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Parameter
All
(EZ)-Chlorfenvinphos
2,6-Dichlorobenzamide
4,4'-Bromobenzophenone
Acetochlor
Alachlor*
alpha-BHC
Atrazine*
Azoxystrobin*
Bentazone
Bifenthrin
Bromacil
Bromopropylate
Cadusafos
Carfentrazone-ethyl
Chlorantraniliprole
Chloridazon
Chlorothalonil
Chlorthal-dimethyl
cis-metaconazole
Cyanophos
Cypermethrin-1
delta-BHC
Desmetryn
Dichloran
Dicofol deg. (DCBP)
Diflubenzuron
Dinoseb
Disulfoton
Endosulfan sulfate
Etaconazole I and II
Ethoxyquin
Famphos
Fenchlorphos
Fenoxycarb
Fenson
Fipronil
Fluazifop-P-butyl*
Flucythrinate-1
Fluotrimazol
Flutriafol*
Formothion
Haloxyfop-methyl ester
Hexachlorobenzene
Imazalil
Isocarbophos
Isoprothiolane*
lambda-Cyhalothrin
Malaoxon*
Mepronil
Methacrifos
Methoxyfenozide
Mevinphos-1 and 2
Myclobutanil
Nitrofen
o,p'-DDE
Omethoate
Oxyfluorfen
p,p-Dicofol
Parathion-ethyl d10
Pencycuron
Permethrin-1
Phosalone
Picolinafen
Pirimophos-ethyl
Prometryn
Propazine
Prothiofos
Pyridaphenthion
Quintozene
Spirodiclofen
tau-Fluvalinate-2
Tepraloxydim
Terbuthylazine
Tetradifon
Thiobencarb
Transfluthrin
Tri-allate
Trifloxystrobin*
Triphenylmethane
(EZ)-Pyrifenox
2-4-D-Methylester
4,4'-Dichlorobenzophenone
Acibenzolar-s-methyl
Aldrin
alpha-Endosulfan
Atrazine-desisopropyl*
Benalaxyl
beta-BHC
Biphenyl
Bromocyclen
Bromuconazole-2
Captan
Carpropamid*
Chlorfenapyr
Chlorobenzilate
Chlorpropham
Chlorthalonil
Clethodim
Cyazofamid
Cyprazine
Deltamethrin-1 (Tralomethrin deg.-1)
Diazinon*
Dichlorprop-p (2,4-DP)
Dieldrin
Diflufenican*
Dioxacarb*
DMSA
Endrin
Ethion*
Etoxazole*
Fenamidone*
Fenfluthrin
Fenpiclonil
Fensulfothion
Fipronil Sulfone
Fluazinam
Fludioxonil
Fluquinconazole
Folpet
Furalaxyl
Heptachlor
Hexaconazole
Imazapyr
Isodrin
Isoxadifen-ethyl
Lenacil*
Malathion*
Mercarbam
Methidathion
Metolachlor (S-Metolachlor)
Mirex
Napropamide
Nitrothal-isopropyl
o,p'-DDT
Oxadiazon
p,p'-DDD
Paclobutrazol*
Parathion-methyl
Pentachloroaniline
Perthan
Phosmet
Picoxystrobin
Procymidone
Propachlor
Propentamphos
Pymetrazin
Pyrimethanil*
Quizalofop-ethyl (Quizalofop-P-ethyl)
Spiromesifen
Tebufenozide
Terbacil
Terbutryn
Tetramethrin-1
THPI
Triadimefon
Triazophos*
Triflumizole
Triticonazole
1-Naphthaleneacetic acid
2-Phenylphenol
Acephate*
Aclonifen
Allethrin-1,2
Ametryn
Azaconazole*
Benfluralin
beta-Endosulfan
Bitertanol-1 and 2
Bromophos
Butachlor
Carbophenothion-ethyl
Chlofenvinphos
Chlorfenson
Chloroneb
Chlorpyrifos
Chlorthion
Clodinafop-propargyl
Cyflufenamid
Cyproconazole
Desethylatrazine
Dichlobenil
Dichlorvos
Difenoconazole-1
Dimethenamid (Dimethenamid-P)
Diphenylamine*
DMST
EPN
Ethofumesate
Etridiazole
Fenarimol
Fenitrothion
Fenpropathrin
Fenthion*
Flamprop-methyl
Fluazolate
Flumetralin
Flurenol-butyl
Fonofos
gamma-BHC (Lindane)
Heptachlor-endo-epoxide
Hexazinone*
Iprobenfos
Isofenphos*
Isoxathion
Leptophos
Mandipropamid
Metalaxyl (Mefenoxam)
Methoprotryn
Metrafenone
Monalide
Nitralin
Norflurazon
o,p-Dicofol
Oxadixyl
p,p'-DDE
Paraoxon-methyl*
Pebulate*
Pentachloroanisole
Phenthoate*
Phosphamidon-1 and 2
Piperonyl butoxide
Profenofos*
Propamocarb
Propiconazole
Pyrazophos
Quinalphos
Secbumenton
Spirotetramat-cis-keto- hydroxy
Tebufenpyrad*
Terbucarb*
Terfluthrin
Tetrasul
Tolylfluanid
Triadimenol-1
Trichlornate
Trifluralin
Uniconazole (Uniconazole-P)
2,4'-Dichlorobenzophenone
3,4,5-Trimethacarb*
Acetamiprid
Acrinathrin
Allethrin-3,4 (Bioallethrin)
Anthraquinone
Azinphos-ethyl
Benoxacor
Bifenox
Boscalid*
Bromophos-ethyl
Butafenacil
Carboxin
Chlomazone
Chlorfluazuron
Chloropropylate
Chlorpyrifos-methyl
cis-Chlordane (alpha)
Cyanazine
Cyfluthrin-1,2,3,4
Cyprodinil*
Desethylterbuthylazine
Dichlofluanid
Diclobutrazol
Difenoconazole-2
Dimoxystrobin
Dipropetryn
Edifenphos
epsilon-HCH
Ethoprophos
Etrimfos
Fenazox*
Fenoxaprop-ethyl (Fenoxaprop-P-ethyl)
Fenpropidin
Fenvalerate-1
Flonicamid
Fluchloralin
Flumioxazin
Flutolanil
Formentate
Halfenprox
Heptachlor-exo-epoxide
Hexythiazox
Iprodione*
Isofenphos-methyl
Jodfenphos
Lufenuron
Menfenpyr-diethyl
Metazachlor
Methoxychlor
Metribuzin*
Monocrotophos
Nitrapyrin
o,p'-DDD
Ofurace*
Oxamyl
p,p'-DDT
Parathion
Penconazole
Pentanochlor
Phorate*
Phthalimide
Pirimiphos-methyl
Profluralin
Propanil
Propyzamide
Pyridalyl
Quinoxyfen
Simazine*
Spiroxamine
Tecnazene
Terbufos*
Tetrachlorvinphos
Thiacloprid
trans-Chlordane
Triadimenol-2
Tridiphane
Trinexapac-ethyl*
Vinclozolin
Soil
Total Particulate Matter [TPM]
Particle Size Distribution, Sieve Tests - Accumulative passing - 5.0 mm
Particle Size Distribution, Sieve Tests - Accumulative passing - 37.5 mm
Particle Size Distribution, Sieve Tests - Accumulative passing - 20.0 mm
Particle Size Distribution, Sieve Tests - Accumulative passing - 2.36 mm
Particle Size Distribution, Sieve Tests - Accumulative passing - 14.0 mm
Particle Size Distribution, Sieve Tests - Accumulative passing - 10.0 mm
Particle Size Distribution, Sieve Tests - Accumulative passing - 1.180 mm
Particle Size Distribution, Sieve Tests - Accumulative passing - 0.600 mm
Particle Size Distribution, Sieve Tests - Accumulative passing - 0.300 mm
Particle Size Distribution, Sieve Tests - Accumulative passing - 0.150 mm
Particle Size Distribution, Sieve Tests - Accumulative passing - 0.075 mm
Particle Size Distribution - Sieve Method - Accumulative passing - 8.0 mm
Particle Size Distribution - Sieve Method - Accumulative passing - 4.0 mm
Particle Size Distribution - Sieve Method - Accumulative passing - 31.5 mm
Particle Size Distribution - Sieve Method - Accumulative passing - 20.0 mm
Particle Size Distribution - Sieve Method - Accumulative passing - 2.0 mm
