Comparison of defect detection limits in Lorentz force eddy current testing and classical eddy current testing

Otterbach, Jan Marc; Schmidt, Reinhard; Brauer, Hartmut; Ziolkowski, Marek; Töpfer, Hannes

doi:10.5194/jsss-7-453-2018

Articles | Volume 7, issue 2

https://doi.org/10.5194/jsss-7-453-2018

© Author(s) 2018. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/jsss-7-453-2018

© Author(s) 2018. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 7, issue 2

Regular research article

|

27 Jul 2018

Regular research article |

| 27 Jul 2018

Comparison of defect detection limits in Lorentz force eddy current testing and classical eddy current testing

Jan Marc Otterbach, Reinhard Schmidt, Hartmut Brauer, Marek Ziolkowski, and Hannes Töpfer

Viewed

Total article views: 3,707 (including HTML, PDF, and XML)

HTML	PDF	XML	Total	BibTeX	EndNote
2,739	857	111	3,707	138	222

HTML: 2,739
PDF: 857
XML: 111
Total: 3,707
BibTeX: 138
EndNote: 222

Views and downloads (calculated since 27 Jul 2018)

Month	HTML	PDF	XML	Total
Jul 2018	42	17	2	61
Aug 2018	121	33	5	159
Sep 2018	97	27	4	128
Oct 2018	56	14	2	72
Nov 2018	14	12	0	26
Dec 2018	15	9	2	26
Jan 2019	18	10	2	30
Feb 2019	15	4	1	20
Mar 2019	16	8	0	24
Apr 2019	18	7	4	29
May 2019	18	14	1	33
Jun 2019	243	12	0	255
Jul 2019	233	9	0	242
Aug 2019	80	11	3	94
Sep 2019	102	13	0	115
Oct 2019	105	17	1	123
Nov 2019	164	11	0	175
Dec 2019	119	11	0	130
Jan 2020	32	6	0	38
Feb 2020	47	7	1	55
Mar 2020	33	7	0	40
Apr 2020	10	8	0	18
May 2020	7	6	1	14
Jun 2020	41	11	0	52
Jul 2020	52	8	4	64
Aug 2020	14	2	3	19
Sep 2020	11	7	0	18
Oct 2020	19	9	0	28
Nov 2020	9	7	0	16
Dec 2020	13	13	1	27
Jan 2021	25	6	0	31
Feb 2021	10	6	0	16
Mar 2021	8	4	0	12
Apr 2021	5	7	0	12
May 2021	10	8	0	18
Jun 2021	6	5	0	11
Jul 2021	7	8	0	15
Aug 2021	7	3	0	10
Sep 2021	13	9	0	22
Oct 2021	9	20	0	29
Nov 2021	10	13	0	23
Dec 2021	17	5	1	23
Jan 2022	16	10	0	26
Feb 2022	6	6	1	13
Mar 2022	11	6	0	17
Apr 2022	12	8	0	20
May 2022	22	9	4	35
Jun 2022	26	5	3	34
Jul 2022	13	3	1	17
Aug 2022	16	5	1	22
Sep 2022	10	3	0	13
Oct 2022	9	2	0	11
Nov 2022	22	7	1	30
Dec 2022	18	7	1	26
Jan 2023	9	8	0	17
Feb 2023	9	6	0	15
Mar 2023	17	8	1	26
Apr 2023	10	11	1	22
May 2023	12	12	2	26
Jun 2023	6	5	0	11
Jul 2023	3	1	0	4
Aug 2023	4	9	5	18
Sep 2023	18	8	2	28
Oct 2023	10	4	0	14
Nov 2023	3	0	3
Dec 2023	14	10	4	28
Jan 2024	3	3	0	6
Feb 2024	4	2	0	6
Mar 2024	5	3	1	9
Apr 2024	13	5	2	20
May 2024	10	6	2	18
Jun 2024	17	8	2	27
Jul 2024	17	7	1	25
Aug 2024	20	7	5	32
Sep 2024	15	6	1	22
Oct 2024	12	2	3	17
Nov 2024	7	4	0	11
Dec 2024	10	4	1	15
Jan 2025	13	5	0	18
Feb 2025	23	5	1	29
Mar 2025	8	8	1	17
Apr 2025	17	7	0	24
May 2025	23	8	1	32
Jun 2025	40	23	0	63
Jul 2025	18	9	0	27
Aug 2025	26	27	0	53
Sep 2025	21	7	4	32
Oct 2025	42	18	3	63
Nov 2025	49	27	3	79
Dec 2025	29	12	3	44
Jan 2026	44	15	5	64
Feb 2026	40	14	6	60
Mar 2026	18	35	0	53
Apr 2026	8	3	1	12

