Analytical & Chemical Analysis
Polymer
Product | Tests | Unit | Method |
---|---|---|---|
Natural Rubber | Ash Content | % | ISO 247-1/ ASTM D1278 |
Dirt Content | % | ISO 249/ ASTM D1278 | |
Glass Transition Temp | °C | ASTM D7426/ ASTM E1356/ ISO 22768 | |
Metal Content | mg/Kg | ISO 19050 | |
Mooney Viscosity | MU | ASTM D1646 | |
Nitrogen Content | % | ISO 1656 | |
Volatile Content | % | ISO 248-1/ ISO 248-2/ ASTM D1278 | |
Synthetic Rubber | Ash Content | % | ASTM D5667/ ISO 247-1 |
Glass Transition Temp | °C | ASTM D7426/ ASTM E1356/ ISO 22768 | |
Metal Content | % | ISO 19050 | |
Cis Content-Microstructure | % | IS 10016-4 | |
Trans Content-Microstructure | % | IS 10016-4 | |
Vinyl Content-Microstructure | % | IS 10016-4 | |
Styrene Content-Microstructure | % | ISO 21561 | |
Vinyl Content-Microstructure | % | ISO 21561 | |
Molecular weight distribution | '-- | ASTM D6474 | |
Mooney Viscosity | MU | ASTM D1646 | |
Nitrogen Content | % | ISO 1656 | |
Oil Content | % | ASTM D5774 | |
Organic Acid Content | % | ASTM D5774/ ISO 7781 | |
Soap Content | % | ASTM D5774/ ISO 7781 | |
Volatile Content | % | ASTM D5668/ ISO 248-1/ ISO 248-2 | |
FTIR Study | - | ASTM D2702 | |
Moisture by KF titrator* | % | IS 2362 | |
Acetone extract of SBR* | % | ASTM D5773 | |
Ethylene Toluene extract content of SBR* | % | ASTM D5774 |
Carbon
Product | Test | Unit | Method |
---|---|---|---|
Carbon Black | Ash Content | % | ASTM D1506/ ISO 1125 |
BaP Content | ppb | ASTM D7771 | |
COAN No | ml/100g | ASTM D3493 | |
Cyclohexane Extract | % | ASTM D7772 | |
Extractable Content | % | ASTM D4527 | |
FTIR Study | '-- | ASTM D2702 | |
Heat Loss | % | ASTM D1509/ ISO 1126 | |
Iodine no | g/Kg | ASTM D1510/ ISO 1304 | |
IPHT | gmf | ASTM D5230 | |
NSA | m2/g | ASTM D6556/ ISO 18852 | |
OAN No | ml/100g | ASTM D2414/ ISO 4656 | |
pH | -- | ASTM D1512 | |
Pour Density | Kg/m3 | ASTM D1513 | |
Sieve Residue | % | ASTM D1508/ ISO 1437 | |
STSA | m2/g | ASTM D6556/ ISO 18852 | |
Sulfur Content | % | ASTM D1619/ ISO 1138 | |
Tint Strength | -- | ASTM D3265/ ISO 5435 | |
Toluene Discolouration | % | ASTM D1618/ ISO 3858 | |
Residue at 325 mesh* | % | ASTM D1508 | |
Residue at 35 mesh* | % | ASTM D1508 | |
Bulk Attrition* | % | ASTM D1508 |
SR Filler
Product | Test | Unit | Method |
---|---|---|---|
SR Filler | |||
Ignition Loss* | % | ASTM D6740 | |
Heat Loss* | % | ISO 11235 | |
HF Soluble* | % | ASTM D297 | |
pH * | - | ISO 28641 | |
Residue at 325 mesh* | % | ASTM D5461 | |
Other minerals-Fe, Cu & Mn* | % | 32-WI-300 |
Silica
Product | Test | Unit | Method |
---|---|---|---|
Silica | |||
CTAB surface area | m2/g | ASTM D6845 | |
Ignition Loss | % | ISO 3262-1/ ASTM D1208/ ISO 5794-1 | |
NSA | m2/g | ASTM D1993 | |
Sears No | ml/1.5 g | ASTM D8016 | |
SiO2 Content | % | ISO 3262-20 | |