Particle Size Distribution - Sieve Method - Accumulative passing - 16.0 mm
Particle Size Distribution - Sieve Method - Accumulative passing - 1.0 mm
Particle Size Distribution - Sieve Method - Accumulative passing - 0.500 mm
Particle Size Distribution - Sieve Method - Accumulative passing - 0.250 mm
Particle Size Distribution - Sieve Method - Accumulative passing - 0.125 mm
Particle Size Distribution - Sieve Method - Accumulative passing - 0.063 mm
Flat & Elongated
Determination of Particle Shape - Flakiness Index
Elongation Index
Clay Lumps and Friable Particles in Aggregates - Fine particles
Absorption of Fine Aggregate
Relative Density (Specific Gravity) of Coarse Aggregate - Saturated Surface Dry
Relative Density (Specific Gravity) of Coarse Aggregate - Oven Dry
Relative Density (Specific Gravity) of Coarse Aggregate - Apparent
Absorption of Coarse Aggregate
Particle Size Distribution, Sieve Tests - Accumulative passing - 9.5 mm
Particle Size Distribution, Sieve Tests - Accumulative passing - 4.75 mm
Particle Size Distribution, Sieve Tests - Accumulative passing - 25.0 mm
Particle Size Distribution, Sieve Tests - Accumulative passing - 19.0 mm
Particle Size Distribution, Sieve Tests - Accumulative passing - 12.5 mm
Particle Size Distribution, Sieve Tests - Accumulative passing - 0.850 mm
Particle Size Distribution, Sieve Tests - Accumulative passing - 0.425 mm
Particle Size Distribution, Sieve Tests - Accumulative passing - 0.180 mm
Material Finer than 75µm
Residue from distillation to 360 °C
Penetration 25 °C, 100g, 5 Sec.
Flash Point
Ductility, 25 °C
Distillation to 315
Distillation to 260
Distillation to 225
Solubility in Trichloroethylene
Ring Ball Test
Penetration of Residue
Penetration @ 25 °C
Loss on heating
Ductility @ 25 °C
Percentage of Shells in Course Aggregates
Moisture Content
Ten Percent Fines Value
Soundness of Aggregates by Use of Sodium Sulfate
Soundness of Aggregates by Use of Magnesium Sulfate
Sand Equivalent Value
Resistance to Degradation of Small-Size Aggregate by Abrasion and Impact in the Los Angeles Machine
Relative Density (Specific Gravity) of Fine Aggregate - Saturated Surface Dry
Relative Density (Specific Gravity) of Fine Aggregate - Oven Dry
Relative Density (Specific Gravity) of Fine Aggregate - Apparent
Sieve Analysis - 4.75 mm
Sieve Analysis - 25.0 mm
Sieve Analysis - 2.36 mm
Sieve Analysis - 19.0 mm
Sieve Analysis - 12.5 mm
Sieve Analysis - 1.180 mm
Sieve Analysis - 0.600 mm
Sieve Analysis - 0.300 mm
Sieve Analysis - 0.150 mm
Sieve Analysis - 0.075 mm
Marshall Properties (Stability)
Marshall Properties (Flow)
Loss of Marshall Stability
Gmm (Max Theoretical Specific Gravity)
Core Thickness
Bitumen Content
Storage Stability Test, 24h
Saybolt Furol Viscosity @ 50 °C - sec.
Residue by distillation
Ductility, 25 oC, 5cm/min
Water Content
Sieve Analysis - 9.50 mm
initial surface absorption (10 mins.)
initial surface absorption (1 hr.)
Depth of Penetration of Water Under Pressure - Concrete Cube
Density of Hardened Concrete
Compressive Strength of Concrete Cubes
Sulphate Content in Hardened Concrete
Chloride Content in Hardened Concrete
Elongation at Max. Load( Machine direction)
Elongation at Max. Load ( cross machine direction
Mass per square meter
Bursting Strength
Apparent Opening Size
Dimension
Compressive Strength of Drilled Cores
Determination of Water permeability
Determination of Water Absorption - Concrete
Electrical indication of Concrete's Ability to Resist Chloride Ion Penetration - Concrete
initial surface absorption (30 mins.)
Clay Lumps and Friable Particles in Aggregates - Course particles
Determination of Aggregate Crushing Value (ACV)
Organic Impurities
Determination of the Total Sulphate Content by Acid Extraction
Determination of Chloride Content Using a Nitric Acid Extract
Acid Soluble Sulphate of Aggregate
Acid Soluble Chloride of Aggregate
Ammonia [NH3]
Carbon Dioxide [CO2]
Carbon Monoxide [CO]
Hydrocarbon (CxHy)
Hydrogen Sulphide [H2S]
Nitrogen Monoxide [NO]
Nitrogen Dioxide [NO2]
Nitrogen Oxides [NOx]
Sulphur Dioxide [SO2]
Oxygen (O2)
Ozone [O3]
Volatile Organic Compound [TVOC]
BTEX (Benzene, Toluene, Ethylbenzene, O-Xylene, M-Xylene, P-Xylene)
Total Suspended Particulate Matter [TSPM]
Suspended Particulate Matter [PM 2.5]
Suspended Particulate Matter [PM 10]
Stack gas temperature
Relative Humidity (RH)
Grab Strength (cross machine direction)
Grab Strength (machine direction)
Puncture Strength (cross machine direction )
Puncture Strength (Machine direction)
Tear Strength (cross Machine direction
Tear Strength (machine direction )
Chloride Content
pH at 25 °C
Sulphite Content (SO3)
Sulphate Content (SO4)
Barcol Hardness Test
Longitudinal Tensile Strength Test
Loss on Ignition
Compressive Strength (Gross area) - Masonry Units
Dimension - Length
Dimension - Thickness
Dimension - Width (height)
Net Dry Density of Masonry Units
45µm (No. 325) Sieve
AC Flow
AC Mix Water
Air Content
Autoclave Expansion
Compressive Strength 28-Day
Compressive Strength 7-Day
Density
Final Flow (WR)
Gillmore TS Final
Gillmore TS Initial
Initial Flow (WR)
Mixing Water (WR)
N. C. Water
Water Retention
Density (Oven Dry)
Determination of Compressive Strength
Measurement of Dimension - Length
Measurement of Dimension - Thickness
Measurement of Dimension - Width
Water absorption
Elongation
Minimum Thickness
Tensile Strength
Air Permeability
Aluminum Oxide, Al2O3
Average Expansion
Calcium Oxide, CaO
Chloride, Cl
Chromium Oxide, Cr2O3
Compressive Strength 3-Day
Dicalcium Silicate, C2S
False Set
Ferric Oxide, Fe2O3
Flow for C.S.
