Evaluation of a UAV composite wing spar repair using an embedded optical fiber Rayleigh back-scattering distributed strain sensing

A. Bergman; U. Ben-Simon; A. Schwartzberg; N. Y. Shemesh; B. Glam; J. Burvin; I. Kressel; T. Yehoshua; M. Tur

Evaluation of a UAV composite wing spar repair using an embedded optical fiber Rayleigh back-scattering distributed strain sensing

A. Bergman
, U. Ben-Simon
, A. Schwartzberg
, N. Y. Shemesh
, B. Glam
, J. Burvin
, I. Kressel
, T. Yehoshua
, M. Tur

פרסום מחקרי: תוצר מחקר מכנס › הרצאה › ביקורת עמיתים

תקציר

A representing damaged UAV wing spar cap was repaired using bonded unidirectional composite materials. For such a repair concept, its strength and long-term durability depend on optimizing the geometry of the repair in order to minimize stress concentration in the adhesive. In order to assess the stress distribution along the repair bond-line, an optical fiber was embedded during the repair application for distributed Rayleigh back-scattering strain measurement. The fiber was placed inside the structure, therefore enabling taking strain measurements, at a high spatial resolution, under the wing skin directly on the spar repair. This type of sensing concept can also be used to monitor this critical repair over time. It also coincides with the recently introduced airworthiness requirements for UAVs, where the substantiation of structural bonded joint can be based on: "repeatable and reliable non-destructive inspection".

שפה מקורית	אנגלית
עמודים	398-401
מספר עמודים	4
סטטוס פרסום	פורסם - 2015
פורסם באופן חיצוני	כן
אירוע	34th Conference and the 28th Symposium of the International Committee on Aeronautical Fatigue and Structural Integrity, ICAF 2015 - Helsinki, פינלנד משך הזמן: 1 יוני 2015 → 5 יוני 2015

כנס

כנס	34th Conference and the 28th Symposium of the International Committee on Aeronautical Fatigue and Structural Integrity, ICAF 2015
מדינה/אזור	פינלנד
עיר	Helsinki
תקופה	1/06/15 → 5/06/15

קבצים וקישורים אחרים

Link to publication in Scopus

פורמט ציטוט ביבליוגרפי

Bergman, A., Ben-Simon, U., Schwartzberg, A., Shemesh, N. Y., Glam, B., Burvin, J., Kressel, I., Yehoshua, T., & Tur, M. (2015). Evaluation of a UAV composite wing spar repair using an embedded optical fiber Rayleigh back-scattering distributed strain sensing. 398-401. המאמר מוצג ב- 34th Conference and the 28th Symposium of the International Committee on Aeronautical Fatigue and Structural Integrity, ICAF 2015, Helsinki, פינלנד.

Bergman, A. ; Ben-Simon, U. ; Schwartzberg, A. et al. / Evaluation of a UAV composite wing spar repair using an embedded optical fiber Rayleigh back-scattering distributed strain sensing. המאמר מוצג ב- 34th Conference and the 28th Symposium of the International Committee on Aeronautical Fatigue and Structural Integrity, ICAF 2015, Helsinki, פינלנד.4 עמוד

@conference{8eab2bf4a7394a79a5a8e7a32f640378,

title = "Evaluation of a UAV composite wing spar repair using an embedded optical fiber Rayleigh back-scattering distributed strain sensing",

abstract = "A representing damaged UAV wing spar cap was repaired using bonded unidirectional composite materials. For such a repair concept, its strength and long-term durability depend on optimizing the geometry of the repair in order to minimize stress concentration in the adhesive. In order to assess the stress distribution along the repair bond-line, an optical fiber was embedded during the repair application for distributed Rayleigh back-scattering strain measurement. The fiber was placed inside the structure, therefore enabling taking strain measurements, at a high spatial resolution, under the wing skin directly on the spar repair. This type of sensing concept can also be used to monitor this critical repair over time. It also coincides with the recently introduced airworthiness requirements for UAVs, where the substantiation of structural bonded joint can be based on: {"}repeatable and reliable non-destructive inspection{"}.",

author = "A. Bergman and U. Ben-Simon and A. Schwartzberg and Shemesh, \{N. Y.\} and B. Glam and J. Burvin and I. Kressel and T. Yehoshua and M. Tur",