Cumulative views and downloads (calculated since 27 Jul 2018)

Month	HTML	PDF	XML	Total
Jul 2018	42	17	2	61
Aug 2018	121	33	5	159
Sep 2018	97	27	4	128
Oct 2018	56	14	2	72
Nov 2018	14	12	0	26
Dec 2018	15	9	2	26
Jan 2019	18	10	2	30
Feb 2019	15	4	1	20
Mar 2019	16	8	0	24
Apr 2019	18	7	4	29
May 2019	18	14	1	33
Jun 2019	243	12	0	255
Jul 2019	233	9	0	242
Aug 2019	80	11	3	94
Sep 2019	102	13	0	115
Oct 2019	105	17	1	123
Nov 2019	164	11	0	175
Dec 2019	119	11	0	130
Jan 2020	32	6	0	38
Feb 2020	47	7	1	55
Mar 2020	33	7	0	40
Apr 2020	10	8	0	18
May 2020	7	6	1	14
Jun 2020	41	11	0	52
Jul 2020	52	8	4	64
Aug 2020	14	2	3	19
Sep 2020	11	7	0	18
Oct 2020	19	9	0	28
Nov 2020	9	7	0	16
Dec 2020	13	13	1	27
Jan 2021	25	6	0	31
Feb 2021	10	6	0	16
Mar 2021	8	4	0	12
Apr 2021	5	7	0	12
May 2021	10	8	0	18
Jun 2021	6	5	0	11
Jul 2021	7	8	0	15
Aug 2021	7	3	0	10
Sep 2021	13	9	0	22
Oct 2021	9	20	0	29
Nov 2021	10	13	0	23
Dec 2021	17	5	1	23
Jan 2022	16	10	0	26
Feb 2022	6	6	1	13
Mar 2022	11	6	0	17
Apr 2022	12	8	0	20
May 2022	22	9	4	35
Jun 2022	26	5	3	34
Jul 2022	13	3	1	17
Aug 2022	16	5	1	22
Sep 2022	10	3	0	13
Oct 2022	9	2	0	11
Nov 2022	22	7	1	30
Dec 2022	18	7	1	26
Jan 2023	9	8	0	17
Feb 2023	9	6	0	15
Mar 2023	17	8	1	26
Apr 2023	10	11	1	22
May 2023	12	12	2	26
Jun 2023	6	5	0	11
Jul 2023	3	1	0	4
Aug 2023	4	9	5	18
Sep 2023	18	8	2	28
Oct 2023	10	4	0	14
Nov 2023	3	0	3
Dec 2023	14	10	4	28
Jan 2024	3	3	0	6
Feb 2024	4	2	0	6
Mar 2024	5	3	1	9
Apr 2024	13	5	2	20
May 2024	10	6	2	18
Jun 2024	17	8	2	27
Jul 2024	17	7	1	25
Aug 2024	20	7	5	32
Sep 2024	15	6	1	22
Oct 2024	12	2	3	17
Nov 2024	7	4	0	11
Dec 2024	10	4	1	15
Jan 2025	13	5	0	18
Feb 2025	23	5	1	29
Mar 2025	8	8	1	17
Apr 2025	17	7	0	24
May 2025	23	8	1	32
Jun 2025	40	23	0	63
Jul 2025	18	9	0	27
Aug 2025	26	27	0	53
Sep 2025	21	7	4	32
Oct 2025	42	18	3	63
Nov 2025	49	27	3	79
Dec 2025	29	12	3	44
Jan 2026	44	15	5	64
Feb 2026	40	14	6	60
Mar 2026	18	35	0	53
Apr 2026	8	3	1	12

Viewed (geographical distribution)

Total article views: 3,266 (including HTML, PDF, and XML) Thereof 3,231 with geography defined and 35 with unknown origin.

Country	#	Views	%

1

1

Cited

Latest update: 25 Apr 2026

Short summary

Lorentz force eddy current testing (LET) is a motion-induced eddy current testing method in the framework of nondestructive testing. In this study, we address the question of how this method is classified in comparison with a commercial eddy current testing (ECT) device. Therefore, measurements using both methods are performed and evaluated. Based on the measurement results, the corresponding defect detection limits are determined and discussed.


Total:	0
HTML:	0
PDF:	0
XML:	0

Comparison of defect detection limits in Lorentz force eddy current testing and classical eddy current testing

Viewed

Viewed (geographical distribution)

Cited

5 citations as recorded by crossref.