Free Calcium Oxide
Heat of Hydration 28-Day
Heat of Hydration 3-day
Heat of Hydration 7-Day
Heat of Solution 28-Day
Heat of Solution 7-Day
Heat of Solution Dry
Insoluble Residue
Magnesium Oxide, MgO
Manganic Oxide, Mn2O3
Mortar Flow
Mortar Water
N.C. Water
Phosphorus Pentoxide, P2O5
Potassium Oxide, K2O
Silicon Dioxide, SiO2
Sodium Oxide, Na2O
Sulfur Trioxide, SO3
Tetra calcium Aluminoferrite, C4AF
Titanium Dioxide, TiO2
Tricalcium Aluminate, C3A
Tricalcium Silicate, C3S
Vicat TS Final
Vicat TS Initial
Wagner Turbidimeter
Zinc Oxide, ZnO
Breaking Load
Diameter
Load at 1% Extension
Mass
Total Elongation a gage length of not less than 610 mm
Asphalt content
Puncture resistance
Thickness
Acid Soluble Chloride Content
Acid Soluble Sulphate Content (SO3)
Acid Soluble Sulphate Content (SO4)
pH value at 25 °C
Water soluble chloride content
Water soluble sulphate content (SO3)
Water soluble sulphate content (SO4)
Determination of California Bearing Ratio (CBR) @ 95% degree of compaction - @ 2.5 mm Bottom
Determination of California Bearing Ratio (CBR) @ 95% degree of compaction - @ 2.5 mm Top
Determination of California Bearing Ratio (CBR) @ 95% degree of compaction - @ 5.0 mm Bottom
Determination of California Bearing Ratio (CBR) @ 95% degree of compaction - @ 5.0 mm Top
Determination of California Bearing Ratio (CBR) @ 95% Maximum Density
Liquid Limit - Casagrande method
Plastic limit
Plasticity index
Liquid Limit - Cone Penetrometer method
Determination of Dry Density-Moisture Content Relationship Using 4.5 kg Rammer for Coarse and medium size Particles. - Maximum Dry Density (MDD)
Determination of Dry Density-Moisture Content Relationship Using 4.5 kg Rammer for Coarse and medium size Particles. - Optimum Moister Content (OMC)
Dry Sieving - Determination of Particle size distribution – Sieve method - 0.063 mm
Dry Sieving - Determination of Particle size distribution – Sieve method - 0.075 mm
Dry Sieving - Determination of Particle size distribution – Sieve method - 0.150 mm
Dry Sieving - Determination of Particle size distribution – Sieve method - 0.300 mm
Dry Sieving - Determination of Particle size distribution – Sieve method - 0.425 mm
Dry Sieving - Determination of Particle size distribution – Sieve method - 0.600 mm
Dry Sieving - Determination of Particle size distribution – Sieve method - 10.0 mm
Dry Sieving - Determination of Particle size distribution – Sieve method - 14.0 mm
Dry Sieving - Determination of Particle size distribution – Sieve method - 2 mm
Dry Sieving - Determination of Particle size distribution – Sieve method - 5 mm
Dry Sieving - Determination of Particle size distribution – Sieve method - 6.3 mm
Wet Sieving - Determination of Particle size distribution – Sieve method - 0.063 mm
Wet Sieving - Determination of Particle size distribution – Sieve method - 0.075 mm
Wet Sieving - Determination of Particle size distribution – Sieve method - 0.150 mm
Wet Sieving - Determination of Particle size distribution – Sieve method - 0.300 mm
Wet Sieving - Determination of Particle size distribution – Sieve method - 0.425 mm
Wet Sieving - Determination of Particle size distribution – Sieve method - 0.600 mm
Wet Sieving - Determination of Particle size distribution – Sieve method - 10.0 mm
Wet Sieving - Determination of Particle size distribution – Sieve method - 14.0 mm
Wet Sieving - Determination of Particle size distribution – Sieve method - 2 mm
Wet Sieving - Determination of Particle size distribution – Sieve method - 5 mm
Wet Sieving - Determination of Particle size distribution – Sieve method - 6.3 mm
Dry Sieving - Determination of Particle size distribution – Sieve method - 0.106 mm
Dry Sieving - Determination of Particle size distribution – Sieve method - 0.250 mm
Dry Sieving - Determination of Particle size distribution – Sieve method - 0.850 mm
Dry Sieving - Determination of Particle size distribution – Sieve method - 12.5 mm
Dry Sieving - Determination of Particle size distribution – Sieve method - 19.0 mm
Dry Sieving - Determination of Particle size distribution – Sieve method - 2.0 mm
Dry Sieving - Determination of Particle size distribution – Sieve method - 4.75 mm
Dry Sieving - Determination of Particle size distribution – Sieve method - 9.5 mm
Wet Sieving - Determination of Particle size distribution – Sieve method - 0.106 mm
Wet Sieving - Determination of Particle size distribution – Sieve method - 0.250 mm
Wet Sieving - Determination of Particle size distribution – Sieve method - 0.850 mm
Wet Sieving - Determination of Particle size distribution – Sieve method - 12.5 mm
Wet Sieving - Determination of Particle size distribution – Sieve method - 19.0 mm
Wet Sieving - Determination of Particle size distribution – Sieve method - 2.0 mm
Wet Sieving - Determination of Particle size distribution – Sieve method - 4.75 mm
Wet Sieving - Determination of Particle size distribution – Sieve method - 9.5 mm
Water Soluble Salts
Laboratory Compaction Characteristics of Soil Using Modified Effort (Dry Unit Weight)
Laboratory Compaction Characteristics of Soil Using Modified Effort (Water Content)
Determination of Particle size distribution – Hydrometer method - 0.0014 mm
Determination of Particle size distribution – Hydrometer method - 0.0033 mm
Determination of Particle size distribution – Hydrometer method - 0.0067 mm
Determination of Particle size distribution – Hydrometer method - 0.0094 mm
