Method and apparatus for comprehensive evaluation of tribological materials
First Claim
1. A lubricated contact system test apparatus for systemic evaluation of tribological performance and durability of individual materials as tribological elements of a lubricated contact system comprising a plurality of contacting bodies meeting together at a uniform point of contact upon their lubricated contacting surfaces, said tribological elements comprising:
- 1) any film between said contacting surfaces;
2) any boundary film adhered to a contacting surface of a contacting body;
3) a near-surface region of each contacting body; and
,4) a sub-surface region within each contacting body, said lubricated contact system test apparatus comprising;
a. a first contact assembly comprising;
i. a first contacting body member having a first contacting surface, said first contacting body member being comprised of test material and symmetric about at least one central axis;
ii. means to support said first contacting body member through said at least one symmetric central axis defining a support axis; and
,iii. means for rotation of said first contacting body member about said support axis, defining an axis of rotation for said first contacting body, which rotation may be varied in both rotational speed and direction;
b. a second contact assembly operatively engaging said first contact assembly, said second contact assembly comprising;
i. a second contacting body member having a second contacting surface engaging said first contact surface in a contact of uniform area independent of the relative motion of said first and second contacting bodies, said second contacting body member being comprised of test material and symmetric about at least one central axis;
ii. means to support said second contacting body member through said at least one symmetric central axis defining a support axis; and
,iii. means for rotation of said second contacting body member about said support axis, defining an axis of rotation for said second contacting body, which rotation may be varied in both rotational speed and direction;
c. lubrication means to provide a test lubricating material comprising at least one lubricating substance in the form of a solid, liquid or gas to the contact point of said first contact surface and said second contact surface;
d. orientation means to locate said uniform point of contact of said first contact surface and said second contact surface with respect to the axis of rotation of said first contacting body member and the axis of rotation of said second contacting body member;
e. means to measure the rotational speed and direction of said first contacting body to obtain a first velocity vector for said first contacting body in relation to the contact;
f. means to measure the rotational speed and direction of said second contacting body to obtain a second velocity vector for said second contacting body in relation to the contact;
wherein an entraining velocity of the lubricated contact system, representative of hydrodynamic and elastohydrodynamic (EHD) lubrication of the contact, is one-half of the vector sum of said first velocity vector and said second velocity vector, and a sliding velocity of the lubricated contact system, representative of lubrication mechanisms within the contact, is the vector difference of said first velocity vector and said second velocity vector; and
,wherein said entraining velocity is controlled independently of said sliding velocity through selective placement of said uniform point of contact of said first and second contact surfaces, by selective location of said uniform point of contact with respect to the axis of rotation of said first contacting body member and the axis of rotation of said second contacting body member and rotational speed of said first and second contact body members, and, said sliding velocity is controlled independently of said entraining velocity through the selective placement of said uniform point of contact of said first and second contact surfaces, by selective location of said uniform point of contact with respect to the axis of rotation of said first contacting body member and the axis of rotation of said second contacting body member and rotational speed of said first and second contact body members.
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Abstract
The present invention relates to a process and apparatus that allows a comprehensive evaluation of tribological materials. Such materials include lubricants (liquid, solid and gaseous materials) and load bearing surfaces (bulk materials, surface treatments and coatings). The process and apparatus enable a meaningful characterization of these materials in a way that connects basic lubrication, wear and failure mechanisms with machine hardware in its operational setting.