Heat Loss | % | ASTM D6738/ ISO 727-2 | |
pH | -- | ASTM D6739 | |
SiO2 Content | % | ISO 5794-1 | |
Electrical conductivity* | µs/cm | ASTM D8300 |
CaCO3
Product | Test | Unit | Method |
---|---|---|---|
Calcium carbonate | |||
Ignition Loss* | % | ASTM D1208 | |
Heat Loss* | % | ISO 11235 | |
HCl Insoluble* | % | ASTM C25 | |
Fineness through 100 mesh* | % | ISO 11235 | |
Fineness through 325 mesh* | % | ISO 11235 | |
CaO content* | % | ASTM C25 | |
Qualitative test for CO2* | - | HASETRI method | |
Alkalinity* | - | HASETRI method | |
Nitrogen surface area* | m2/g | ASTM D1993 | |
Lead content* | % | 32-WI-300 | |
Magnesium as MgO* | % | 32-WI-300 |
Crumb rubber
Product | Test | Unit | Method |
---|---|---|---|
Crumb Rubber | |||
Acetone extract* | % | ASTM D6370 | |
Ash content* | % | ASTM D6370 | |
Moisture by KF * | % | IS 2362 | |
Fineness through 30 mesh* | % | ASTM D5644 | |
Fineness through 40 mesh* | % | ASTM D5644 | |
Rubber hydrocarbon content* | % | ASTM D6370 | |
Carbon black content* | % | ASTM D6370 | |
Mesh size distribution* | % | ASTM D5644 |
Oil
Product | Test | Unit | Method |
---|---|---|---|
Oil | |||
Aniline Point | °C | ASTM D611 | |
API gravity | -- | ASTM D1298 | |
Aromatic content- FTIR | % | IS 13155 | |
Naphthenic Content-FTIR | % | IS 13155 | |
Paraffininc Content-FTIR | % | IS 13155 | |
Aromatic content- Clay gel | % | ASTM D2007 | |
Saturate content-Clay gel | % | ASTM D2007 | |
Polar content- Clay gel | % | ASTM D2007 | |
Asphalt content- Clay gel | % | ASTM D2007 | |
Flash Point | °C | ASTM D92 | |
Glass Transition Temp | °C | ISO 28343 | |
Kinematic Viscosity | mm2/s | ASTM D445 | |
Naphthalene | mg/Kg | DIN EN 16143 | |
Acenaphthalene | mg/Kg | DIN EN 16143 | |
Acenaphthene | mg/Kg | DIN EN 16143 | |
Fluorene | mg/Kg | DIN EN 16143 | |
Phenanthrene | mg/Kg | DIN EN 16143 | |
Anthracene | mg/Kg | DIN EN 16143 | |
Fluoranthene | mg/Kg | DIN EN 16143 | |
Pyrene | mg/Kg | DIN EN 16143 | |
Benzo (a) Anthracene | mg/Kg | DIN EN 16143 | |
Chrysene | mg/Kg | DIN EN 16143 | |
Benzo (b) Fluoranthene | mg/Kg | DIN EN 16143 | |
Benzo (k) Fluoranthene | mg/Kg | DIN EN 16143 | |
Benzo (a) Pyrene | mg/Kg | DIN EN 16143 | |
Benzo (g.h.i)perylene | mg/Kg | DIN EN 16143 | |
Dibenzo (a,h) anthracene | mg/Kg | DIN EN 16143 | |
Indenol (1.2.3-cd ) Pyrene | mg/Kg | DIN EN 16143 | |
PCA Content | % | IP 346 | |
Pour Point | °C | ASTM D97 | |
Sp Gravity | -- | ASTM D1298 | |
Viscosity Gravity Constant | -- | ASTM D2501 |
Chemical
Product | Test | Unit | Method |
---|---|---|---|
Accelerator-General | |||
Ash Content | % | ISO 28641 | |
Heat Loss | % | ISO 11235 | |
Insoluble content | °C | ASTM D4934/ ISO 11235 | |
Melting Point | % | ASTM D1519/ ISO 11235 | |
pH | -- | ISO 28641 | |
Sieve Residue | % | ASTM D5461 | |
Solubility | % | ASTM D1766 | |