Determination of Particle size distribution – Hydrometer method - 0.013 mm
Determination of Particle size distribution – Hydrometer method - 0.018 mm
Determination of Particle size distribution – Hydrometer method - 0.022 mm
Determination of Particle size distribution – Hydrometer method - 0.034 mm
Determination of Particle size distribution – Hydrometer method - 0.047 mm
Determination of Particle size distribution – Hydrometer method - 0.002 mm
Determination of Particle size distribution – Hydrometer method - 0.003 mm
Determination of Particle size distribution – Hydrometer method - 0.005 mm
Determination of Particle size distribution – Hydrometer method - 0.009 mm
Determination of Particle size distribution – Hydrometer method - 0.017 mm
Determination of Particle size distribution – Hydrometer method - 0.023 mm
Determination of Particle size distribution – Hydrometer method - 0.032 mm
Determination of Particle size distribution – Hydrometer method - 0.045 mm
Determination of Particle size distribution – Hydrometer method - 0.063 mm
Determination of Particle size distribution – Hydrometer method - 0.150 mm
Determination of Particle size distribution – Hydrometer method - 0.300 mm
Weight per Length
Actual Diameter
Actual Cross-Sectional area
Deformation - Average spacing
Deformation - Average height
Deformation - Gap
Yield strength
Elongation in 8 in (203.2 mm)
Bend Test
Re-Bend Test
Average Gap Between Two Adjacent Rib
Indentation Depth in the Center
Average Spacing
Elongation at Maximum Force
Elongation at breaking
C
Carbon Equivalent
Cr
Cu
Mn
Mo
N
Ni
P
S
V
Continuity of coating
Thickness of coating
% Elongation @ Break
% Longitudinal Heat Reversion
Area of perforation
Impact Resistance
Mean OD
Resistance to Acetone
Wall Thickness
Elongation factor
Tensile Strength Crosswise
Tensile Strength Lengthwise
Width & length
Total Dissolved Solids PPM
PH value at 25 ̊C
Sulphate content
Chemical Resistance to: Dilute acids, Dilute alkalis, Sulphates & Chlorides
Tear Strength
Water Resistance
Alpha-isomethyl ionone
Amyl cinnamal
Amyl cinnamal alcohol
Anise Alcohol
Benzyl alcohol
Benzyl benzoate
Benzyl cinnamata
Benzyl salicylate
Butylphenyl methylpropional
Cinnamal
Cinnamyl acetate
Citronellol
Coumarin
Eugenol
Farnesol
Geraniol
Hexyl cinnamal
Hydroxyisohexyl-3-cyclohexane carboxaldehyde
Hydroxyl citronellal
Isoeugenol
Limonene
Linalol
Methyl eugenol
Methyl-2-octynoate
Neral
Phenyl acetaldehyde
Virtal
Hydroxylcitronellal
2-Hydroxy- propoxycarbazone
3-Hydroxycarbofuran
Alanycarb
Aldicarb
Aldicarb-sulfone
Aldicarb-sulfoxide
Amdro
Ametoctradin
Aminocarb
Amisulbrom
Azinphos-methyl
Bendiocarb
Benfuresate
Benodanil
Bensulide
Benthiavalicarb-isopropyl
Benzethonium chloride
Benzyldimethyldodecylamm onium chloride
Benzyldimethylhexadecyla mmonium chloride
Benzyldimethylstearylam monium chloride
Bioresmethrin
Bromuconazole-trans
BTS 27271
Bupirimate
Buprofezin
Butocarboxim-sulfoxide
Butylate
BYI08330 enol-glucoside
BYI08330 mono-hydroxy
Carbaryl
Carbendazim
Carbetamide
Carbofuran
Carbosulfan
Chlorbromuron
Chlorpyrifos-ethyl
Chromafenozide
Cinidon-ethyl
cis-Bromuconazole
Climbazole
Clofentezine
Clomeprop
Clothianidin
Coumaphos
Crimidine
Cyanofenphos
Cyantraniliprole
Cyazofamide
Cycloxydim
Cyflumetofen
Cymoxanil
Cyphenothrin
Dazomet
Dementon-S-methyl-sulfon
Demeton-S-methyl
Desmethyl-pirimicarb
Dichlofenthion
Dicrotophos
Diethofencarb
Difenoxuron
Dimefuron
Dimepiperate
Dimethachlor
Dimethipin
Dimethoate
Dimethomorph
Dimethyldioctylammonium bromide
Dimetilan
Dimoxysrobin
Diniconazole
Dinotefuran
Diphenamide
Emamectin benzoate
Epoxiconazole
EPTC
Ethiofencarb
Ethiofencarb-sulfon
Ethofenprox
Ethychlozate
Etobenzanid
Fenamiphos
Fenamiphos-sulfone
Fenamiphos-sulfoxide
Fenazaquin
Fenbuconazol
Fenobucarb
Fenoxon
Fenpropimorph
Fenpyrazamine
Fenpyroximate
Flufenacet
Flufenoxuron
Fluopicolide
Fluopyram (AE C656948)
Fluoxastrobin
Flupyradifurone
Flurathiocarb
Flurtamone
Flusilazole
Fluthiacet-methyl
Fluxapyroxad
Fosthiazate
Fuberidazole
Imidacloprid
Imidacloprid-olefin
Indoxacarb
Iprovalicarb
Isazofos
Isoprocarb
Isoproturon
Isouron
Isoxaflutole
Kresoxim-methyl
Linuron
Mepanipyrim
Mesotrione
Metalaxyl
Methabenzthiazuron
Methamidophos
Methiocarb
Methomyl
Metolcarb
Metosulam
N6-Benzyladenine
Neburon
Nicosulfuron
Orysastrobin
Oxamyl-oxime
Oxfendazole
Oxycarboxine
Paraoxon
Pendimethalin
Penoxsulam
Penthiopyrad
Pethoxamid
Phenmedipham
Phenothrin
Phorat-sulfone
Phosphamidon
Phoxim
Picaridin
Pinoxaden
Pirimicarb
Prochloraz
Prohexadione
Promecarb
Prometon
Propaquizafop
Propham
Propoxur
Prosulfocarb
Pyraclostrobin
Pyrazoxyfen
Pyridaben
Pyrifluquinazon
Pyrimidifen
Pyriproxyfen
Pyroxsulam
Resmethrin
Rotenone
Salflufenacil hydrochlorid
Simeconazole
Simetryn
Spinetoram
Spinosad
Sulfotep
Sulprofos-sulphoxide
Tebuconazole
Terbufos-sulfone
Terbumeton
Terbutylazine
Tetraconazole
Thiamethoxam
Thiodicarb
Thiofanox
Thiofanox-sulfone
Thoofanox-sulfoxide
Tolclofos-methyl
Tolfenpyrad
Triadimenol
Triasulfuron
Tricyclazole
Tridemorph
Triflumuron
Vamidothion
Vamidothion-sulfone
Vamidothion-sulfoxide
XMC
Zoxamide
Arsenic (As)
Barium (Ba)
Cadmium (Cd)
Chlorinated Hydrocarbons
Chromium (Cr) - Total
Copper (Cu)
Cyanide
Fixed Solids
Fluoride
Lead (Pb)
Manganese (Mn)
Mercury (Hg)
Oil and Grease (as Dried Basis)
Phenol
Polychlorinated Biphenyls
Selenium (Se)
Total Petroleum Hydrocarbon (TPH)
Total Solids
Volatile Solids
Zinc (Zn)
Alkalinity
Conductivity @ 20*C
pH
Anthracene
