Elastocon AB
Accreditation no: 1678
- Postal and visiting address:
- Tvinnargatan 25, 507 30 Brämhult · Show on map
Calibration, SS-EN ISO/IEC 17025:2018
Latest decision date: 2025-10-09
| Mätstorhet | Metod/procedur | Produkt/objekt | Utvidgad mätosäkerhet ± | Utrustning/Mätprincip | Mätområde/mätnivå | Anmärkning |
|---|---|---|---|---|---|---|
| Length | Inhouse method; KI13 Utg 7 | Measuring clock | 2,0 µm | - | (> 0 – 100) mm | Digital |
| Length | Inhouse method; KI13 Utg 7 | Measuring clock, tilt indicator | 2,8 µm | - | (> 0 – 50) mm | Analog |
| Length | Inhouse method; KI13 Utg 7 | Measuring clock, tilt indicator | 3,0 µm | - | (> 0 – 100) mm | Analog |
| Length | Inhouse method; KI50 Utg 6 | Calliper | 33 µm | - | (> 0 – 150) mm | - |
| Length | Inhouse method; KI50 Utg 6 | Calliper | 43 µm | - | (> 150 – 300) mm | - |
| Length | Inhouse method; KI50 Utg 6 | Calliper | 82 µm | - | (> 300 – 1000) mm | - |
| Length | Inhouse method; KI52 Utg 5 | Micrometer | 13 µm | - | (> 250 – 350) mm | - |
| Length | Inhouse method; KI52 Utg 5 | Micrometer | 2,5 µm | - | (> 0 – 50) mm | - |
| Length | Inhouse method; KI52 Utg 5 | Micrometer | 43 µm | - | (> 25 – 150) mm | - |
| Length | Inhouse method; KI52 Utg 5 | Micrometer | 5,9 µm | - | (> 150 – 250) mm | - |
| Length | Inhouse method; KI53 Utg 7 | Three point micrometer | 4,1 µm | - | (> 6 – 50) mm | - |
| Length | Inhouse method; KI53 Utg 7 | Three point micrometer | 5,4 µm | - | (> 50 – 100) mm | - |
| Length | Inhouse method; KI6 ed 9 | Control measures | 1,5 µm | - | (25 – 50) mm | - |
| Length | Inhouse method; KI6 ed 9 | Control measures | 2,1 µm | - | (> 50 – 300) mm | - |
| Length | Inhouse method; KI6 ed 9 | Control measures | 2,7 µm | - | (> 300 – 500) mm | - |
| Length | Inhouse method; KI6 ed 9 | Control measures | 4,4 µm | - | (> 500 – 700) mm | - |
| Length | Inhouse method; KI6 ed 9 | Control measures | 5,8 µm | - | (> 700 – 1000) mm | - |
| Length | Inhouse method; KI85 Utg 6 | Surface plate | 4,8 µm | - | (0 – 1) m | - |
| Length | Inhouse method; KI85 Utg 6 | Surface plate | 5,0 µm | - | (> 1 – 2) m | - |
| Length | Inhouse method; KI85 Utg 6 | Surface plate | 5,3 µm | - | (> 2 – 3) m | - |
| Length | Inhouse method; KI85 Utg 6 | Surface plate | 5,6 µm | - | (> 3 – 4) m | - |
| Length | Inhouse method; KI85 Utg 6 | Surface plate | 6,1 µm | - | (> 4 – 5) m | - |
| Length | Inhouse method; KI9 Utg 8 | Cylindrical interpreter | 1,5 µm | - | (1 – 100) mm | - |
| Length | Inhouse method; KML001 Utg 7 | Measuring clock | 3 µm | - | (1 – 90) mm | - |
| Length | Inhouse method; KML001 Utg 7 | Measuring clock | 4 µm | - | (> 90 – 150) mm | - |
| Length | Inhouse method; KML001 Utg 7 | Measuring clock | 6 µm | - | (> 150 – 300) mm | - |
| Length | Inhouse method; KML001 Utg 7 | Thickness gauge | 3 µm | - | (1 – 90) mm | - |
| Length | Inhouse method; KML001 Utg 7 | Thickness gauge | 4 µm | - | (> 90 – 150) mm | - |