Water Content | % | ASTM D5460 | |
Wet Sieve Residue | % | ISO 11235 | |
Sulfur content | % | ASTM D6741 | |
Moisture content | % | ASTM D4571 | |
FTIR Study | % | ASTM D2702 | |
Accelerator-CBS | Assay | % | ASTM D4936/ ISO 11235 |
Accelerator-DCBS | Assay | % | ASTM D4936 |
Accelerator-MBT | Assay | % | ASTM D1991 |
Accelerator-MBTS | Assay | % | ISO 11235/ ASTM D5051 |
Free MBT Content | % | ASTM D5044 | |
Accelerator-Sulphenamide | Ash Content | % | ISO 11235/ ASTM D4574 |
Accelerator-TBBS | Assay | % | ASTM D4936/ ISO 11235 |
Antidegradants | Melting point* | °C | ASTM D1519 |
Flash point* | °C | ASTM D92 | |
Assay* | % | ISO 11235 | |
DPPD * | % | ISO 11235 | |
DTPD* | % | ISO 11235 | |
PTPD* | % | ISO 11235 | |
Antioxidant | Ash Content | % | ISO 28641 |
Heat Loss | % | ISO 28641 | |
Melting Point | °C | ASTM D1519 | |
pH | -- | ISO 28641 | |
Purity by GC | % | ASTM D4937 | |
Purity by HPLC | % | ASTM D5666 | |
Softening Point | °C | ISO 28641 | |
Volatile Content | % | ASTM D4571 | |
FTIR Study | -- | ASTM D2702 | |
Process Aid | Ash Content | % | ISO 28641 |
Melting point | °C | ASTM D1519 | |
Metal Content | mg/Kg | SOP: 32-WI-300 | |
Wet Sieve Residue | % | ASTM D5461 | |
FTIR Study | -- | ASTM D2702 | |
WB212 | |||
Drop Melting point* | °C | ASTM D127 | |
Ash content* | % | ASTM D4574 | |
Acid no* | mg KOH/g | 32-WI-306 | |
Iodine no* | g/100g | HASETRI method | |
Moisture Content* | % | ASTM D4571 | |
Manganese content* | % | HASETRI method | |
Resin | Ash Content | % | ISO 28641 |
pH | -- | ISO 28641 | |
Softening Point | °C | ASTM E28/ ISO 28641 | |
Acetone insoluble* | % | ASTM D1766 | |
Heat Loss* | % | ASTM D4571 | |
Methylol content* | % | HASETRI method | |
FTIR Study | -- | ASTM D2702 | |
PF resin hardner | |||
HMT content* | % | HASETRI method | |
Hot plate cure @165°C* | s | HASETRI method | |
Wet Sieve Residue* | % | ASTM D4572 | |
FTIR Study* | - | ASTM D2702 | |
HMMM Resin | |||
Ash Content* | % | ASTM D4574 | |
Free formaldehyde* | % | HASETRI method | |
Refractive index* | - | ASTM D1218 | |
Nitrogen content* | % | ASTM D6741 | |
Sieve Residue* | % | ASTM D4572 | |
FTIR Study* | - | ASTM D2702 | |
DCPD Resin | |||
Softening Point* | °C | ASTM E28 | |
Ash Content* | % | ASTM D4574 | |
Acid No* | mg KOH/g | 32-WI-306 | |
Bromine no* | g/100g | ASTM D1159 | |
Saponification number* | mg KOH/g | SOP-32-WI-308 | |
FTIR Study* | - | ASTM D2702 | |
Silane | |||
Ash Content | % | ISO 28641 | |
Residue on Ignition | % | ASTM D6740 | |
Sulfur Content | % | ASTM D6741 | |
FTIR Study | -- | ASTM D2702 | |
Stearic Acid | |||
Acid No | mg KOH/g | 32-WI-306 | |
Ash Content | % | ISO 28641 | |
Metal Content | mg/Kg | SOP: 32-WI-300 | |
pH | -- | ISO 28641 | |
Saponification number | mg KOH/g | SOP-32-WI-308 | |
FTIR Study | -- | ASTM D2702 | |
