Scope
ISO 10816-1
Machine Vibration Evaluation on Non-Rotating Parts
ISO 10816-1 provides general principles and procedures for measuring vibration on non-rotating parts of machines to assess mechanical condition and reliability. This foundational standard establishes measurement methodology, instrumentation requirements, and evaluation zones applicable across diverse machine types. Manufacturers, service providers, and plant operators use this test to monitor equipment health and prevent unexpected failures. Accreditation ensures consistent, comparable vibration measurements that support predictive maintenance strategies and machine acceptance criteria.
What it measures
- Vibration velocity in mm/s (RMS and peak)
- Frequency range (typically 10โ1000 Hz)
- Vibration magnitude in vertical, horizontal directions
- Machine operating condition classification
- Alarm and alert threshold zones
๐ฉ๐ช
DIN EN ISO 10816-3
๐ฌ๐ง
BS EN ISO 10816-3
๐ซ๐ท
NF EN ISO 10816-3
๐ฎ๐น
UNI EN ISO 10816-3
๐ช๐ธ
UNE EN ISO 10816-3
๐ณ๐ฑ
NEN EN ISO 10816-3
๐ฉ๐ช
DIN EN ISO 13373-1
๐ฌ๐ง
BS EN ISO 13373-1
๐ซ๐ท
NF EN ISO 13373-1
๐ฎ๐น
UNI EN ISO 13373-1
๐ช๐ธ
UNE EN ISO 13373-1
๐ณ๐ฑ
NEN EN ISO 13373-1
1,817
Accredited labs
19
Countries
Showing 301โ325 of 386 labs
SGS United Kingdom
Active
BS EN 286 - Simple unfired pressure
BS EN 13445 Unfired pressure
BS EN13480 Metallic industrial
BS EN 12953 Shell boilers
BS EN BS EN 12952 Water-tube
+ 3 more
SOCOTEC Asbestos
Active
(HSG 248) โ 2021
SCI/ASB/003 based on HSG 248
(PCM) based on HSG 248
SCI/ASB/001 based on HSG 248
SOCOTEC UK
Active
DIN EN 13284-1
ENV/054 based on BS EN
ISO 11731
DIN EN 14791
IEC 60519-11
+ 3 more
Safe Gas Cylinders
Active
BS EN 1440:2016 + A1:2018 +
EN ISO 23088:2020
Cylinders EN ISO 10460:2018
EN 14208:2004
Safety Advice Centre
Active
M002based on HSG 248
(HSG 248) โ 2021
(PCM) based on HSG 248
Scientific Services
Active
(HSG 248) โ 2021
D3TA2 based on HSG 248
(PCM) based on HSG 248
D3TA8 based on HSG 248
Scopus Asbestos Compliance
Active
(HSG 248) โ 2021
SAC-SOP-15 based on HSG 248
SAC-SOP-07 based on HSG 248
staining based on HSG 248
Seaward Electronic
Active
DC CURRENT
DC Resistance
DC VOLTAGE
DC RESISTANCE (continued)
Generation (continued)
+ 3 more
SembCorp Utilities (UK)
Active
(HSG 248) โ 2021
DI/AN/ME/025 based on HSG 248
DI/AN/ME/001 based on HSG 248
DI/AN/ME/026 based on HSG 248
(PCM) based on HSG 248
ServiceCal
Active
PRESSURE (contโd)
DC CURRENT
DC VOLTAGE
CFH-Gen, Macula-Degeneration
Measurement
+ 3 more
LENGTH
Plain plug gauges (parallel)
Internal
Caliper
LENGTH (contโd)
+ 3 more
Shirley Technologies
Active
ASTM E 2149-20
BS EN ISO 20743:2021 Section
ISO 14119
BS EN ISO 20645:2004
BS 1425-1:1991 Appendix A
+ 3 more
Siemens
Active
IEC 61000-4-6: 2013
IEC 61000-4-29: 2000
IEC 61000-4-11: 2004
IEC 61000-4-4: 2012
AS/NZS CISPR 11:2004
+ 3 more
Sigma-HSE (UK)
Active
DIN EN 13821
Sigma-HSE (UK) Ltd
DIN EN 14034-1
BS EN ISO/IEC 80079-20-2:2016
DIN EN 14034-2
+ 3 more
Smithers MSE
Active
BS ISO 5636-3:2013
BS ISO 5636-5:2013
BS ISO 2470-1:2016
BS ISO 2470-2:2008
ISO 2759
+ 3 more
Somerset Council
Active
(HSG 248) โ 2021
R24 based on HSG 248
staining based on HSG 248
ELECTRICAL CALIBRATION
DC RESISTANCE (continued)
DC Resistance
AC VOLTAGE (continued)
AC CURRENT
+ 3 more
based on BS EN ISO 6579-1:
ISO 21528-2
ISO 21149:2017+Amd1:2022
DIN EN ISO 18415
method based on BS ISO 16649-2:
+ 3 more
Speciality Steel UK
Active
ISO 3651-2
ASTM E 384-22
ASTM E10-23
ISO 6506-1
ASTM A262-15(2021) Practice E
+ 3 more
Spectra Analysis Services
Active
QOP01 based on HSG 248
(HSG 248) โ 2021
(PCM) based on HSG 248
(HSG 264, 2012)
Appendix 5 of HSG 227 (2004))
No matching labs found.