| Length | Inhouse method; KML001 Utg 7 | Thickness gauge | 6 µm | - | (> 150 – 300) mm | - |
| Length | Inhouse method; KML002 Utg 6 | Calliper | 39 µm | - | (> 0 – 150) mm | - |
| Length | Inhouse method; KML002 Utg 6 | Calliper | 54 µm | - | (> 150 – 300) mm | - |
| Length | Inhouse method; KML003 Ed 5 | Micrometer | 2,5 µm | - | (1 – 30) mm | - |
| Length | Inhouse method; KML003 Ed 5 | Micrometer | 5,0 µm | - | (> 30 – 150) mm | - |
| Length | Inhouse method; KML004 Utg 7 | Measuring tape | 0,5 mm | - | ≤ 8 m | - |
| Length | Inhouse method; KML004 Utg 7 | Measuring tape | 1,3 mm | - | (> 8 – 30) m | - |
| Length | Inhouse method; KML005 Utg 5 | Steel scales | 0,3 mm | - | ≤ 300 mm | - |
| Length | Inhouse method; KML005 Utg 5 | Steel scales | 0,5 mm | - | (> 300 – 900) mm | - |
| Length | Inhouse method; KML005 Utg 5 | Steel scales | 0,6 mm | - | (> 900 – 1000) mm | - |
| Length | Inhouse method; KML038 Utg 1 | Cylindrical interpreter | 1,5 µm | - | (1 – 100) mm | - |
| Length | Inhouse method; KML039 Utg 1 | Measuring tapes, measuring sticks | 1,5 µm | - | (0,15 – 20) mm | - |
| Length | Inhouse method; KML040 Utg 1 | Cylindrical ring | 1,1 µm | - | (1,5 – 8) mm | - |
| Length | Inhouse method; KML040 Utg 1 | Cylindrical ring | 1,2 µm | - | (> 8 – 100) mm | - |
| Length | Inhouse method; KML040 Utg 1 | Cylindrical ring | 1,8 µm | - | (> 100 – 250) mm | - |
| Length | Inhouse method; KML041 Utg 1 | Cylindrical thread gauge | 5,7 µm | - | (2 – 100) mm | - |
| Length | Inhouse method; KML042 ed 2 | Cylindrical thread ring | 5,6 µm | - | (3 – 200) mm | - |
| Length | Inhouse method; KML052 ed 4 | Spud | 0,07 µm | Mechanically calibrated | (0,1 – 25) mm | Stål |
| Length | Inhouse method; KML052 ed 4 | Spud | 0,08 µm | Mechanically calibrated | (0,1 – 25) mm | Keramik |
| Length | Inhouse method; KML052 ed 4 | Spud | 0,09 µm | Mechanically calibrated | (> 25 – 50) mm | Stål |
| Length | Inhouse method; KML052 ed 4 | Spud | 0,11 µm | Mechanically calibrated | (> 25 – 50) mm | Keramik |
| Length | Inhouse method; KML052 ed 4 | Spud | 0,13 µm | Mechanically calibrated | (0,1 – 25) mm | Hårdmetall |
| Length | Inhouse method; KML052 ed 4 | Spud | 0,15 µm | Mechanically calibrated | (> 50 – 100) mm | Stål |
| Length | Inhouse method; KML052 ed 4 | Spud | 0,17 µm | Mechanically calibrated | (> 25 – 50) mm | Hårdmetall |
| Length | Inhouse method; KML052 ed 4 | Spud | 0,17 µm | Mechanically calibrated | (> 50 – 100) mm | Keramik |
| Length | Inhouse method; KML052 ed 4 | Spud | 0,43 µm | Mechanically calibrated | (> 50 – 100) mm | Hårdmetall |
| Length | Inhouse method; KML052 ed 4 | Spud | 0,46 µm | Mechanically calibrated | (> 100 – 250) mm | Stål |
| Length | Inhouse method; KML052 ed 4 | Spud | 0,70 µm | Mechanically calibrated | (> 250 – 500) mm | Stål |
| Length | Inhouse method; VMK001 Ed 9 | Extensometer | 0,04 % | - | (5 – 52) % på L0 25 mm | - |
| Length | Inhouse method; VMK001 Ed 9 | Extensometer | 0,12 % | - | (5 – 1200) % på L0 20 mm | - |