Fatty Acid Composition-C16 | % | SOP-32-WI-310 | |
Fatty Acid Composition-C18 | % | SOP-32-WI-310 | |
Drop Melting point* | °C | ASTM D127 | |
Iodine no* | g/100g | HASETRI method | |
Nickel content* | % | 32-WI-300 | |
Refractive index* | - | ASTM D1218 | |
Sulfur | |||
Acidity | % | ISO 8332 | |
Ash Content | % | ASTM D4574/ ISO 8332 | |
Melting Point | % | ASTM D1519 | |
Oil Content | % | ASTM D4573/ IS 14127/ ISO 8332 | |
Percent Insoluble | % | IS 14127/ ISO 8332 | |
Percent Reversion | % | IS 14127/ ISO 8332 | |
Percent Sulfur | % | ASTM D4578/ ISO 8332 | |
Soluble sulfur content | % | ISO 8332 | |
Volatile content | % | ASTM D4571/ ISO 8332 | |
Wet Sieve Residue | % | ASTM D4572/ ASTM D5461/ ISO 8332 | |
Titanium oxide | |||
Ash Content | % | ASTM D1208 | |
Loss on ignition | % | ASTM D1208 | |
Moisture Content | % | ASTM D280/ ASTM D1394 | |
pH | -- | ASTM D1208 | |
Wax | |||
Ash Content | % | ISO 28641 | |
Carbon Chain distribution | % | ASTM D5442 | |
Drop Melting point | °C | ASTM D127 | |
Congealing point* | °C | ASTM D938 | |
Refractive index* | - | ASTM D1218 | |
FTIR Study | -- | ASTM D2702 | |
Zinc Oxide | |||
Ash Content | % | ISO 28641 | |
Metal Content | % | SOP: 32-WI-300 | |
Moisture Content | % | ASTM D280/ ASTM D4315 | |
pH | -- | ASTM D1208/ ISO 28641 | |
Wet Sieve Residue | % | ASTM D5461 | |
Zinc Oxide content | % | ASTM D3280/ ASTM D4315 | |
Lead content* | % | 32-WI-300 | |
Cadmium content* | % | 32-WI-300 | |
Total Sulfur* | % | ASTM D6741 | |
Nitrogen Surface Area* | m2/g | ASTM D1993 | |
Color comparison* | -- | ASTM D2616 | |
FTIR Study | -- | ASTM D2702 | |
DBD | |||
Ash Content* | % | ASTM D4574 | |
Moisture by KF moisture* | % | IS 2362 | |
Wet Sieve Residue* | % | ASTM D4572 | |
FTIR Study* | -- | ASTM D2702 | |
Cobalt Stearate | |||
Cobalt Content* | % | IS 2766 | |
Final Melting Point* | °C | ASTM E794 | |
Heat Loss* | % | ASTM D4571 | |
Heptane Insolubles* | % | ASTM D1766 | |
FTIR* | - | ASTM D2702 | |
Wood Rosin/Gum Rosin | |||
Softening Point by Ring and Ball* | °C | ASTM E28 | |
Ash Content* | % | ASTM D4574 | |
Acid No.* | mg KOH/g | 32-WI-306 | |
Solubility in Benzol (Only for wood Rosin)* | % | ASTM D1766 | |
Iodine No.* | g/100g | HASETRI method | |
FTIR* | - | ASTM D2702 | |
MgO | |||
MgO Content* | % | HASETRI method | |
Ash Content* | % | ASTM D4574 | |
Sieve Residue @ 325 mesh* | % | ASTM D4572 | |
Nitrogen Surface Area* | m2/g | ASTM D1993 | |
CaO Content* | % | HASETRI method | |
Resorcinol | |||
Freezing Point* | °C | ASTM D2386 | |
Ash Content* | % | ASTM D4574 | |
Purity* | % | ASTM D4937 | |
FTIR* | - | ASTM D2702 | |
Oleic Acid | |||
Iodine No.* | g/100g | HASETRI method | |
Acid No.* | mg KOH/g | 32-WI-306 | |
Specific Gravity* | - | ASTM D792 | |
Perkalink | |||
Initial Melting Point* | °C | ASTM D1519 | |