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Citations
13 Claims
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1. A lubricated contact system test apparatus for systemic evaluation of tribological performance and durability of individual materials as tribological elements of a lubricated contact system comprising a plurality of contacting bodies meeting together at a uniform point of contact upon their lubricated contacting surfaces, said tribological elements comprising:
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1) any film between said contacting surfaces; 2) any boundary film adhered to a contacting surface of a contacting body; 3) a near-surface region of each contacting body; and
,4) a sub-surface region within each contacting body, said lubricated contact system test apparatus comprising; a. a first contact assembly comprising; i. a first contacting body member having a first contacting surface, said first contacting body member being comprised of test material and symmetric about at least one central axis; ii. means to support said first contacting body member through said at least one symmetric central axis defining a support axis; and
,iii. means for rotation of said first contacting body member about said support axis, defining an axis of rotation for said first contacting body, which rotation may be varied in both rotational speed and direction; b. a second contact assembly operatively engaging said first contact assembly, said second contact assembly comprising; i. a second contacting body member having a second contacting surface engaging said first contact surface in a contact of uniform area independent of the relative motion of said first and second contacting bodies, said second contacting body member being comprised of test material and symmetric about at least one central axis; ii. means to support said second contacting body member through said at least one symmetric central axis defining a support axis; and
,iii. means for rotation of said second contacting body member about said support axis, defining an axis of rotation for said second contacting body, which rotation may be varied in both rotational speed and direction; c. lubrication means to provide a test lubricating material comprising at least one lubricating substance in the form of a solid, liquid or gas to the contact point of said first contact surface and said second contact surface; d. orientation means to locate said uniform point of contact of said first contact surface and said second contact surface with respect to the axis of rotation of said first contacting body member and the axis of rotation of said second contacting body member; e. means to measure the rotational speed and direction of said first contacting body to obtain a first velocity vector for said first contacting body in relation to the contact; f. means to measure the rotational speed and direction of said second contacting body to obtain a second velocity vector for said second contacting body in relation to the contact; wherein an entraining velocity of the lubricated contact system, representative of hydrodynamic and elastohydrodynamic (EHD) lubrication of the contact, is one-half of the vector sum of said first velocity vector and said second velocity vector, and a sliding velocity of the lubricated contact system, representative of lubrication mechanisms within the contact, is the vector difference of said first velocity vector and said second velocity vector; and
,wherein said entraining velocity is controlled independently of said sliding velocity through selective placement of said uniform point of contact of said first and second contact surfaces, by selective location of said uniform point of contact with respect to the axis of rotation of said first contacting body member and the axis of rotation of said second contacting body member and rotational speed of said first and second contact body members, and, said sliding velocity is controlled independently of said entraining velocity through the selective placement of said uniform point of contact of said first and second contact surfaces, by selective location of said uniform point of contact with respect to the axis of rotation of said first contacting body member and the axis of rotation of said second contacting body member and rotational speed of said first and second contact body members. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A process for systemic evaluation of tribological performance and durability of individual materials as tribological elements of a lubricated contact system comprising a plurality of contacting bodies meeting together at a uniform point of contact upon their lubricated contacting surfaces, said tribological elements comprising:
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1) any film between said contacting surfaces; 2) any boundary film adhered to a contacting surface of a contacting body; 3) a near-surface region of each contacting body; and
,4) a sub-surface region within each contacting body, said process comprising the steps of; a. providing a first contact assembly comprising; i. a first contacting body member having a first contacting surface, said first contacting body member being comprised of test material and symmetric about at least one central axis; ii. means to support said first contacting body member through said at least one symmetric central axis defining a support axis; and
,iii. means for rotation of said first contacting body member about said support axis, defining an axis of rotation for said first contacting body, which rotation may be varied in both rotational speed and direction; b. providing a second contact assembly operatively engaging said first contact assembly, said second contact assembly comprising; i. a second contacting body member having a second contacting surface engaging said first contact surface in a contact of uniform area independent of the relative motion of said first and second contacting bodies, said second contacting body member being comprised of test material and symmetric about at least one central axis; ii. means to support said second contacting body member through said at least one symmetric central axis defining a support axis; and
,iii. means for rotation of said second contacting body member about said support axis, defining an axis of rotation for said second contacting body, which rotation may be varied in both rotational speed and direction; c. providing a test lubricating material comprising at least one lubricating substance in the form of a solid, liquid or gas to the contact point of said first contact surface and said second contact surface; d. providing orientation means to locate said uniform point of contact of said first contact surface and said second contact surface with respect to the axis of rotation of said first contacting body member and the axis of rotation of said second contacting body member; e. providing a first measurement means to measure the rotational speed and direction of said first contacting body to obtain a first velocity vector for said first contacting body in relation to the contact; f. providing a second measurement means to measure the rotational speed and direction of said second contacting body to obtain a second velocity vector for said second contacting body in relation to the contact; wherein an entraining velocity of the lubricated contact system, representative of hydrodynamic and elastohydrodynamic (EHD) lubrication of the contact, is one-half of the vector sum of said first velocity vector and said second velocity vector, and a sliding velocity of the lubricated contact system, representative of lubrication mechanisms within the contact, is the vector difference of said first velocity vector and said second velocity vector; and