| Length | Inhouse method; VMK001 Ed 9 | Extensometer | 0,3 % | - | (10 – 1200) % på L0 10 mm | - |
| Mätstorhet | Metod/procedur | Produkt/objekt | Parameter/Egenskaper | Utvidgad mätosäkerhet ± | Utrustning/Mätprincip | Mätområde/mätnivå | Anmärkning |
|---|---|---|---|---|---|---|---|
| Force | Intern metod; KMK001 Utg 11 | Force measuring device | - | 0,12 N | - | (1 – 200) N | Stigande drag och tryckbelastning |
| Force | Intern metod; KMK001 Utg 11 | Force measuring device | - | 0,8 N | - | 200 N – 2 kN | Stigande drag och tryckbelastning |
| Force | Intern metod; KMK001 Utg 11 | Force measuring device | - | 140 N | - | (50 – 100) kN | Stigande drag och tryckbelastning |
| Force | Intern metod; KMK001 Utg 11 | Force measuring device | - | 15 N | - | (10 – 20) kN | Stigande drag och tryckbelastning |
| Force | Intern metod; KMK001 Utg 11 | Force measuring device | - | 420 N | - | (100 – 300) kN | Stigande tryckbelastning |
| Force | Intern metod; KMK001 Utg 11 | Force measuring device | - | 43 N | - | (20 – 30) kN | Stigande drag och tryckbelastning |
| Force | Intern metod; KMK001 Utg 11 | Force measuring device | - | 65 N | - | (30 – 50) kN | Stigande drag och tryckbelastning |
| Force | Intern metod; KMK001 Utg 11 | Force measuring device | - | 660 N | - | (300 – 500) kN | Stigande tryckbelastning |
| Force | Intern metod; KMK001 Utg 11 | Force measuring device | - | 8 N | - | (2 – 10) kN | Stigande drag och tryckbelastning |
| Force | Intern metod; KMK001 Utg 11 | Testing machine | - | 0,12 N | - | (1 – 200) N | Stigande drag och tryckbelastning. Metod innefattar ingen klassning. |
| Force | Intern metod; KMK001 Utg 11 | Testing machine | - | 0,8 N | - | 200 N – 2 kN | Stigande drag och tryckbelastning. Metod innefattar ingen klassning. |
| Force | Intern metod; KMK001 Utg 11 | Testing machine | - | 140 N | - | (50 – 100) kN | Stigande drag och tryckbelastning. Metod innefattar ingen klassning. |
| Force | Intern metod; KMK001 Utg 11 | Testing machine | - | 15 N | - | (10 – 20) kN | Stigande drag och tryckbelastning. Metod innefattar ingen klassning. |
| Force | Intern metod; KMK001 Utg 11 | Testing machine | - | 420 N | - | (100 – 300) kN | Stigande drag och tryckbelastning. Metod innefattar ingen klassning. |
| Force | Intern metod; KMK001 Utg 11 | Testing machine | - | 43 N | - | (20 – 30) kN | Stigande drag och tryckbelastning. Metod innefattar ingen klassning. |
| Force | Intern metod; KMK001 Utg 11 | Testing machine | - | 65 N | - | (30 – 50) kN | Stigande drag och tryckbelastning. Metod innefattar ingen klassning. |
| Force | Intern metod; KMK001 Utg 11 | Testing machine | - | 660 N | - | (300 – 500) kN | Stigande drag och tryckbelastning. Metod innefattar ingen klassning. |
| Force | Intern metod; KMK001 Utg 11 | Testing machine | - | 8 N | - | (2 – 10) kN | Stigande drag och tryckbelastning. Metod innefattar ingen klassning. |