Final Melting Point* | °C | ASTM D1519 | |
Heat Loss* | % | ASTM D4571 | |
Ash Content* | % | ASTM D4574 | |
Assay* | % | ISO 11235 | |
Duralink | |||
Melting Point* | °C | ASTM D1519 | |
Moisture Content by KF* | % | IS 2362 | |
Sieve Residue @ 100 mesh* | % | ASTM D4572 | |
Assay by Titration* | % | ISO 11235 | |
Tyre inner paint | |||
Specific Gravity* | - | ASTM D1417 | |
Toatal Solid * | % | ASTM D1417 | |
pH* | -- | ISO 28641 | |
Suremix | |||
Zn Content* | % | 32-WI-300 | |
Ash Content* | % | ASTM D4574 | |
pH* | -- | ISO 28641 | |
Softening Point by Ring and Ball* | °C | ASTM E28 | |
FTIR* | - | ASTM D2702 |
Latex
Product | Test | Unit | Method |
---|---|---|---|
Latex | |||
Mooney Viscosity | MU | ASTM D1417 | |
Nitrogen Content | % | ISO 1656 | |
pH | -- | ASTM D1417 | |
Total Solid Content | % | ASTM D1417 |
Reinforcement
Product | Test | Unit | Method |
---|---|---|---|
Reinforment cord | |||
Coating weight-Steel wire | % | ASTM D2969 | |
Coating weight-Bead wire | % | ASTM D2969 | |
Composition in coating-Steel Wire | % | ASTM D2969 | |
Composition in coating-Bead Wire | % | ASTM D2969 | |
Melting point-Organic Cord | °C | ASTM D2969 |
Coal
Product | Test | Unit | Method |
---|---|---|---|
Coal | |||
Ash Content | % | IS 1350-1 | |
Calorific Value | KCal/Kg | IS 1350-2 | |
Fixed Carbon | % | IS 1350-1 | |
Moisture Content | % | IS 1350-1 | |
Sulfur Content | % | ASTM D4239 | |
Volatile Matter | % | IS 1350-1 |
Finish Pdt
Product | Test | Unit | Method |
---|---|---|---|
Rubber Compound | |||
Antidegredant Content | % | SOP 32-WI-304 | |
Ash Content | % | ASTM D6370/ ASTM D297/ ISO 9924-1/ ISO 9924-2/ ISO 9924-3 | |
SBR/BR blend ratio | % | SOP-31-WI-703 | |
Carbon Black Content | % | ASTM D6370/ ISO 9924-1/ ISO 9924-2/ ISO 9924-3 | |
Extractable Content | % | ASTM D297/ ISO 1407 | |
Glass Transition Temp | °C | ASTM D7426/ ASTM E1356 | |
HCl insoluble ash content | % | ASTM D297 | |
HCl soluble ash content | % | ASTM D297 | |
Metal Content | % | ISO 19050 | |
Polymer Blend Ratio | % | ASTM D6370/ ISO 9924-1 | |
Polymer Content | % | ASTM D6370/ ISO 9924-1/ ISO 9924-2/ ISO 9924-3 | |
Silica Content | % | ASTM D297 | |
Sulfur Content | % | ASTM D1619 | |
Polymer Identification | '-- | ASTM D3677/ ISO 4650 | |
Pb Content | mg/Kg | 31-WI-312 | |
Cd Content | mg/Kg | 31-WI-312 | |
Hg Content | mg/Kg | 31-WI-312 | |
Cr Content | mg/Kg | 31-WI-312 | |
Mono BB Content | mg/Kg | 31-WI-311 | |
Di BB Content | mg/Kg | 31-WI-311 | |
Tri BB Content | mg/Kg | 31-WI-311 | |
Penta BB Content | mg/Kg | 31-WI-311 | |
Hexa BB Content | mg/Kg | 31-WI-311 | |
Hepta BB Content | mg/Kg | 31-WI-311 | |
Octa BB Content | mg/Kg | 31-WI-311 | |
Nona BB Content | mg/Kg | 31-WI-311 | |
Deca BB Content | mg/Kg | 31-WI-311 | |
Polymer Identification by GC | -- | ASTM D3452 |