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Tensile Behavior and Formability Evaluation of Titanium-40 Material Based on the Forming Limit Diagram Approach

Chamos, Apostolos N. ; Labeas, George N. ; Setsika, Dorothea

Springer Science and Business Media LLC ; 2013

In: Journal of Materials Engineering and Performance Vol. 22, No. 8 ( 2013-8), p. 2253-2260

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In: Journal of Materials Engineering and Performance, Springer Science and Business Media LLC, Vol. 22, No. 8 ( 2013-8), p. 2253-2260

Type of Medium: Online Resource

ISSN: 1059-9495 , 1544-1024

URL: Article

DOI: 10.1007/s11665-013-0495-1

Language: English

Publisher: Springer Science and Business Media LLC

Publication Date: 2013

detail.hit.zdb_id: 2048384-3

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Corrosion damage evolution of the aircraft aluminum alloy 2024 T3

Pantelakis, Spiros ; Setsika, Dorothea ; Chamos, Apostolos ; [et al.]

Emerald ; 2016

In: International Journal of Structural Integrity Vol. 7, No. 1 ( 2016-2-1), p. 25-46

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In: International Journal of Structural Integrity, Emerald, Vol. 7, No. 1 ( 2016-2-1), p. 25-46

Abstract: – The purpose of this paper is to quantify the corrosion damage evolution that has occurred on the aircraft aluminum alloy 2024 after the exposure to Exfoliation Corrosion Test (EXCO) solution. Moreover, the effect of the evolving corrosion damage on the materials mechanical properties has been assessed. The relevance of the corrosion damage induced by the exposure to the laboratory EXCO for linking it to the damage developed after the exposure of the material on several outdoor corrosive environments or in service is discussed. Design/methodology/approach – To induce corrosion damage the EXCO has been used. For the quantification of corrosion damage the metallographic features considered have been pit depth, diameter, pitting density and pit shape. The effect of the evolving corrosion damage on the materials mechanical properties has been assessed by means of tensile tests on pre corroded specimens. Findings – The results have shown that corrosion damage starts from pitting and evolves to exfoliation, after the development of intergranular corrosion. This evolution is expressed by the increase of the depth of attack, as well as through the significant growth of the diameter of the damaged areas. The results of the tensile tests performed on pre corroded material made an appreciable decrease of the materials tensile properties evident. The decrease of the tensile ductility may become dramatic and increases on severity with increasing corrosion exposure time. SEM fractography revealed a quasi-cleavage zone beneath the depth of corrosion attack. Originality/value – The results underline the impact of corrosion damage on the mechanical behavior of the aluminum alloy 2024 T3 and demonstrate the need for further investigation of the corrosion effect on the structural integrity of the material. This work provides an experimental database concerning the quantification of corrosion damage evolution and the loss of material properties due to corrosion.

Type of Medium: Online Resource

ISSN: 1757-9864

URL: Article

DOI: 10.1108/IJSI-03-2014-0010

Language: English

Publisher: Emerald

Publication Date: 2016

detail.hit.zdb_id: 2554257-6

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Numerical simulation of tensile behavior of corroded aluminum alloy 2024 T3

Setsika, Dorothea ; George Sih and Professor Konstantinos Tserpes, Professor ; Tserpes, Konstantinos ; [et al.]

Emerald ; 2015

In: International Journal of Structural Integrity Vol. 6, No. 4 ( 2015-8-10), p. 451-467

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In: International Journal of Structural Integrity, Emerald, Vol. 6, No. 4 ( 2015-8-10), p. 451-467

Abstract: – The purpose of this paper is to develop a multi-scale modeling approach for simulating the tensile behavior of corroded aluminum alloy 2024 T3. Design/methodology/approach – The approach combines two FE models: a model of a three-dimensional representative unit cell representing a pit and a model of the tensile specimen. The models lie at the micro- and macro-scales, respectively. The local homogenized mechanical behavior of the corroded material is simulated for different pit configurations. Then, the behavior of the pits is introduced into different areas (elements) of the tensile specimen and final analyses are performed to simulate the mechanical behavior of the corroded material. The approach has been applied to six different exposure periods of the exfoliation corrosion test. Findings – The numerical results show that the presence of pits and exfoliated areas reduces the yield strength of the material. The comparison of predicted elongation to fracture with the experimental of each exposure period value allows for the indirect assessment of the effect of hydrogen embrittlement. Originality/value – Since the characteristics of corrosion damage evolution with exposure time are constant for the specific material, the model could be applied for the simulation of the mechanical behavior of any corroded structural part (e.g. a mechanically fastened panel) made from the aluminum 2024 T3 alloy.

Type of Medium: Online Resource

ISSN: 1757-9864

URL: Article

DOI: 10.1108/IJSI-10-2014-0050

Language: English

Publisher: Emerald

Publication Date: 2015

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