin of the third pair of electrically conductive pins; a voltage source in electrical communication with the first pin of the third pair of electrically conductive pins and the second pin of the first pair of electrically conductive pins; a second plate formed of an electrically insulative material, the second plate including a first electrically conductive ball, a second electrically conductive ball, and a third electrically conductive ball extending from a wall thereof; and a retention spring forcing the first plate and the second plate together in a first position where the first electrically conductive ball engages the first pair of electrically conductive pins, the second electrically conductive ball engages the second pair of electrically conductive pins, and the third electrically conductive ball engages the third pair of electrically conductive pins, forming a closed circuit, wherein the first electrically conductive ball, the second electrically conductive ball, and the third electrically conductive ball are configured such that if any one disengages the respective first pair, second pair, or third pair of electrically conductive pins the circuit is opened. 20. The microhardness tester of claim 19 , wherein the first plate further comprises: a first internal pocket housing the first pair of electrically conductive pins and accessible by a first aperture in the first plate; a second internal pocket housing the second pair of electrically conductive pins and accessible by a second aperture in the first plate; and a third internal pocket housing the third pair of electrically conductive pins and accessible by a third aperture in the first plate. 21. The microhardness tester of claim 19 , further comprising a light in electrical communication with the circuit, wherein the light is configured to deluminate when the circuit is opened. 22. The microhardness tester of claim 19 , further comprising an alarm in electrical communication with the circuit, wherein the alarm is configured to sound when the circuit is opened. 23. The microhardness tester of claim 19 , further comprising a controller in electrical communication with the circuit, wherein the controller is configured to turn off a motor associate