Benzo(a)pyrene
Benzo(b)fluoranthene
Benzo(ghi)perylene
Benzo(k)fluoranthene
Fluoranthene
Indeno(1,2,3-cd)pyrene
Naphthalene
Total Hardness
Beryllium (Be)
Chromium (Cr)
Cobalt (Co)
Iron (Fe)
Molybdenum (Mb)
Nickel (Ni)
Tin (Sn)
Vanadium (V)
Aluminum (Al)
BOD
Boron (B)
Chlorine (Residual)
COD
Conductivity
Cyanide as CN
Magnesium (Mg)
Molybdenum (Mo)
Nitrogen, Ammoniacal
Oil & Grease
pH @ 20oC
Phosphorous, P
Silver (Ag)
Sodium (Na)
Sulfates, S
Total Dissolved Solids
Total Suspended Solids
Ammonia
Chromium (Cr) Total
Nitrate
Nitrite
Phosphate
Total Oganic Carbon
Total Phosphorous
Antimony (Sb)
Chloride
Total Heavy Metals
pH @ 20*C
pH @ Site Reading
Phosphorous, P (Total)
Sulfates, Total
Sulfides as S
Temperature @ Site
BOD 5-day
Total Dissolved Solids (TDS) @180*C
Total Suspended Solids (TSS)
TN
TOC
Hydrogen Sulfide [H2S]
Hydrocarbon [CxHy]
Methane [CH4]
Total Volatile Organic Compound [TVOC]
Suspended Particulate matter [PM 1]
Temperature
Humidity
Wind Direction
Wind Speed
Sound Level - L average
Sound Level - LAeq min
Sound Level - LAeq max
Sound Level - LA90
Air Pressure
Lighting
Formaldehyde [HCOH]
Oxygen [O2]
Suspended Particulate Matter [PM 1.0]
Suspended Particulate Matter [PM 4.0]
Suspended Particulate Matter [PM 7.0]
LUX [Lighting] - average
Relative humidity
Caffeine
Ethanol
Fructose
Galactose
Glucose
Lactose
Maltose
Sucrose
Total Sugars
Aflatoxin B1
Aflatoxin B2
Aflatoxin G1
Aflatoxin G2
Aflatoxin M1
Deoxynivalenol (DON
H-2
Ochratoxin A
T-2
Zearalenone (ZON)
Patulin
EZ-Chlorfenvinphos
EZ-Pyrifenox
Pork/ Porcine (DNA) - Sample A
Pork/ Porcine (DNA) - Sample B
Brix
Sodium Chloride
Sodium
Aluminum
Boron
Carbon
Chromium
Cobalt
Copper
Lead
Manganese
Molybdenum
Nickel
Niobium
Nitrogen
Oxygen
Phosphorus
Silicon
Sulfur
Tin
Titanium
Tungsten
Vanadium
Beryllium
Bismuth
Cadmium
Calcium
Gallium
Iron
Magnesium
Strontium
Zinc
Zirconium
Arsenic
Boron (Optional)
BREAKING STRENGTH (GRAB TEST)
BREAKING STRENGTH (STRIP METHOD) (USE THE 1.0 INCH RAVELED STRIP TEST)
ELONGATION -(GRAB TEST)
ELONGATION (STRIP METHOD) (USE THE 1.0 INCH RAVELED STRIP TEST)
FABRIC WEIGHT: OPTION C—SMALL SWATCH OF FABRIC
FILLING PICK COUNT
TEARING STRENGTH (CUT IN DIRECTION TO TEAR WARP YARN)
TEARING STRENGTH /TRAPEZOID
TEARING STRENGTH, BY FALLING-PENDULUM TYPE—ELMENDORF APPARATUS (CUT IN DIRECTION TO TEAR WARP YARN)
WARP END COUNT
Welding defects
Base Number
Acid Number
Ash Content
BP Distrubtion by GC-10%
BP Distrubtion by GC-20%
BP Distrubtion by GC-30%
BP Distrubtion by GC-40%
BP Distrubtion by GC-5%
BP Distrubtion by GC-50%
BP Distrubtion by GC-60%
BP Distrubtion by GC-70%
BP Distrubtion by GC-80%
BP Distribution by GC-90%
BP Distribution by GC-95%
BP Distribution by GC-FBP
BP Distribution by GC-IBP
Carbon - Method A
Carbon - Method B
Carbon- Method C
Carbon Residue
Carbon Residue- Condrason
Carbon Residue-Micro Method
Carbon Residue-Ramsbotton
Hydrogen
Cetane Index
Cloud Point
Cloud Point (D2500 Equivalent)
Cold Filter Plugging Point
Color (ASTM color)
Copper Corrosion (1A to 4C)
Distillation
Electrical Conductivity
Gross Heat Content
Heat Content
High Temp Stability
High Temperature Stability-180 Minutes Aging
High Temperature Stability-90 Minutes Aging
Hydrocarbon Type
Hydrocarbon Type-Aromatics
Hydrocarbon Type-DAH's
Hydrocarbon Type-MAH's
Hydrocarbon Type-Monoaromatics
Hydrocarbon Type-Olefins
Hydrocarbon Type-POLY-AH
Hydrocarbon Type-Polynuclear Aromatic Hydrocarbon
Hydrocarbon Type-Saturates
Hydrocarbon Type-T+AH
Hydrocarbon Type-Total Aromatic Hydrocarbon Content
Hydrocarbon Type-Total Aromatics
Hydrogen - Method A
Hydrogen - Method B
Hydrogen- Method C
Kinematic Viscosity @ 100°C
Kinematic Viscosity @ 40°C
Kinematic Viscosity 100°C
Kinematic Viscosity 40°C
Lubricity (HFRR)
Lubricity by HFRR-Wear Scar Diameter
Micro Distillation-% Recovered
Micro Distillation-10%
Micro Distillation-20%
Micro Distillation-30%
Micro Distillation-40%
Micro Distillation-5%
Micro Distillation-50%
Micro Distillation-60%
Micro Distillation-70%
Micro Distillation-80%
Micro Distillation-90%
Micro Distillation-95%
Micro Distillation-FBP
Micro Distillation-IBP
Nitrogen - Method A
Nitrogen - Method B
Nitrogen- Method C
No Flow Point
Oxidation Stability-induction period
Particulate Contamination by Filtration
Particulate Contamination by Filtration-Total Number of Filtrations (membranes used)
Particulate Contamination by Filtration-Total Particulate Contamination (mg/L)
Particulate Contamination by Filtration-Total Volume of Fuel Filtered (L)
Pour Point
Sulfur Content
Viscosity, Kinematic
Water and Sediment
Water and Sediment- Procedure B
Water and Sediment Procedure C (mass%)
Water and Sediment- Procedure C (vol%)
Water and Sediment-Procedure A
Water by KF
API Gravity
Ash
Asphaltenes
Heat Content (Gross)
Kinematic Viscosity @ 50°C
n-Heptane Insolubles-NHI%
Sediment
Viscosity, Kinematic @ 100°C
Viscosity, Kinematic @ 50°C
Water Content by Distillation
Automatic - p-Xylene-Distillation-50% PT
Automatic - p-Xylene-Distillation-DPT
Automatic - p-Xylene-Distillation-IBP
Benzene Trace Thiophene
Benzene-Trace Thiophene
GC - Mixed Xylene Impurities/Purity-Benzene
GC - Mixed Xylene Impurities/Purity-Cumene
GC - Mixed Xylene Impurities/Purity-Ethylbenzene
GC - Mixed Xylene Impurities/Purity-m-Xylene
GC - Mixed Xylene Impurities/Purity-o-Xylene
GC - Mixed Xylene Impurities/Purity-PDEB
GC - Mixed Xylene Impurities/Purity-p-Xylene
GC - Mixed Xylene Impurities/Purity-Toluene
