: Public Enumeration
Created: 22/08/2015 08:54:03
Modified: 14/07/2016 21:29:43
Project:
Advanced:
Analogs representing oil fluid test analysis result.<br/>
Attribute
Public
  acidNumber
Details:
Notes: Acid neutralization number (in milligram of KOH/gram).<br/>
Public
  interfacialTension
Details:
Notes: Interfacial tension (in dyne/centimetre or milliNewton/metre, which are the same).<br/>
Public
  dielectricBreakdown
Details:
Notes: Dielectric breakdown, for electrode gap size and temperature specified by selected standard  (in kV).<br/>
Public
  powerFactorPercent
Details:
Notes: Fluid power factor at specified temperature (in percent). Commonly used in US. (Note: Fluid power factor is very similar to fluid dissapation factor, but fluid power factor is cosine of the phase angle between an AC voltage applied to oil and the resulting current (where dissipation factor is the tangent). For values up to 0.005, fluid power factor and dissapation factor are very close. There is a conversion equation between the two). <br/>
Public
  dissipationFactor
Details:
Notes: Fluid dissipation factor in absolute value, not a percentage. (Multiplying this value by 100 would result in dissipation factor percent).<br/>
Public
  dissipationFactorPercent
Details:
Notes: Fluid dissipation factor (in percent). Commonly used in Asia. Dissipation factor is also known as loss factor or tan delta.<br/>
Public
  oxidationInhibitorDBP
Details:
Notes: 2,6-ditertiary-butyl phenol (DBP) oxidation inhibitor concentration (in percent by weight).<br/>
Public
  oxidationInhibitorDBPC
Details:
Notes: 2,6-ditertiarybutyl para-cresol (DBPC) oxidation inhibitor concentration (in percent by weight).<br/>
Public
  oxidationInhibitorD2668
Details:
Notes: 2,6-ditertiary-butyl para-cresol and 2,6-ditertiary-butyl phenol concentration (in percent by weight).<br/>
Public
  additiveDBDS
Details:
Notes: Dibenzyl disulfide (DBDS) concentration (in ppm, specificially in milligram/kilogram).<br/>
Public
  specificGravity
Details:
Notes: Specific gravity corrected to 15°C. Also known as relative density. It is a ratio of density of tested oil to density of water at a specific temperature.<br/>
Public
  density
Details:
Notes: Density (in gram/millilitre).<br/>
Public
  firePoint
Details:
Notes: Fire point (in °C). Fire point is when fire is sustained (oil catches fire). Can only be done by means of open cup test, which is commonly used in US.<br/>
Public
  flashPointOpenCup
Details:
Notes: Flash point (in °C) determined via open cup test. Flash point occurs when enough vapors have accumulated to sustain a flash. Open cup is used in US.<br/>
Public
  flashPointClosedCup
Details:
Notes: Flash point (in °C) determined via closed cup test. Flash point occurs when enough vapors have accumulated to sustain a flash. Closed cup is used in Europe.<br/>
Public
  pourPoint
Details:
Notes: Pour point (in °C). The pour point of a liquid is the temperature at which it becomes semi solid and loses its flow characteristics.<br/>
Public
  pourPointAutomatic
Details:
Notes: Pour point (in °C) determined by automatic method. The pour point of a liquid is the temperature at which it becomes semi solid and loses its flow characteristics.<br/>
Public
  kinematicViscosity
Details:
Notes: Kinematic viscosity (in millimetre2/second). Kinematic viscosity is the ratio of - absolute (or dynamic) viscosity to density. <br/>
Public
  staticElectrification
Details:
Notes: Static electrification tendency (in microcoulombs per metre3). Also called static charging tendency and electrostatic charging tendency (ECT).<br/>
Public
  resistivity
Details:
Notes: Resistivity at 90°C (in gigohm-metre).<br/>
Public
  passivatorContent
Details:
Notes: Total passivator content (in milligram/kilogram).<br/>
Public
  passivatorIrgamet39
Details:
Notes: Irgamet 39 metal passivator content (in ppm, specifically milligram/kilogram).<br/>
Public
  passivatorTTA
Details:
Notes: Metal passivator TTA (Irgamet39 in solid form) content (in milligram/kilogram).<br/>
Public
  passivatorBTA
Details:
Notes: Metal passivator BTA content (in milligram/kilogram).<br/>
Public
  sedimentAndSludgePercent
Details:
Notes: Sediment and sludge (in percent).<br/>
Public
  carbonyl
Details:
Notes: Concentration of carbonyl compounds (aldehydes and ketones) determined using infrared spectroscopy (in percent).<br/>
Public
  aromatics
Details:
Notes: Concentration of aromatic compounds determined using infrared spectroscopy (in percent).<br/>
Public
  oxidation
Details:
Notes: Measure of oxidation stability (in hours).<br/>
Public
  sludge
Details:
Notes: Sludge (in percent by mass). Typically performed on new oil,but can be done on used oil.<br/>
Public
  solubleAcids
Details:
Notes: Soluble acids  (in milligram of KOH/gram). Typically performed on new oil,but can be done on used oil.<br/>
Public
  volatileAcids
Details:
Notes: Volatile acids (in milligram of KOH/gram). Typically performed on new oil,but can be done on used oil.<br/>
Public
  totalAcids
Details:
Notes: Total acids (soluble plus volatile) (in milligram of KOH/gram). Typically performed on new oil,but can be done on used oil.<br/>
Public
  inductionTime
Details:
Notes: Oxidation induction time (in hours). Typically performed on new oil,but can be done on used oil.<br/>
Public
  inhibitor61125MethodC
Details:
Notes: Amount of inhibitor used in oxidation stablity test performed according to IEC 61125, method C. This value should accompany values resulting from testing according to IEC 61125, method  C to allow interpretation.<br/>
Public
  duration61125MethodC
Details:
Notes: Duration of oxidation stablity test performed according to IEC 61125, method C. This value should accompany values resulting from testing according to IEC 61125, method C to allow interpretation. Standard specified values are: 164, 332, and 500, but others can be used if agreed upon.<br/>
Public
  petroleumOrigin
Details:
Notes: Characterization of the carbon-type composition of insulating oils by petroleum origin.<br/>