Scope
ISO 10816-3
Industrial Machine Vibration Assessment (>15 kW)
ISO 10816-3 specifies vibration evaluation criteria for industrial machines exceeding 15 kW output, measured on non-rotating structural parts at speeds between 120 and 15,000 r/min. This standard defines acceptance zones and diagnostic limits essential for commissioning and in-service monitoring of large industrial equipment. Plant operators, equipment manufacturers, and condition monitoring specialists rely on this test to detect developing mechanical faults and plan maintenance interventions. Accreditation guarantees standardised measurement practices that support production uptime and worker safety in industrial facilities across Europe.
What it measures
- Vibration velocity in mm/s (RMS) on bearing pedestals
- Measurement at specified speed ranges and operating conditions
- Zone classification (A: good, B: acceptable, C: just tolerable, D: unacceptable)
- Vertical and horizontal vibration components
- Trend analysis and transient response
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DIN EN ISO 10816-1
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BS EN ISO 10816-1
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NF EN ISO 10816-1
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UNI EN ISO 10816-1
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UNE EN ISO 10816-1
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NEN EN ISO 10816-1
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DIN EN ISO 20816-3
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BS EN ISO 20816-3
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NF EN ISO 20816-3
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UNI EN ISO 20816-3
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UNE EN ISO 20816-3
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NEN EN ISO 20816-3
1,817
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IEC 60079-7
IEC 60730-2-2: 2005
DIN EN 60730-1: 2017
DIN EN IEC 60730-2-22
IEC 60079-0
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Intona
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Executive guides HSG 264 (2012)
(HSG 264, 2012)
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(HSG 248) โ 2021
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(PCM) based on HSG 248 โ 2021
No 3 based on HSG 248 โ 2021
(PCM) based on HSG 248
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JCS Technology
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ISO 178
BS 5350:Part C13
BS 2782 Part 10 Method 1005
BS EN ISO 14125
MIL-STD 810G:2008 Method 501.5
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Jackson and Keay
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BS EN ISO 11623:2015
BS EN ISO 18119:2018+A1:2021
BS EN ISO 10460:2018
BS EN 20745:2020
Javer Labs
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MIL-STD-810G, Method 508:7
BS 2011:2.1 Ca:1977
(IEC 60068-2-10:2005+A1:2018,
MIL-STD-810H, Method 508:8
Johnson and Allen
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DC CURRENT
INSPECTION EQUIPMENT
AC CURRENT 50 Hz RMS
uncertainties may be increased.
K B Calibration Services
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LENGTH
ended (excluding length bars)
Chronic progressive external
Dial gauges and dial test
Caliper Gauges
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KP Acoustics Research Labs
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BS EN ISO 10140-2:2021
ISO 3745
ISO 7171
IEC 60601-1
accordance with BS EN ISO 5349-1
Kiwa
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DIN EN 13079
BS 1212-4:1991 Clause 4, 13, 14
DIN EN 14622
BS 1212-3:1990 Clause 4
DIN EN 14623
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Kiwa
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DIN EN 55011: 2018
IEC/CISPR 22
DIN EN 55016-2-1
IEC 61326-2-2: 2012
IEC 61000-6-1
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Kiwa
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DIN EN 16510-2-3
DIN EN 16510-2-1
DIN EN 13229
DIN EN 16510-1
DIN EN 13240
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Kiwa
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DIN EN 55011: 2018
AS/NZS CISPR 11:2004
EN 55011 2016 + A1 2017 + A11 2020
IEC/CISPR 14-1
DIN EN 55013
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and Appendix 3 of HSG 227 (2004))
Appendix 5 of HSG 227 (2004))
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SAS 02 based on HSG 248
Kovia
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Appendix 5 of HSG 227 (2004))
HSG 227 (2004)
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LAB (UK)
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MAAM 05 based on HSG 248
(HSG 264, 2012)
LUX-TSI
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DIN EN 13032-4
BS EN ISO 13032-1 +A1:2012
IEC 62612 ed1.0 (2013-06)
IEC 62722-1 ed1.0 (2014-09)
IEC 62722-2-1 ed1.0 (2014-11)
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Lambda Calibration
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PRESSURE (contโd)
Distortion Factor
Spot frequency
Phase angle
(Herpes simplex virus type
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Lambeth Scientific Services
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P-12 based on HSG 248
(HSG 248) โ 2021
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ISO 12966-2
F06 6 & F06 5 based on BS EN
F05 4 based on BS 770:Part
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Leftfield Environmental
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(HSG 248) โ 2021
LSOP6 based on HSG 248
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Leonardo UK
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IEC 60068-2-2
IEC 60068-2-61
IEC 60068-2-1
MIL-STD-810B, 501
MIL-STD-810C, 501.1
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