| Force | Intern metod; KMK002 Utg 9 | Force measuring device | - | 0,001 N | - | (0,1 – 1) N | Stigande drag och tryckbelastning |
| Force | Intern metod; KMK002 Utg 9 | Force measuring device | - | 0,002 N | - | (1 – 10) N | Stigande drag och tryckbelastande |
| Force | Intern metod; KMK002 Utg 9 | Force measuring device | - | 0,007 N | - | (10 – 50) N | Stigande drag och tryckbelastande |
| Force | Intern metod; KMK002 Utg 9 | Force measuring device | - | 0,03 N | - | (50 – 200) N | Stigande drag och tryckbelastande |
| Force | Intern metod; KMK002 Utg 9 | Force measuring device | - | 0,07 N | - | (200 – 500) N | Stigande drag och tryckbelastande |
| Force | Intern metod; KMK002 Utg 9 | Testing machine | - | 0,001 N | - | (0,1 – 1) N | Stigande drag och tryckbelastning. Metoderna innefattar ingen klassning. |
| Force | Intern metod; KMK002 Utg 9 | Testing machine | - | 0,002 N | - | (1 – 10) N | Stigande drag och tryckbelastning. Metoderna innefattar ingen klassning. |
| Force | Intern metod; KMK002 Utg 9 | Testing machine | - | 0,007 N | - | (10 – 50) N | Stigande drag och tryckbelastning. Metoderna innefattar ingen klassning. |
| Force | Intern metod; KMK002 Utg 9 | Testing machine | - | 0,03 N | - | (50 – 200) N | Stigande drag och tryckbelastning. Metoderna innefattar ingen klassning. |
| Force | Intern metod; KMK002 Utg 9 | Testing machine | - | 0,07 N | - | (200 – 500) N | Stigande drag och tryckbelastning. Metoderna innefattar ingen klassning. |
| Hardness | Inhouse method; KMK003 Utg 7 | Shore meter | - | 0,5 °Sh | Shore | (10 – 90) °Sh | - |
| Hardness | Inhouse method; KML006 Utg 8 | IRHD-Gauges | - | 0,4 °IRHD | IRHD | (10 – 100) °IRH | - |
| Hardness | Inhouse method; KML007 Utg 4 | Reference rubber block | - | 1 ° | Shore & IRHD | (30 – 95) ° | - |
| Length | Inhouse method; VMK001 Ed 9 | Testing machine | - | 3 µm | - | (1 – 90) mm | Balkrörelse |
| Length | Inhouse method; VMK001 Ed 9 | Testing machine | - | 4 µm | - | (> 90 – 150) mm | Balkrörelse |
| Length | Inhouse method; VMK001 Ed 9 | Testing machine | - | 6 µm | - | (> 150 – 300) mm | Balkrörelse |
| Mass | Inhouse method; KMM001 Ed 11 | NAWI | - | (0,017 – 0,031) mg | E2 | (1 – 10) g | - |
| Mass | Inhouse method; KMM001 Ed 11 | NAWI | - | (0,031 – 0,08) mg | E2 | (10 – 100) g | - |
| Mass | Inhouse method; KMM001 Ed 11 | NAWI | - | (0,08 – 0,8) mg | E2 | (0,1 – 1) kg | - |
| Mass | Inhouse method; KMM001 Ed 11 | NAWI | - | (0,6 – 2,1) g | M1 | (20 – 80) kg | - |
| Mass | Inhouse method; KMM001 Ed 11 | NAWI | - | (0,8 – 8) mg | E2 | (1 – 10) kg | - |
| Mass | Inhouse method; KMM001 Ed 11 | NAWI | - | (8 – 12) mg | E2 | (10 – 20) kg | - |
| Mass | Inhouse method; KMM001 Ed 11 | NAWI | - | 5,3 g | M2 | (80 – 150) kg | - |
| Pressure | Inhouse method; KMTr001 Utg 8 | Press showing measuring instrument | Gauge pressure | 0,2 kPa | - | (> 10 – 200) kPa | Tryck-medium Luft |
| Pressure | Inhouse method; KMTr001 Utg 8 | Press showing measuring instrument | Gauge pressure | 0,4 kPa | - | (> -10 – -80) kPa | Tryck-medium Luft |
