Test methods and device for measuring transient resistance to movement
First Claim
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1. An apparatus for measurement of transient resistance to motion comprising:
- a base;
first and second pillow blocks attached to said base, said first and second pillow blocks having a horizontal space therebetween;
a polished linear rod directly connected to said pillow blocks and spanning said horizontal space;
a movable transport plate assembly securely mounted to, and constrained to move in only one dimension on, said polished linear rod;
a movable lower substrate having a lower test surface, the lower substrate securely mounted on top of the transport plate assembly;
a lower substrate holder mounted on said movable transport plate assembly and configured to removably and securely attach said lower substrate to said movable transport plate assembly;
a stationary upper test assembly having an upper side which is perpendicular to the upper test surface;
a stationary upper substrate having an upper test surface, the upper substrate securely mounted to the upper test assembly;
an upper substrate holder mounted to said upper test assembly and configured to removably and securely attach said upper substrate to said upper test assembly;
a force conducting rod having a first end directly connected to the side of the upper test assembly and extending parallel to the upper test surface;
a force transducer directly connected to a second end of said force conducting rod, said force transducer being configured to measure a force applied to the force conducting rod by the upper substrate;
a vertically elongated mount which secures the force transducer, force conducting rod, and upper test assembly to the base;
a test substance provided between and in direct contact with each of the upper and lower substrates;
a first normal force applied to the upper test surface, by which a second normal force, equivalent to the first normal force, is created between the upper and lower substrates;
a torque regulated motor configured to drive the movable transport plate assembly and lower substrate at a speed relative to the stationary upper substrate, a distance between said motor and said base being adjustable;
a position encoder configured to record a position of the movable transport plate assembly and lower substrate;
a controller configured to control the torque regulated motor such that the speed and the position are maintained within 0.1% of a target speed and target position, respectively; and
a data acquisition interface which receives and records each of the force, the torque, the speed, and the position as a function of time;
wherein said transducer, force conducting rod, and upper test assembly are located on a first plane which is parallel to said base;
wherein said movable transport assembly and said polished linear rod are located below and parallel to said force conducting rod.
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Abstract
A device for transient measurement of motion resistance between test substance and one or two test surfaces, comprising a tension/compression force transducer, a speed and/or torque controlled motor with position encoder, rails for mounting a movable sled, method for applying a normal force on the test specimen and computerized data acquisition. The tension/compression force transducer is capable of measuring the transient resistance to motion of the sample mounted to the movable sled in either horizontal direction or in reversible motion oscillatory pull/pull direction at variable frequency and amplitude. The force transducer is capable of precise measurement of the full motion record of the test material from the initiation of motion to the steady state movement.
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Citations
18 Claims
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1. An apparatus for measurement of transient resistance to motion comprising:
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a base; first and second pillow blocks attached to said base, said first and second pillow blocks having a horizontal space therebetween; a polished linear rod directly connected to said pillow blocks and spanning said horizontal space; a movable transport plate assembly securely mounted to, and constrained to move in only one dimension on, said polished linear rod; a movable lower substrate having a lower test surface, the lower substrate securely mounted on top of the transport plate assembly; a lower substrate holder mounted on said movable transport plate assembly and configured to removably and securely attach said lower substrate to said movable transport plate assembly; a stationary upper test assembly having an upper side which is perpendicular to the upper test surface; a stationary upper substrate having an upper test surface, the upper substrate securely mounted to the upper test assembly; an upper substrate holder mounted to said upper test assembly and configured to removably and securely attach said upper substrate to said upper test assembly; a force conducting rod having a first end directly connected to the side of the upper test assembly and extending parallel to the upper test surface; a force transducer directly connected to a second end of said force conducting rod, said force transducer being configured to measure a force applied to the force conducting rod by the upper substrate; a vertically elongated mount which secures the force transducer, force conducting rod, and upper test assembly to the base; a test substance provided between and in direct contact with each of the upper and lower substrates; a first normal force applied to the upper test surface, by which a second normal force, equivalent to the first normal force, is created between the upper and lower substrates; a torque regulated motor configured to drive the movable transport plate assembly and lower substrate at a speed relative to the stationary upper substrate, a distance between said motor and said base being adjustable; a position encoder configured to record a position of the movable transport plate assembly and lower substrate; a controller configured to control the torque regulated motor such that the speed and the position are maintained within 0.1% of a target speed and target position, respectively; and a data acquisition interface which receives and records each of the force, the torque, the speed, and the position as a function of time; wherein said transducer, force conducting rod, and upper test assembly are located on a first plane which is parallel to said base; wherein said movable transport assembly and said polished linear rod are located below and parallel to said force conducting rod. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
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13. A method of measuring the spreading, wetting, slipping, sticking, edge effects, friction, and lubricity of a test substance comprising;
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providing an apparatus comprising a movable transport plate assembly securely mounted to, and constrained to move in only one dimension on, a polished linear rod;
a movable lower substrate having a lower test surface, the lower substrate securely mounted on top of the transport plate assembly;
a lower substrate holder mounted on said movable transport plate assembly and configured to removably and securely attach said lower substrate to said movable transport plate assembly;
a stationary upper test assembly having an upper side which is perpendicular to the upper test surface;
a stationary upper substrate having an upper test surface, the upper substrate securely mounted to the upper test assembly;
an upper substrate holder mounted to said upper test assembly and configured to removably and securely attach said upper substrate to said upper test assembly;
a force conducting rod having a first end directly connected to the side of the upper test assembly and extending parallel to the upper test surface;
a force transducer directly connected to a second end of said force conducting rod, said force transducer being configured to measure a force applied to the force conducting rod by the upper substrate;
a vertically elongated mount which secures the force transducer, force conducting rod, and upper test assembly to the base;
a first normal force applied to the upper test surface, by which a second normal force, equivalent to the first normal force, is created between the upper and lower substrates;
a torque regulated motor configured to drive the movable transport plate assembly and lower substrate at a speed relative to the stationary upper substrate, a distance between said motor and said base being adjustable;
a position encoder configured to record a position of the movable transport plate assembly and lower substrate;
a position encoder configured to record a position of the movable transport plate assembly and lower substrate;
a controller configured to control the torque regulated motor such that the speed and the position are maintained within 0.1% of a target speed and target position, respectively; and
a data acquisition interface which receives and records each of the force, the torque, the speed, and the position as a function of time;providing said test substance provided between and in direct contact with each of the upper and lower substrates; varying the speed at a frequency such that the position oscillates about a center position; recording the force and torque as a function of time throughout the step of varying; and analyzing the recorded force, speed and torque as a function of time to determine the spreading, wetting, slip-stick, edge effects, friction, and lubricity of the test substance. - View Dependent Claims (14, 15, 16, 17, 18)
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Specification
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Current AssigneePhillip Nelson Rounds, Rhyta Sabina Rounds
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Original AssigneePhillip Nelson Rounds, Rhyta Sabina Rounds
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InventorsRounds, Phillip Nelson, Rounds, Rhyta Sabina
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Primary Examiner(s)Huber, Robert
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Assistant Examiner(s)Roberts, Herbert K
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Application NumberUS13/865,196Publication NumberTime in Patent Office1,363 DaysField of SearchUS Class Current1/1CPC Class CodesG01N 19/02 Measuring coefficient of fr...