note = "Publisher Copyright: {\textcopyright} 28th ICAF Symposium, ICAF 2015. All rights reserved.; 34th Conference and the 28th Symposium of the International Committee on Aeronautical Fatigue and Structural Integrity, ICAF 2015 ; Conference date: 01-06-2015 Through 05-06-2015",

year = "2015",

language = "אנגלית",

pages = "398--401",

}

Bergman, A, Ben-Simon, U, Schwartzberg, A, Shemesh, NY, Glam, B, Burvin, J, Kressel, I, Yehoshua, T & Tur, M 2015, 'Evaluation of a UAV composite wing spar repair using an embedded optical fiber Rayleigh back-scattering distributed strain sensing', המאמר מוצג ב- 34th Conference and the 28th Symposium of the International Committee on Aeronautical Fatigue and Structural Integrity, ICAF 2015, Helsinki, פינלנד, 1/06/15 - 5/06/15 עמודים 398-401.

Evaluation of a UAV composite wing spar repair using an embedded optical fiber Rayleigh back-scattering distributed strain sensing. / Bergman, A.; Ben-Simon, U.; Schwartzberg, A. et al.
2015. 398-401 המאמר מוצג ב- 34th Conference and the 28th Symposium of the International Committee on Aeronautical Fatigue and Structural Integrity, ICAF 2015, Helsinki, פינלנד.

פרסום מחקרי: תוצר מחקר מכנס › הרצאה › ביקורת עמיתים

TY - CONF

T1 - Evaluation of a UAV composite wing spar repair using an embedded optical fiber Rayleigh back-scattering distributed strain sensing

AU - Bergman, A.

AU - Ben-Simon, U.

AU - Schwartzberg, A.

AU - Shemesh, N. Y.

AU - Glam, B.

AU - Burvin, J.

AU - Kressel, I.

AU - Yehoshua, T.

AU - Tur, M.

PY - 2015

Y1 - 2015

N2 - A representing damaged UAV wing spar cap was repaired using bonded unidirectional composite materials. For such a repair concept, its strength and long-term durability depend on optimizing the geometry of the repair in order to minimize stress concentration in the adhesive. In order to assess the stress distribution along the repair bond-line, an optical fiber was embedded during the repair application for distributed Rayleigh back-scattering strain measurement. The fiber was placed inside the structure, therefore enabling taking strain measurements, at a high spatial resolution, under the wing skin directly on the spar repair. This type of sensing concept can also be used to monitor this critical repair over time. It also coincides with the recently introduced airworthiness requirements for UAVs, where the substantiation of structural bonded joint can be based on: "repeatable and reliable non-destructive inspection".

AB - A representing damaged UAV wing spar cap was repaired using bonded unidirectional composite materials. For such a repair concept, its strength and long-term durability depend on optimizing the geometry of the repair in order to minimize stress concentration in the adhesive. In order to assess the stress distribution along the repair bond-line, an optical fiber was embedded during the repair application for distributed Rayleigh back-scattering strain measurement. The fiber was placed inside the structure, therefore enabling taking strain measurements, at a high spatial resolution, under the wing skin directly on the spar repair. This type of sensing concept can also be used to monitor this critical repair over time. It also coincides with the recently introduced airworthiness requirements for UAVs, where the substantiation of structural bonded joint can be based on: "repeatable and reliable non-destructive inspection".

UR - https://www.scopus.com/pages/publications/85065998621

M3 - ???researchoutput.researchoutputtypes.contributiontoconference.paper???

AN - SCOPUS:85065998621

SP - 398

EP - 401

T2 - 34th Conference and the 28th Symposium of the International Committee on Aeronautical Fatigue and Structural Integrity, ICAF 2015

Y2 - 1 June 2015 through 5 June 2015

ER -

Bergman A, Ben-Simon U, Schwartzberg A, Shemesh NY, Glam B, Burvin J et al.. Evaluation of a UAV composite wing spar repair using an embedded optical fiber Rayleigh back-scattering distributed strain sensing. 2015. המאמר מוצג ב- 34th Conference and the 28th Symposium of the International Committee on Aeronautical Fatigue and Structural Integrity, ICAF 2015, Helsinki, פינלנד.

Evaluation of a UAV composite wing spar repair using an embedded optical fiber Rayleigh back-scattering distributed strain sensing

תקציר

כנס

קבצים וקישורים אחרים

טביעת אצבע

פורמט ציטוט ביבליוגרפי