Tabel Ruang Lingkup Kalibrasi
| Parameter/ Equipment |
Range |
Best Uncertainty (±) *see footnote 1 |
Methods/ Specifications |
Reference Standards |
| Laboratory |
On Site |
| Force (Gaya) |
| Push – Pull Gauge |
5 |
kgf |
~ |
50 |
kgf |
0.3 |
kgf |
See footnote 2 |
ASTM E74 – 06 |
Weight Set M1 class |
| Hardness (Kekerasan) |
| Rockwell |
0 |
HRB |
~ |
100 |
HRB |
0.27 |
HRB |
See footnote 2
|
JIS B 7726 : 1997
|
Test Block
|
| 0 |
HRC |
~ |
100 |
HRC |
0.26 |
HRC |
See footnote 2
|
JIS B 7726 : 1997
|
Test Block
|
Rockwell Superficial
|
0 |
HR3OT |
~ |
100 |
HR3OT |
0.27 |
HR3OT |
See footnote 2
|
JIS B 7726 : 1997
|
Test Block
|
| 0 |
HR3ON |
~ |
100 |
HR3ON |
0.24 |
HR3ON |
See footnote 2
|
JIS B 7726 : 1997
|
Test Block
|
| Torque (Torsi) |
| Torque Wrench |
5 |
lbf.in |
~ |
50 |
lbf.in |
1.4 |
lbf.in |
On-site calibration service is not available for this parameter. |
JIS B 4650 : 2002 |
Torque Calibrator Versatest 600 |
| 50 |
lbf.in |
~ |
400 |
lbf.in |
1.7 |
lbf.in |
| 400 |
lbf.in |
~ |
1000 |
lbf.in |
4.0 |
lbf.in |
| 25 |
lbf.ft |
~ |
250 |
lbf.ft |
1.5 |
lbf.ft |
| 250 |
lbf.ft |
~ |
600 |
lbf.ft |
2.1 |
lbf.ft |
| Dimension (Panjang) |
Profile Projector
|
0 |
mm |
~ |
300 |
mm |
1.6 |
μm |
See footnote 2 |
JIS B 7184 : 1999
|
Standard Scale
|
| Toolmaker Microscope |
0 |
mm |
~ |
200 |
mm |
1.6 |
μm |
See footnote 2 |
JIS B 7153 : 1995 |
Standard Scale |
Depth Gauge
|
0 |
mm |
~ |
150 |
mm |
17 |
μm |
See footnote 2 |
JIS B 7518 : 1993 |
Depth Microchecker
|
Thickness Gauge
|
0 |
mm |
~ |
10 |
mm |
6 |
μm |
See footnote 2 |
JIS B 7502 : 1994 |
Gauge Block Steel
|
| Caliper |
0 |
mm |
~ |
300 |
mm |
17 |
µm |
See footnote 2 |
JIS B 7507 : 1993 |
Gauge block steel |
| 300 |
mm |
~ |
600 |
mm |
28 |
µm |
See footnote 2 |
| Outside Micrometer |
0 |
mm |
~ |
25 |
mm |
1 |
µm |
See footnote 2 |
JIS B 7502 : 1994 |
Gauge block steel |
| 25 |
mm |
~ |
100 |
mm |
2.4 |
µm |
See footnote 2 |
| 100 |
mm |
~ |
200 |
mm |
3.3 |
µm |
See footnote 2 |
| 200 |
mm |
~ |
225 |
mm |
4.3 |
µm |
See footnote 2 |
| Depth Micrometer |
0 |
mm |
~ |
150 |
mm |
2.4 |
µm |
See footnote 2 |
JIS B 7544:1994 |
Depth microchecker |
| Height Gauge |
0 |
mm |
~ |
300 |
mm |
18 |
µm |
See footnote 2 |
JIS B 7517 1993 |
height master ( 0 - 300 mm) |
| 300 |
mm |
~ |
600 |
mm |
17 |
µm |
See footnote 2 |
caliper checker (0 - 600 mm) |
| Dial Test Indicator |
0 |
mm |
~ |
0.1 |
mm |
0.61 |
µm |
See footnote 2 |
JIS B 7533 1990 |
Calibration tester |
| 0 |
mm |
~ |
0.8 |
mm |
2.4 |
µm |
See footnote 2 |
| Dial Indicator |
0 |
mm |
~ |
1 |
mm |
0.6 |
µm |
See footnote 2 |
JIS B 7503:1997 |
Calibration tester |
| 0 |
mm |
~ |
5 |
mm |
1 |
µm |
See footnote 2 |
| 0 |
mm |
~ |
10 |
mm |
3.1 |
µm |
See footnote 2 |
| 0 |
mm |
~ |
20 |
mm |
4.3 |
µm |
See footnote 2 |
| 0 |
mm |
~ |
25 |
mm |
5.7 |
µm |
See footnote 2 |
| 0 |
mm |
~ |
100 |
mm |
5.7 |
µm |
See footnote 2 |
| Bore Gauge |
0 |
mm |
~ |
25 |
mm |
2.6 |
µm |
See footnote 2 |
JIS B 7515:1982 |
Calibration tester + Stand |
| Plug/ Pin Gauge |
0 |
mm |
~ |
200 |
mm |
1.7 |
µm |
On-site calibration service is not available for this parameter. |
JIS B 7420:1997 |
ULM (universal length measuring) |
| Ring Gauge |
1 |
mm |
~ |
480 |
mm |
1.2 |
µm |
JIS B 7420:1997 |
ULM (universal length measuring) |
| Thread Plug Gauge |
M |
1 |
~ |
M |
200 |
2.9 |
µm |
JIS B 0255: 1998 |
ULM (universal length measuring) |
| Thread Ring Gauge |
M |
14 |
~ |
M |
90 |
5.7 |
µm |
JIS B 0255: 1998 |
ULM (universal length measuring) |
Footnote:
1.“Best Uncertainty” is the smallest uncertainty of measurement that a laboratory can achieve within its scope of accreditation when performing more or less routine calibrations of nearly ideal measurement standards of nearly ideal measuring equipment. Best uncertainties represent expanded uncertainties expressed at approximately the 95% level of confidence, usually using a coverage factor of k = 2. The best uncertainty of a specific calibration performed by the laboratory may be greater than the best uncertainty due to the behavior of the customer’s device and to influences from the circumstances of the specific calibration.
2. The best uncertainty stated for calibrations performed in the laboratory is applicable for calibrations performed on-site.
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