Identification the interface fracture parameter by inverse analysis: Application of Kalman-filter technology

Bin Liu; Zhou Li He; Min Ge Duan; Fei Xu

doi:10.1142/9789814324052_0010

Identification the interface fracture parameter by inverse analysis: Application of Kalman-filter technology

Bin Liu, Zhou Li He, Min Ge Duan, Fei Xu

School of Aeronautics

Northwestern Polytechnical University Xian

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

In this paper, Kalman filter technology which originally came from the field of signal control is introduced as an inverse analysis to identify some important material parameters. By performing detailed FEM simulation and using the experimental data of the force and displacement curve of the fiber pull-out test, the Kalman filter recursive process is successfully carried out to identify the values of the shear strength τ and the fracture energy G for the SiC (SCS-6) / Ti material interface. The great advantage of this inverse technology is that the influence of experimental noise can be taken into account. The calculation results show that the rate of convergence to the correct solution depends on the number and the initial estimation of unknown parameters to be identified and the accuracy of the measured data. Our analysis demonstrates that the proposed approach is suitable and capable in the identification of material parameters of the composite interface.

Original language	English
Title of host publication	Engineering Plasticity and Its Applications - Proceedings of the 10th Asia-Pacific Conference, AEPA 2010
Publisher	World Scientific Publishing Co. Pte Ltd
Pages	50-55
Number of pages	6
ISBN (Print)	9814324043, 9789814324045
DOIs	https://doi.org/10.1142/9789814324052_0010
State	Published - 2011
Event	10th Asia-Pacific Conference on Engineering Plasticity and Its Applications, AEPA 2010 - Wuhan, China Duration: 15 Nov 2010 → 17 Nov 2010

Publication series

Name	aEngineering Plasticity and Its Applications - Proceedings of the 10th Asia-Pacific Conference, AEPA 2010

Conference

Conference	10th Asia-Pacific Conference on Engineering Plasticity and Its Applications, AEPA 2010
Country/Territory	China
City	Wuhan
Period	15/11/10 → 17/11/10

Keywords

Fracture energy
Inverse analysis
Kalman filter
Material interface
Shear strength

Access to Document

10.1142/9789814324052_0010

Cite this

Liu, B., He, Z. L., Duan, M. G., & Xu, F. (2011). Identification the interface fracture parameter by inverse analysis: Application of Kalman-filter technology. In Engineering Plasticity and Its Applications - Proceedings of the 10th Asia-Pacific Conference, AEPA 2010 (pp. 50-55). (aEngineering Plasticity and Its Applications - Proceedings of the 10th Asia-Pacific Conference, AEPA 2010). World Scientific Publishing Co. Pte Ltd. https://doi.org/10.1142/9789814324052_0010

Liu, Bin ; He, Zhou Li ; Duan, Min Ge et al. / Identification the interface fracture parameter by inverse analysis : Application of Kalman-filter technology. Engineering Plasticity and Its Applications - Proceedings of the 10th Asia-Pacific Conference, AEPA 2010. World Scientific Publishing Co. Pte Ltd, 2011. pp. 50-55 (aEngineering Plasticity and Its Applications - Proceedings of the 10th Asia-Pacific Conference, AEPA 2010).

@inproceedings{461fc818fca24961bac9268e8100ba38,

title = "Identification the interface fracture parameter by inverse analysis: Application of Kalman-filter technology",

abstract = "In this paper, Kalman filter technology which originally came from the field of signal control is introduced as an inverse analysis to identify some important material parameters. By performing detailed FEM simulation and using the experimental data of the force and displacement curve of the fiber pull-out test, the Kalman filter recursive process is successfully carried out to identify the values of the shear strength τ and the fracture energy G for the SiC (SCS-6) / Ti material interface. The great advantage of this inverse technology is that the influence of experimental noise can be taken into account. The calculation results show that the rate of convergence to the correct solution depends on the number and the initial estimation of unknown parameters to be identified and the accuracy of the measured data. Our analysis demonstrates that the proposed approach is suitable and capable in the identification of material parameters of the composite interface.",

keywords = "Fracture energy, Inverse analysis, Kalman filter, Material interface, Shear strength",