GC - Mixed Xylene Impurities/Purity-Total C9 Aromatics
GC - Mixed Xylene Impurities/Purity-Total Impurities
GC - Mixed Xylene Impurities/Purity-Total Mixed Xylenes
GC - Mixed Xylene Impurities/Purity-Total Non Aromatics
GC - Mixed Xylene Impurities/Purity-Total Non-aromatics
GC - p-Xylene Impurities/Purity-Benzene
GC - P-Xylene Impurities/Purity-Ethlbenzene
GC - p-Xylene Impurities/Purity-Ethylbenzene
GC - p-Xylene Impurities/Purity-m-Xylene
GC - p-Xylene Impurities/Purity-Non-Aromatics
GC - p-Xylene Impurities/Purity-o-Xylene
GC - p-Xylene Impurities/Purity-P-DIETHYLBENZENE
GC - P-Xylene Impurities/Purity-P-Xylene
GC - p-Xylene Impurities/Purity-P-Xylene Purity
GC - p-Xylene Impurities/Purity-Toluene
GC - p-Xylene Impurities/Purity-Total C9 Aromatics
GC - p-Xylene Impurities/Purity-Total Impurities
GC - P-Xylene Impurities/Purity-Total Non Aromatics
GC - p-Xylene Impurities/Purity-Total Nonaromatics
GC -p-Xylene Impurities/Purity-Ethylbenzene
GC -p-Xylene Impurities/Purity-P-Xylene
Manual - p-Xylene-Distillation-50% PT
Manual - p-Xylene-Distillation-DPT
Manual - p-Xylene-Distillation-IBP
Mixed Xylene-Bromine Index
Mixed Xylene-Chloride
Mixed Xylene-Color
Mixed Xylene-Density
Mixed Xylenes Acidity
Mixed Xylenes-Benzene
Mixed Xylenes-Chloride
Mixed Xylenes-Copper Corrosion
Purity by GC- Benzene-1,4 Dioxane
Purity by GC- Benzene-Benzene
Purity by GC- Benzene-Benzene Purity
Purity by GC- Benzene-Ethlbenzene
Purity by GC- Benzene-Ethylbenzene
Purity by GC- Benzene-Ethyl cyclopentane
Purity by GC- Benzene-Methylcyclohexane
Purity by GC- Benzene-Methyl cyclopentane
Purity by GC- Benzene-m-Xylene
Purity by GC- Benzene-n-Heptane
Purity by GC- Benzene-n-Hexane
Purity by GC- Benzene-Nonaromatics
Purity by GC- Benzene-o-Xylene
Purity by GC- Benzene-p-Xylene
Purity by GC- Benzene-Toluene
Purity by GC- Benzene-Toluene Plus Methylcyclohexane
Purity by GC- Benzene-Total C9 Aromatics
Purity by GC- Benzene-Total Impurities
Purity by GC- Benzene-Total Non Aromatics
p-xylene-Nitrogen
p-Xylene-Sulfur
Water Content - BENZENE
Acidity
Additive Element-Boron
Additive Element-Phosphorus
Additive Elements-Boron
Additive Elements-Phosphorus
Additive Elements-ZINC (OPTIONAL)
Additive Element-Zinc
Base Number- Procedure B
Base Number-Procedure A
Viscosity Kinematic @ 100°C
Viscosity Kinematic @ 40°C
Viscosity, Low Temp-12rpm Cold-Air Cabinet
Viscosity, Low Temp-12rpm-Programmable Liquid Bath
Viscosity, Low Temp-12rpm-SimAir Liquid Bath
Viscosity, Low Temp-30rpm-Cold-Air Cabinet
Viscosity, Low Temp-30rpm-Programmable Liquid Bath
Viscosity, Low Temp-30rpm-SimAir Liquid Bath
Additive Element-Aluminum
Additive Element-Barium
Additive Element-Calcium
Additive Element-Chromium
Additive Element-Copper
Additive Element-Iron
Additive Element-Lead
Additive Element-Magnesium
Additive Element-Manganese
Additive Element-Molybdenum
Additive Element-Nickel
Additive Element-Potassium
Additive Elements-Barium
Additive Elements-Calcium
Additive Elements-Copper
Additive Element-Silicon
Additive Element-Silver
Additive Elements-Magnesium
Additive Elements-Molybdenum
Additive Element-Sodium
Additive Elements-Sulfur
Additive Element-Sulfur
Additive Elements-Zinc
Additive Element-Tin
Additive Element-Titanium
Additive Element-Vanadium
Ash, Sulfated
Base Number, Procedure A
Base Number, Procedure B
Viscosity, Kinematic @ 40°C
Water - Procedure B
Water - Procedure C
Bocle (Lubricity) - Fully-automatic
Bocle (Lubricity) - Semi-automatic
BP Distribution By GC-10%
BP Distribution By GC-20%
BP Distribution By GC-30%
BP Distribution By GC-40%
BP Distribution By GC-5%
BP Distribution By GC-50%
BP Distribution By GC-60%
BP Distribution By GC-70%
BP Distribution By GC-80%
Combustion - Net Heat Of
Distillation-10%
Distillation-20%
Distillation-30%
Distillation-40%
Distillation-5%
Distillation-50%
Distillation-60%
Distillation-70%
Distillation-80%
Distillation-90%
Distillation-95%
Distillation-FBP
Distillation-IBP
Distillation-Loss
Distillation-Residue
Freeze Point
Gum
Hydrocarbon Type-DAH
Hydrocarbon Type-MAH
Hydrogen Content
Kinematic Viscosity
Mercaptan Sulfur
Naphthalenes
Saybolt Color (ASTM D156 color code, from +30 to -16)
Smoke Point - Automatic
Smoke Point - Manual
Water Separation (MSEP - Rating)
Acid Number-Acid Number
Aniline Point Only-Aniline Point - Method B
Aniline Point Only-Anline Point - Method E
Ash-Ash
Evaporation Loss
FLASH POINT-Procedure A
Refractive Index
Refractive Index-Digital
Refractive Index-Optical Mechanical
Separation (minutes)
Total Aromatics and Total Saturates
Viscosity, Low Temperature
Volatility, Estimated by Cap GC
Water
Water Separability-Emulsion
Water Separability-Oil
Water Separability-Time until separation
Water Separability-Water
Acidity - Method B
Automatic Distillation-10%
Automatic Distillation-20%
Automatic Distillation-30%
Automatic Distillation-40%
Automatic Distillation-5%
Automatic Distillation-50%
Automatic Distillation-60%
Automatic Distillation-70%
Automatic Distillation-80%
Automatic Distillation-90%
Automatic Distillation-95%
Automatic Distillation-FBP
Automatic Distillation-IBP
Carbon Residue Micro Method
Carbon Residue-Conradson
Cold Filter Plugging Point (CFPP)
Density-API Gravity
Ester Content
FAME Fatty Acid Methyl Ester
FAME: Ca, Mg, by ICP/OES
FAME: Methanol Content-Procedure A
FAME: Methanol Content-Procedure B
FAME: Na, K, by ICP/OES
FAME: Oxidation Stability @ 110°C
Filtration, Cold Soak (CSFT)
