metalwear: Metal Alloy Sliding Wear Resistance Test
In Auburngrads/SMRD.data: Statistical Methods For Reliability Data - Datasets
Description
Format
Source
See Also
Description
An experiment was conducted to test the sliding wear resistance of a particular metal alloy.
The data show changes in specimen thickness after being subjected to metal-to-metal sliding friction.
Adding weight can increase the sliding frictional forces and cause the specimen to wear more quickly.
A range of different weights were applied to (1) study the relationship between applied weight and wear
resistance and (2) gain a better understanding of the wear mechanism.
Format
A data.frame with 96 rows and 4 variables:
[, 1] microns Specimen thickness Numeric
[, 2] unit Unit designator Categoric
[, 3] cycles Accumulated cycles at an observation Numeric
[, 4] grams Weight applied to the test specimen Numeric
Source
Meeker, W. Q. and Escobar, L. A. (1998),
Statistical Methods for Reliability Data, New York, NY; John Wiley & Sons.
See Also
Other data-done: alloya,
at7987, bearingcage,
berkson20, bleed,
ceramicbearing, cirpack6,
comptime, computerlab,
cylinder, devicea,
deviceb, devicec,
deviceg, fan,
gaaslaser, grampus,
grids1, halfbeak,
heatexchanger, lfp1370,
lfptrun100, lzbearing,
mylarsub, nicdbattery,
piccioto,
printedcircuitboard,
resistor2, resistor,
superalloy, tantalum,
turbine, v7tube,
valveseat, zelencap
Other data-done: alloya,
at7987, bearingcage,
berkson20, bleed,
ceramicbearing, cirpack6,
comptime, computerlab,
cylinder, devicea,
deviceb, devicec,
deviceg, fan,
gaaslaser, grampus,
grids1, halfbeak,
heatexchanger, lfp1370,
lfptrun100, lzbearing,
mylarsub, nicdbattery,
piccioto,
printedcircuitboard,
resistor2, resistor,
superalloy, tantalum,
turbine, v7tube,
valveseat, zelencap
Auburngrads/SMRD.data documentation built on May 13, 2019, 10:02 a.m.
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Description Format Source See Also
Description
An experiment was conducted to test the sliding wear resistance of a particular metal alloy. The data show changes in specimen thickness after being subjected to metal-to-metal sliding friction. Adding weight can increase the sliding frictional forces and cause the specimen to wear more quickly. A range of different weights were applied to (1) study the relationship between applied weight and wear resistance and (2) gain a better understanding of the wear mechanism.
Format
A data.frame with 96 rows and 4 variables:
| [, 1] | microns | Specimen thickness | Numeric |
| [, 2] | unit | Unit designator | Categoric |
| [, 3] | cycles | Accumulated cycles at an observation | Numeric |
| [, 4] | grams | Weight applied to the test specimen | Numeric |
Source
Meeker, W. Q. and Escobar, L. A. (1998), Statistical Methods for Reliability Data, New York, NY; John Wiley & Sons.
See Also
Other data-done: alloya,
at7987, bearingcage,
berkson20, bleed,
ceramicbearing, cirpack6,
comptime, computerlab,
cylinder, devicea,
deviceb, devicec,
deviceg, fan,
gaaslaser, grampus,
grids1, halfbeak,
heatexchanger, lfp1370,
lfptrun100, lzbearing,
mylarsub, nicdbattery,
piccioto,
printedcircuitboard,
resistor2, resistor,
superalloy, tantalum,
turbine, v7tube,
valveseat, zelencap
Other data-done: alloya,
at7987, bearingcage,
berkson20, bleed,
ceramicbearing, cirpack6,
comptime, computerlab,
cylinder, devicea,
deviceb, devicec,
deviceg, fan,
gaaslaser, grampus,
grids1, halfbeak,
heatexchanger, lfp1370,
lfptrun100, lzbearing,
mylarsub, nicdbattery,
piccioto,
printedcircuitboard,
resistor2, resistor,
superalloy, tantalum,
turbine, v7tube,
valveseat, zelencap
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