author = "Bin Liu and He, {Zhou Li} and Duan, {Min Ge} and Fei Xu",

year = "2011",

doi = "10.1142/9789814324052_0010",

language = "英语",

isbn = "9814324043",

series = "aEngineering Plasticity and Its Applications - Proceedings of the 10th Asia-Pacific Conference, AEPA 2010",

publisher = "World Scientific Publishing Co. Pte Ltd",

pages = "50--55",

booktitle = "Engineering Plasticity and Its Applications - Proceedings of the 10th Asia-Pacific Conference, AEPA 2010",

note = "10th Asia-Pacific Conference on Engineering Plasticity and Its Applications, AEPA 2010 ; Conference date: 15-11-2010 Through 17-11-2010",

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Liu, B, He, ZL, Duan, MG & Xu, F 2011, Identification the interface fracture parameter by inverse analysis: Application of Kalman-filter technology. in Engineering Plasticity and Its Applications - Proceedings of the 10th Asia-Pacific Conference, AEPA 2010. aEngineering Plasticity and Its Applications - Proceedings of the 10th Asia-Pacific Conference, AEPA 2010, World Scientific Publishing Co. Pte Ltd, pp. 50-55, 10th Asia-Pacific Conference on Engineering Plasticity and Its Applications, AEPA 2010, Wuhan, China, 15/11/10. https://doi.org/10.1142/9789814324052_0010

Identification the interface fracture parameter by inverse analysis: Application of Kalman-filter technology. / Liu, Bin; He, Zhou Li; Duan, Min Ge et al.
Engineering Plasticity and Its Applications - Proceedings of the 10th Asia-Pacific Conference, AEPA 2010. World Scientific Publishing Co. Pte Ltd, 2011. p. 50-55 (aEngineering Plasticity and Its Applications - Proceedings of the 10th Asia-Pacific Conference, AEPA 2010).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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T1 - Identification the interface fracture parameter by inverse analysis

T2 - 10th Asia-Pacific Conference on Engineering Plasticity and Its Applications, AEPA 2010

AU - Liu, Bin

AU - He, Zhou Li

AU - Duan, Min Ge

AU - Xu, Fei

PY - 2011

Y1 - 2011

N2 - In this paper, Kalman filter technology which originally came from the field of signal control is introduced as an inverse analysis to identify some important material parameters. By performing detailed FEM simulation and using the experimental data of the force and displacement curve of the fiber pull-out test, the Kalman filter recursive process is successfully carried out to identify the values of the shear strength τ and the fracture energy G for the SiC (SCS-6) / Ti material interface. The great advantage of this inverse technology is that the influence of experimental noise can be taken into account. The calculation results show that the rate of convergence to the correct solution depends on the number and the initial estimation of unknown parameters to be identified and the accuracy of the measured data. Our analysis demonstrates that the proposed approach is suitable and capable in the identification of material parameters of the composite interface.

AB - In this paper, Kalman filter technology which originally came from the field of signal control is introduced as an inverse analysis to identify some important material parameters. By performing detailed FEM simulation and using the experimental data of the force and displacement curve of the fiber pull-out test, the Kalman filter recursive process is successfully carried out to identify the values of the shear strength τ and the fracture energy G for the SiC (SCS-6) / Ti material interface. The great advantage of this inverse technology is that the influence of experimental noise can be taken into account. The calculation results show that the rate of convergence to the correct solution depends on the number and the initial estimation of unknown parameters to be identified and the accuracy of the measured data. Our analysis demonstrates that the proposed approach is suitable and capable in the identification of material parameters of the composite interface.

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KW - Shear strength

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Liu B, He ZL, Duan MG, Xu F. Identification the interface fracture parameter by inverse analysis: Application of Kalman-filter technology. In Engineering Plasticity and Its Applications - Proceedings of the 10th Asia-Pacific Conference, AEPA 2010. World Scientific Publishing Co. Pte Ltd. 2011. p. 50-55. (aEngineering Plasticity and Its Applications - Proceedings of the 10th Asia-Pacific Conference, AEPA 2010). doi: 10.1142/9789814324052_0010

Identification the interface fracture parameter by inverse analysis: Application of Kalman-filter technology

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