| Pressure | Inhouse method; KMTr001 Utg 8 | Press showing measuring instrument | Gauge pressure | 0,5 Pa | - | (> 3 – 100) Pa | Tryck-medium Luft |
| Pressure | Inhouse method; KMTr001 Utg 8 | Press showing measuring instrument | Gauge pressure | 1,0 Pa | - | (-3 – -100) Pa | Tryck-medium Luft |
| Pressure | Inhouse method; KMTr001 Utg 8 | Press showing measuring instrument | Gauge pressure | 10 Pa | - | (> 1 – 10) kPa | Tryck-medium Luft |
| Pressure | Inhouse method; KMTr001 Utg 8 | Press showing measuring instrument | Gauge pressure | 2 Pa | - | > 100 Pa – 1 kPa | Tryck-medium Luft |
| Pressure | Inhouse method; KMTr001 Utg 8 | Press showing measuring instrument | Gauge pressure | 20 Pa | - | (> -1 – -10) kPa | Tryck-medium Luft |
| Pressure | Inhouse method; KMTr001 Utg 8 | Press showing measuring instrument | Gauge pressure | 4 Pa | - | > -100 Pa – -1 kPa | Tryck-medium Luft |
| Pressure | Inhouse method; KMTr001 Utg 8 | Press showing measuring instrument | Gauge pressure | 48 kPa | - | (> 8 – 20) MPa | Tryck-medium Vatten |
| Pressure | Inhouse method; KMTr001 Utg 8 | Press showing measuring instrument | Gauge pressure | 5 kPa | - | 200 kPa – 8 MPa | Tryck-medium Vatten |
| Pressure | Inhouse method; KMTr001 Utg 8 | Press showing measuring instrument | Gauge pressure | 82 kPa | - | (> 20 – 40) MPa | Tryck-medium Vatten |
| Speed | Inhouse method; VMK001 Ed 9 | Tensile testing machine | - | 0,06 mm / min | - | (1 – 10) mm / min | - |
| Speed | Inhouse method; VMK001 Ed 9 | Tensile testing machine | - | 0,13 mm / min | - | (10 – 25) mm / min | - |
| Speed | Inhouse method; VMK001 Ed 9 | Tensile testing machine | - | 0,25 mm / min | - | (25 – 50) mm / min | - |
| Speed | Inhouse method; VMK001 Ed 9 | Tensile testing machine | - | 0,50 mm / min | - | (50 – 100) mm / min | - |
| Speed | Inhouse method; VMK001 Ed 9 | Tensile testing machine | - | 1,0 mm / min | - | (100 – 200) mm / min | - |
| Speed | Inhouse method; VMK001 Ed 9 | Tensile testing machine | - | 1,3 mm / min | - | (200 – 250) mm / min | - |
| Speed | Inhouse method; VMK001 Ed 9 | Tensile testing machine | - | 2,5 mm / min | - | (250 – 500) mm / min | - |
| Mätstorhet | Metod/procedur | Produkt/objekt | Utvidgad mätosäkerhet ± | Mätområde/mätnivå | Anmärkning |
|---|---|---|---|---|---|
| Temperature | Inhouse method; KMT001 Ed 8 | Temperature sensors | 0,2 °C | (20 – 200) °C | Torrblock |
| Temperature | Inhouse method; KMT001 Ed 8 | Temperature sensors | 0,5 °C | (> 200 – 250) °C | Torrblock |
| Temperature | Inhouse method; KMT001 Ed 8 | Temperature sensors | 1,0 °C | (> 250 – 400) °C | Torrblock |
| Temperature | Inhouse method; KMT002 ed 8 | Temperature sensors | 0,05 °C | (0 – 200) °C | Vätska |
| Temperature | Inhouse method; KMT002 ed 8 | Temperature sensors | 0,1 °C | (-28 – 0) °C | Vätska |
| Temperature | Inhouse method; KMT002 ed 8 | Temperature sensors | 0,5 °C | (-70 – -28) °C | Vätska |
