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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 |
Highlights
HASETRI featured in Indian/International Rubber Journal
An enlightening interview with Dr. R. Mukhopadhyay, Director & CE, HASETRI, speaks of the current situation of the Indian tire and rubber industry and how they are coping with the pandemic.
HASETRI successfully enhanced the scope of NABL accreditation
September 2021: HASETRI has successfully enhanced the scope of NABL accreditation in Wet Grip and Coast by Noise testing for Cl & C2 category tyres as per ECE R117 and proposed AIS 142.
PHD Annual Awards for Excellence Announced
HASETRI imparted training to candidates under the STAR scheme of NSDC,GOI in rubber sector(under Rubber SDC)for the job roles of mill & Tyre Building Operator-commercial vehicles. The Institute has been approved as the first training provider for rubber sector by RSDC under NSDC,GOI
HASETRI receives the Prof. SK Joshi Laboratory Excellence Award
HASETRI received Prof. SK Joshi Laboratory Excellence Award from Quality Council of India (QCI) during their Silver Jubilee celebration held on 6th October 2022 at New Delhi. This is the first testing laboratory in private sector in India to receive this Award.
Elastomer And Tyre Research Institute