Flash Point- Procedure A
Flash Point Procedure B
Flash Point- Procedure C
Glycerin-Free Glycerin
Glycerin-Total Diglyceride
Glycerin-Total Glycerin
Glycerin-Total Monoglyceride
Glycerin-Total Triglyceride
Kinematic Viscosity@ 40°C
LAME Linolenic Acid Methyl Ester
Lubricity by HFRR
Manual Distillation-10%
Manual Distillation-20%
Manual Distillation-30%
Manual Distillation-40%
Manual Distillation-5%
Manual Distillation-50%
Manual Distillation-60%
Manual Distillation-70%
Manual Distillation-80%
Manual Distillation-90%
Manual Distillation-95%
Manual Distillation-FBP
Manual Distillation-IBP
Particulate Contamination
Thermal Stability
Viscosity, Kinematic@ 40 °C
Water by KF- Procedure A
High Temperature Simulated Distillation-10%
High Temperature Simulated Distillation-20%
High Temperature Simulated Distillation-30%
High Temperature Simulated Distillation-40%
High Temperature Simulated Distillation-5%
High Temperature Simulated Distillation-50%
High Temperature Simulated Distillation-60%
High Temperature Simulated Distillation-70%
High Temperature Simulated Distillation-80%
High Temperature Simulated Distillation90%
High Temperature Simulated Distillation-95%
High Temperature Simulated Distillation-FBP
High Temperature Simulated Distillation-IBP
HTSD Additional Total Weight Recovery Data-193.3°C (380°F)
HTSD Additional Total Weight Recovery Data-248.9°C (480°F)
HTSD Additional Total Weight Recovery Data-343.3°C (650°F)
HTSD Additional Total Weight Recovery Data-426.7°C (800°F)
HTSD Additional Total Weight Recovery Data-565.6°C (1050°F)
HTSD Additional Total Weight Recovery Data-596.1°C (1105°F)
HTSD Additional Total Weight Recovery Data-720°C (1328°F)
HTSD Additional Total Weight Recovery Data-82.2°C (180°F)
Metals-Iron-(Method A)
Metals-Iron-(Method B)
Metals-Nickel-(Method A)
Metals-Nickel-(Method B)
Metals-Vanadium-(Method A)
Metals-Vanadium-(Method B)
Pour Point Method A
Salts
SALTS-Salts
SEDIMENT-Sediment
SULFUR-Sulfur
Total Acid Number
Total Weight % Recovery @ 720°C
Vapor Pressure
Vapor Pressure-TVP
Viscosity Kinematic-@ 25 °C
Viscosity Kinematic-@ 40 °C
Water and Sediment by Centrifuge
Water by Karl Fischer/Potentiometric Titration
Aldehydes
Alkalinity as NH3
Biuret
Density at 20°C
Insoluble matter
Phosphate (PO4)
Potassium
Refractive index at 20°C
Urea content (refractive index)
Urea content (total nitrogen)
Cetane Number
Cetane Number, Derived
Derived Cetane Number – Fixed Range Injection Period, Constant Volume Combustion Chamber Method
Derived Cetane Number Using Constant Volume Combustion Chamber Method
Hydrocarbon Types
Color
Combustion - Net Heat
Saybolt Color
Water Separation
Boiling Point
Boiling Point (50% Diluted)
Corrosion of Cast Aluminum Alloys
Corrosion Test - Brass
Corrosion Test - Copper
Corrosion Test - Solder
Corrosion Test - Steel
Corrosion Test- Cast Aluminum
Corrosion Test- Cast Iron
Density Or Relative Density - Digital Densitometer
Density Or Relative Density - Hydrometer
Foaming Tendencies
Foaming Tendencies - Break Time
Foaming Tendencies - Volume
Ion Chromatography - Nitrate
Ion Chromatography - Nitrite
Ion Chromatography - o-Phosphate
Ion Chromatography - Sulfate
Ion Chromatography- Chloride
Reserve Alkalinity
Silicon by AAS
Silicon/Other Elements by ICP-AES - Aluminum
Silicon/Other Elements by ICP-AES - Boron
Silicon/Other Elements by ICP-AES - Calcium
Silicon/Other Elements by ICP-AES - Copper
Silicon/Other Elements by ICP-AES - Iron
Silicon/Other Elements by ICP-AES - Lead
Silicon/Other Elements by ICP-AES - Magnesium
Silicon/Other Elements by ICP-AES - Molybdenum
Silicon/Other Elements by ICP-AES - Phosphorus
Silicon/Other Elements by ICP-AES - Potassium
Silicon/Other Elements by ICP-AES - Silicon
Silicon/Other Elements by ICP-AES - Sodium
Silicon/Other Elements by ICP-AES - Zinc
Trace Chloride
Water by Karl Fischer - Method A: Manual
Water by Karl Fischer - Method B: Automatic
Acid Number-Automatic
Acid Number-Buffer Endpoint
Acid Number-Inflection Point
Acid Number-Manual
Additive Elements by EDXRF
Apparent Viscosity-Procedure A
Apparent Viscosity-Procedure B
Base Number-Procedure B
Flash Point-Corrected Flash Point
HTHS Viscosity-Apparent Viscosity
HTHS Viscosity-Intermediate Viscosity
Saponification Number
Shear Stability-Percent Viscosity Loss (PVL)
Viscosity
Viscosity Kinematic @ 100 °C
Viscosity Kinematic @ 40 °C
Viscosity Low Temp Scanning Brookfield-10,000
Viscosity Low Temp Scanning Brookfield-20,000
Viscosity Low Temp Scanning Brookfield-30,000
Viscosity Low Temp Scanning Brookfield-40,000
Viscosity Low Temp Scanning Brookfield-5,000
Viscosity Low Temp Scanning Brookfield-Gelation Index
Viscosity Low Temp Scanning Brookfield-Gelation Index Temperature
Viscosity Using Contact Cooled Instrument
Viscosity Using Thermoelectrically Cooled Instrument
Viscosity, Tapered Bearing
Viscosity, Tapered Plug
Volatility, Calculated
Water-Procedure (vol%)
Water-Procedure A
Water-Procedure B
Water-Procedure C (mass%)
Copper Content
Ethanol Content by GC
Existent Inorganic Sulfate
Inorganic Chloride
Methanol Content by GC
pHe
Potential Sulphate
Solvent Washed Gum
Specific Gravity
Total Inorganic Chloride
Total Sulfate
Motor Octane Number
Research Octane Number
Ash, Sulfated-Ash
Viscosity, Kinematic @ 100 °C
Aniline Point
Bromine Number
CCR - Carbon Residue
Density-API
Metals, V, Ni, Fe, Na
Total Nitrogen
Air Release
Base Number- Procedure A
Foam- Foaming Tendency After Agitation-Sequence I
