Universal mechanical tester for measuring friction and wear characteristics of materials

We claim: 1. A universal apparatus for testing wear and friction characteristics of a material, comprising: a frame that includes a carriage moveable along a vertical plane and a slide moveable along a horizontal plane; a force sensor assembly coupled to said slide; a holder for an upper specimen, said holder being coupled to the force sensor assembly; a mechanism for causing said upper specimen to exert a predetermined force on a lower specimen; a plurality of modular sample stages, each of said stages including a support for said lower specimen and a mechanism for producing a motion of the lower specimen relative to said upper specimen, said motion being rotational around a horizontal axis in one of said stages, rotational around a vertical axis in another of said stages, and linearly reciprocating along a horizontal direction in yet another of the stages; a base for alternatively supporting one of the stages, said base including a locking mechanism for coupling said one of the stages to the base and a rotational drive adapted for engagement of said mechanism for producing a motion of the lower specimen; a motor housed in said frame, said motor being adapted for actuation of said rotational drive; a controller for varying said force exerted on the sample; a processor programmed for executing a predetermined set of test operations; and means for identifying said one of the stages coupled to the base and for automatically enabling only a subset of said test operations, said subset corresponding to the one of the stages coupled to the base. 2. The apparatus of claim 1 , further including means for measuring a temperature of the upper and lower specimens. 3. The apparatus of claim 2 , further including an expansion slot and a corresponding expansion card with electronic circuitry configured to activate test protocols relevant to said means for measuring said temperature. 4. The apparatus of claim 3 , wherein said card contains an electronic identification that is automatically recognized by said processor to enable only said test protocols. 5. The apparatus of claim 1 , further including means for measuring a humidity in an environment containing said upper and lower specimens. 6. The apparatus of claim 5 , further including an expansion slot and a corresponding expansion card with electronic circuitry configured to activate test protocols relevant to said means for measuring said humidity. 7. The apparatus of claim 6 , wherein said card contains an electronic identification that is automatically recognized by said processor to enable only said test protocols. 8. The apparatus of claim 1 , further including means for controlling and measuring a voltage applied to said upper and lower specimens. 9. The apparatus of claim 8 , further including an expansion slot and a corresponding expansion card with electronic circuitry configured to activate test protocols relevant to said means for controlling and measuring said voltage. 10. The apparatus of claim 9 , wherein said card contains an electronic identification that is automatically recognized by said processor to enable only said test protocols. 11. The apparatus of claim 1 , further including means for controlling and measuring a resistance across said upper and lower specimens. 12. The apparatus of claim 11 , further including an expansion slot and a corresponding expansion card with electronic circuitry configured to activate test protocols relevant to said means for controlling and measuring said resistance. 13. The apparatus of claim 12 , wherein said card contains an electronic identification that is automatically recognized by said processor to enable only said test protocols. 14. The apparatus of claim 1 , further including means for measuring an acoustic emission of said upper and lower specimens. 15. The apparatus of claim 14 , further including an expansion slot and a corresponding expansion card with electronic circuitry configured to activate test protocols relevant to said means for measuring said acoustic emission. 16. The apparatus of claim 15 , wherein said card contains an electronic identification that is automatically recognized by said processor to enable only said test protocols. 17. A universal apparatus for testing wear and friction characteristics of a material, comprising: a frame that includes a carriage moveable along a vertical plane and a slide moveable along a horizontal plane; a force sensor assembly coupled to said slide; a holder for an upper specimen, said holder being coupled to the force sensor assembly; a mechanism for causing said upper specimen to exert a predetermined force on a lower specimen; a plurality of modular sample stages, each of said stages including a support for said lower specimen and a mechanism for producing a motion of the lower specimen relative to said upper specimen, said motion being rotational around a horizontal axis in one of said stages, rotational around a vertical axis in another of said stages, and linearly reciprocating along a horizontal direction in yet another of the stages; a base for alternatively supporting one of the stages, said base including a locking mechanism for coupling said one of the stages to the base and a rotational drive adapted for engagement of said mechanism for producing a motion of the lower specimen; a motor housed in said frame, said motor being adapted for actuation of said rotational drive; a controller for varying said force exerted on the sample; a processor programmed for executing a predetermined set of test operations; means for identifying a sample stage coupled to the base and for automatically enabling only a subset of said test operations, said subset corresponding to the sample stage coupled to the base; means for measuring a temperature of the upper and lower specimens; an expansion slot and a corresponding expansion card with an enabling electronic identification for activating test protocols relevant only to said means for measuring said temperature; means for measuring a humidity in an environment containing said upper and lower specimens; a second expansion slot and a corresponding expansion card with an enabling electronic identification for activating test protocols relevant only to said means for measuring said humidity; means for controlling and measuring a voltage applied to said upper and lower specimens; a third expansion slot and a corresponding expansion card with an enabling electronic identification for activating test protocols relevant only to said means for controlling and measuring said voltage; means for controlling and measuring a resistance across said upper and lower specimens; a fourth expansion slot and a corresponding expansion card with an enabling electronic identification for activating test protocols relevant only to said means for controlling and measuring said resistance; means for measuring an acoustic emission of said upper and lower specimens; and a fifth expansion slot and a corresponding expansion card with an enabling electronic identification for activating test protocols relevant to said means for measuring said acoustic emission.