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
๐ฎ๐น
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
๐ฎ๐น
UNI EN ISO 20816-3
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UNE EN ISO 20816-3
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NEN EN ISO 20816-3
1,591
Accredited labs
17
Countries
Showing 151โ175 of 342 labs
Fourstage Environmental
Active
(HSG 248) โ 2021
(PCM) based on HSG 248
DOC/002 based on HSG 248
Fugro GB
Active
BS 1377: Part 2: 1990
BS 1377-3:2018 + A1:2021
ASTM D4186-12: 2020
ASTM D5334-22
ASTM D2216-19
+ 3 more
Furness Controls
Active
FLOW
Gas pressure (absolute)
Gas pressure (gauge)
DC CURRENT
TEMPERATURE
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G&L Consultancy
Active
(HSG 248) โ 2021
M4 based on HSG 248
(PCM) based on HSG 248
M3 based on HSG 248
(HSG 264, 2012)
+ 1 more
G&M Procter
Active
based on ISO 11133:2014+Amd
dependent) based on BS EN
based on BS EN 12322:1999
G.B.N.S. Partnership
Active
(HSG 248) โ 2021
(PCM) based on HSG 248
PRO02 based on HSG 248
Glasgow City Council
Active
(HSG 248) โ 2021
staining based on HSG 248
F2011 (BS 696:Part 2:1989)
F0131 (BS 1741:10-1:1989) using
F0008 (BS 696:Part 2:1989) using
+ 3 more
Glenair UK
Active
IEC 60068-2-14
IEC 60068-2-30
IEC 60068-2-2
IEC 60068-2-64
IEC 60068-2-1
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Gully Howard Technical
Active
HSG 227 (2004))
(HSG 264, 2012)
HSG 264 (2012) and Appx. 3 of
Appendix 5 of HSG 227 (2004))
HORIBA MIRA
Active
IEC/CISPR 25
DIN EN 55025: 2018
ISO 7637-2
ISO 11451-1
IEC/CISPR 12
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HSL Compliance
Active
(HSG 248) โ 2021
M003 based on HSG 248
(PCM) based on HSG 248
M002based on HSG 248
HSG 227 (2004))
+ 2 more
Hampshire Scientific Service
Active
(HSG 248) - 2021
ASB/SOP/OM8 based on HSG 248
ASB/SOP/OM6 based on HSG 248
DIN EN 12697-11
on BS 4401:Part 3:1970(1986)
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Hartford Steam Boiler UK
Active
BS 2790 - Specification for the design a
BS 1113 - Specification for the design a
BS EN 13480 Parts 1 to 8 - Metallic
EN 13445 โ Parts 1 to 10 Unfired pressur
BS EN ISO 15614 and ASME IX
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(HSG 264, 2012)
and Appx. 3 of HSG 227 (2004))
Executive guides HSG 264 (2012)
Heywood Williams Components
Active
DIN EN 1026
DIN EN 12046-2
BS 6375-1:2015 + A1:2016 and the
DIN EN 1027
DIN EN 1629
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Hi Gain
Active
MIL-STD-883G METHOD 3015.7
MIL-STD-883H METHOD 3015.8
MIL-STD-883J METHOD 3015.9
Horiba MIRA
Active
IEC 60068-2-14
IEC 60068-2-1
DIN EN 60068-2-14
IEC 60068-2-2
DIN EN IEC 60068-2-38
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