Foam- Foaming Tendency After Agitation-Sequence II
Foam- Foaming Tendency After Agitation-Sequence III
Foam Stability After Agitation-Sequence I
Foam Stability After Agitation-Sequence II
Foam Stability After Agitation-Sequence III
Foam-Foam Stability As Received0 Sequence I
Foam-Foam Stability As Received0 Sequence II
Foam-Foam Stability As Received0 Sequence III
Foam-Foaming Tendency as Received-Sequence I
Foam-Foaming Tendency as Received-Sequence II
Foam-Foaming Tendency as Received-Sequence III
Hydrolytic Stability-Acid Number Change
Hydrolytic Stability-Copper Corrosion
Hydrolytic Stability-Total Acidity of Water Layer
Oxidation Stability - Method A
Thermal Stability-Copper Rod Color
Thermal Stability-Steel Rod Color
Thermal Stability-Total Sludge
Viscosity, Kinematic @ 40 °C
4-Ball EP
4-Ball Wear
Demulsibility (Water in Oil)
Flash Point-Flash Point
Flash Point-MANUAL
Pin and V-block-Method A
Timken EP
Fuel Dilution
Glycol
Houillon Kinematic Viscosity
Insolubles
Metal/Wear Contaminants
Nitration, FT-IR
Oxidation, FT-IR
Phosphate, FT-IR
Soot Loading, Water Contamination
Sulfate, FT-IR
Viscosity, Index
Dielectric
Furans
Interfacial Tension
Oxidation Inhibitor
Oxidation Stability
Particle Count
Power Factor (25ºC and 100ºC)
Resistivity
Sulfur Corrosive
Trace Metals
Acetylene
Carbon Dioxide
Carbon Monoxide
Ethane
Ethylene
Methane
Propane
Propylene
Standard Test Method for Analysis of Gases Dissolved in Electrical Insulating Oil by Gas Chromatography
Standard Test Method for Water in Insulating Liquids by Coulometric Karl Fischer Titration
Cone Penetration-1/2 Scale Unworked(mm/10)
Cone Penetration-1/2 Scale Worked(mm/10)
Cone Penetration-1/4 Scale Unworked(mm/10)
Cone Penetration-1/4 Scale Worked(mm/10)
Cone Penetration-Prolonged work (mm/10)
Cone Penetration-Unworked (mm/10)
Cone Penetration-Worked (mm/10)
Copper Corrosion
Dropping Point
Dropping Point-Corrected Dropping Point
Extreme Pressure Properties Four Ball Method-Last Non-Seizure Load
Extreme Pressure Properties Four Ball Method-Load Wear Index
Extreme Pressure Properties Four Ball Method-Weld Point
Foam
Fretting Wear Protection Mean, Mass Loss
High Temperature Life Performance
Leakage Tendencies
Load Carry Capacity, Timken Method
Oil Separation
Oxidation Stability by Oxygen Pressure Vessel
Roll Stability
Rust Prevention
Water Spray
Water Washout
Wear Preventative Characteristic Four Ball Method
1,1-Dimethylcyclohexane
2,2-Dimethylheptane
2,3_Dimethylbutane
2,3-Dimethylpentane
2,5-Dimethylhexane
2-Methylheptane
3-EthylPentane
3-Methylpentane
4-Methyloctane
Aromatics
Benzene
Benzene by Infrared Spectroscopy
C6 Naphthenes
C7 Naphthenes
C7 Paraffins
C8 Aromatics
C8 Naphthenes
C8 Paraffins
C9 Paraffins
C9 Plus Aromatics
C9+ Aromatics
Congealing Point
Copper Strip (1A to 4C)
Cyclopentane
DIPE
Distillation-% Evaporated
Distillation-% Loss
Distillation-E200
Distillation-E300
Distillation-Residue Measured
Dvpe - D5191
Dvpe - D5191 - TVP
ETBE
Gum - Solvent Washed
Gun - Unwashed
Hydrogen Sulfide
Isobutane
Iso-Butanol
Isopentane
Iso-Propanol
Lead Content
Melting Point
Methanol
Methylcyclohexane
Methyl cyclopentane
MM/10
MTBE
n-Butane
N-Butanol
Needle Penetration @ 25 °C
Needle Penetration @ xx °C
n-Heptane
n-Nonane
n-Octane
n-Pentane
N-Propanol
Oil Content
Olefin Content
Olefins
Oxygenate-Free Basis
Oxygenates-DIPE
Oxygenates-ETBE
Oxygenates-Ethanol
Oxygenates-iso-Butanol
Oxygenates-iso-Propanol
Oxygenates-Methanol
Oxygenates-MTBE
Oxygenates-n-Butanol
Oxygenates-n-Propanol
Oxygenates-sec-Butanol
Oxygenates-TAME
Oxygenates-tert-Butanol
Oxygenates-tert-Pentanol
Oxygenates-Total Oxygen
Penetration @ 40°C mm/10
Phosphorus Content
p-Xylene
Real Density by Helium Pycnometer
Reference Temperature
Relative Density
Saturates
Sec-Butanol
Simulated Distillation-10%
Simulated Distillation-20%
Simulated Distillation-30%
Simulated Distillation-40%
Simulated Distillation-5%
Simulated Distillation-50%
Simulated Distillation-60%
Simulated Distillation-70%
Simulated Distillation-80%
Simulated Distillation-90%
Simulated Distillation-95%
Simulated Distillation-FBP
Simulated Distillation-IBP
Solvent Extractables
Solvent Washed Gum Content
Suflur
Sulfur (High temperature Method)
TAME
Tert-Butanol
Tert-Pentanol
Toluene
Total Aromatics
Total naphthenes
Total Oxygen
Total paraffins
Total Sample Basis (Corrected)
Toulene
Trace Metals -Aluminum
Trace Metals by Atomic Absorption
Trace Metals by ICP-AES -Aluminum
Trace Metals by ICP-AES -Barium
Trace Metals by ICP-AES -Calcium
Trace Metals by ICP-AES -Iron
Trace Metals by ICP-AES -Magnesium
Trace Metals by ICP-AES -Manganese
Trace Metals by ICP-AES -Nickel
Trace Metals by ICP-AES -Silicon
Trace Metals by ICP-AES -Sodium
Trace Metals by ICP-AES -Titanium
Trace Metals by ICP-AES -Vanadium
Trace Metals by ICP-AES -Zinc
Trace Metals -Calcium
Trace Metals -Iron
Trace Metals -Manganese
Trace Metals -Nickel
Trace Metals -Silicon
Trace Metals -Sodium
Trace Metals -Sulfur
Trace Metals -Titanium
Trace Metals -Vanadium
trans_1,2-Dimethylcyclopentane
trans-1,2-Dimethylcyclohexane
Unwashed Gum Content
Vapor Liquid Ratio
Vapor Pressure - 1L container size
Vapor Pressure - 250mL container size
Viscosity, Kinematic @ 50 °C
Volatile Matter - Quartz Crucible Procedure
Sulfur in Automotive, Heating, and Jet Fuels by Monochromatic EDXRF
Sulfur in Gasoline and Diesel Fuel by Monochromatic WDXRF
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