| Temperature | Inhouse method; KMT003 ed 7 | Temperature sensors | 0,2 °C | (30 – 300) °C | Luft |
| Temperature | Inhouse method; KMT003 ed 7 | Temperature sensors | 0,5 °C | (-50 – <30) °C | Luft |
| Temperature | Inhouse method; VMT001 ed 8 | Liquid bath | 0,08 °C | (> 0 – 200) °C | - |
| Temperature | Inhouse method; VMT001 ed 8 | Liquid bath | 0,1 °C | (-28 – 0) °C | - |
| Temperature | Inhouse method; VMT001 ed 8 | Liquid bath | 0,5 °C | (-70 – -28) °C | - |
| Temperature | Inhouse method; VMT001 ed 8 | Liquid bath | 0,5 °C | (> 200 – 300) °C | - |
| Temperature | Inhouse method; VMT001 ed 8 | Liquid bath | 1 °C | (> 300 – 400) °C | - |
| Temperature | Inhouse method; VMT002 Utg 7 | Temperature chamber | 0,4 °C | (> 0 – 300) °C | - |
| Temperature | Inhouse method; VMT002 Utg 7 | Temperature chamber | 0,5 °C | (-70 – 0) °C | - |
| Temperature | Inhouse method; VMT002 Utg 7 | Temperature chamber | 1 °C | (> 300 – 400) °C | - |
| Temperature | Inhouse method; VMT003 Ed 9 | Melt index tester | 0,08 °C | (30 – 200) °C | - |
| Temperature | Inhouse method; VMT003 Ed 9 | Melt index tester | 0,5 °C | (> 200 – 300) °C | - |
| Temperature | Inhouse method; VMT003 Ed 9 | Melt index tester | 1 °C | (> 300 – 400) °C | - |
- The calibration and measurement capability (CMC) includes measureand (technology area), method, measurement range and expanded measurement uncertainty. The expanded measurement uncertainty corresponds to a coverage probability (confidence level) of ~95%.
Regulations
- STAFS 2020:1
- Swedacs föreskrifter och allmänna råd om ackreditering
Testing, SS-EN ISO/IEC 17025:2018
Latest decision date: 2024-10-10
| Metod/procedur | Provtyp/System/Produkt | Parameter/Egenskaper | Utrustning/Mätprincip | Anmärkning |
|---|---|---|---|---|
| ISO 11346:2014 | Rubber | Life-Time Estimation | - | Endast Arrheniusmetoden |
| ISO 1432:2021 | Rubber | Torsional resistance | - | - |
| ISO 1817:2015 | Rubber | Fluid Impact | - | Endast vikt-, volym-, hårdhets-, brottgräns- och brottöjningsändring |
| ISO 188:2011 | Rubber | Heat Resistance | - | Endast metod A |
| ISO 2781:2018 | Rubber | Density | - | Endast metod A |
| ISO 2921:2019 | Rubber | Temperature Characteristics | - | - |
| ISO 3384-1:2019 | Rubber | Relaxation | - | - |
| ISO 3384-2:2019 | Rubber | Relaxation | - | - |
| ISO 34-1:2015 | Rubber | Tear resistance | - | Endast metod C |
| ISO 37:2017 | Rubber | Tensile Testing | - | - |
| ISO 48-2:2018 | Rubber | Hardness Testing | IRHD | Endast IRHD-N & -M |
| ISO 48-4:2018 | Rubber | Hardness Testing | Shore | Endast Shore A, AM & D |
| ISO 6914:2021 | Rubber | Relaxation | - | Endast metod A |
| ISO 812:2017 | Rubber | Brittle point | - | - |
| ISO 815-1:2019 | Rubber | Compression Set | - | - |
| ISO 815-2:2019 | Rubber | Compression Set | - | Endast metod 1 & 2 |
Regulations
- ILAC G17:01/2021
- ILAC Guidelines for Measurement Uncertainty in Testing
- STAFS 2020:1
- Swedacs föreskrifter och allmänna råd om ackreditering