,wherein said entraining velocity is controlled independently of said sliding velocity through selective placement of said uniform point of contact of said first and second contact surfaces, by the selective location of said uniform point of contact with respect to the axis of rotation of said first contacting body member and rotational speed of said first and second contact body members, and said sliding velocity is controlled independently of said entraining velocity through the selective placement of said uniform point of contact of said first and second contact surfaces, by the selective location of said uniform point of contact with respect to the axis of rotation of said first contacting body member and rotational speed of said first and second contact body members; g. selectively varying the orientation of said contact relative to said first and second contact surfaces and the speed of rotation of said first and second contacting body members to obtain an entraining velocity for the lubricated contact system selected independently of said sliding velocity and a sliding velocity for the lubricated contact system selected independently of said entraining velocity; h. measuring at least one performance parameter of the lubricated contact system for said selected entraining velocity and said selected sliding velocity. - View Dependent Claims (12)
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13. A process for the simulation of an actual tribological contact encountered in machine components using a lubricated contact system test apparatus for systemic evaluation of tribological performance and durability of individual materials as tribological elements of a lubricated contact system comprising a plurality of contacting bodies meeting together at a uniform point of contact upon their lubricated contacting surfaces, said tribological elements comprising:
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1) any film between said contacting surfaces; 2) any boundary film adhered to a contacting surface of a contacting body; 3) a near-surface region of each contacting body; and
,4) a sub-surface region within each contacting body, said lubricated contact system test apparatus comprising; a. a first contact assembly comprising; i. a first contacting body member having a first contacting surface, said first contacting body member being comprised of test material and symmetric about at least one central axis; ii. means to support said first contacting body member through said at least one symmetric central axis defining a support axis; and
,iii. means for rotation of said first contacting body member about said support axis, defining an axis of rotation for said first contacting body, which rotation may be varied in both rotational speed and direction; b. a second contact assembly operatively engaging said first contact assembly, said second contact assembly comprising; i. a second contacting body member having a second contacting surface engaging said first contact surface in a contact of uniform area independent of the relative motion of said first and second contacting bodies, said second contacting body member being comprised of test material and symmetric about at least one central axis; ii. means to support said second contacting body member through said at least one symmetric central axis defining a support axis; and
,iii. means for rotation of said second contacting body member about said support axis, defining an axis of rotation for said second contacting body, which rotation may be varied in both rotational speed and direction; c. lubrication means to provide a test lubricating material comprising at least one lubricating substance in the form of a solid, liquid or gas to the contact point of said first contact surface and said second contact surface; d. orientation means to locate said uniform point of contact of said first contact surface and said second contact surface with respect to the axis of rotation of said first contacting body member and the axis of rotation of said second contacting body member; e. means to measure the rotational speed and direction of said first contacting body to obtain a first velocity vector for said first contacting body in relation to the contact; f. means to measure the rotational speed and direction of said second contacting body to obtain a second velocity vector for said second contacting body in relation to the contact; wherein an entraining velocity of the lubricated contact system, representative of hydrodynamic and elastohydrodynamic (EHD) lubrication of the contact, is one-half of the vector sum of said first velocity vector and said second velocity vector, and a sliding velocity of the lubricated contact system, representative of lubrication mechanisms within the contact, is the vector difference of said first velocity vector and said second velocity vector; and
,wherein said entraining velocity is controlled independently of said sliding velocity through selective placement of said uniform point of contact of said first and second contact surfaces, by the selective location of said uniform point of contact with respect to the axis of rotation of said first contacting body member and the axis of rotation of said second contacting body member and rotational speed of said first and second contact body members, and, said sliding velocity is controlled independently of said entraining velocity through the selective placement of said uniform point of contact of said first and second contact surfaces, by the selective location of said uniform point of contact with respect to the axis of rotation of said first contacting body member and the axis of rotation of said second contacting body member and rotational speed of said first and second contact body members;
which process comprises;a. analysis of actual contact to determine parameters encountered in the machine component contact; b. estimation of equivalent parameters for a simulated contact on a test apparatus contact; c. creation of a test plan to evaluate the equivalent parameters of the test apparatus throughout a range of operating conditions; d. verification of the operation of the simulated contact and correction to equivalent parameters as necessary; e. implementation of test plan and measurement of dependent variables; f. assembly of data with notation of affects of changes in dependent variables; g. preparation of accumulated data as tables, plots or averages for the purpose of evaluation; and
,h. evaluation of results and determination of conclusions with respect to operational parameters of actual contact from data accumulated from simulated contact.
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Specification