A modified Arcan test to analyze the behavior of composites and their assemblies under out-of-plane loadings

Cognard, Jean‐Yves; Sohier, Laurent; Davies, Peter

doi:10.1016/j.compositesa.2010.10.012

Cited by 59 publications

(31 citation statements)

References 35 publications

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“…One of the most important problems is the specimen-fixture connection which causes bending or unwanted third mode loading conditions ( Figure 1). This problem had been mentioned by Hosseini et al (2008), Cognard et al (2011. In this research, in order to obtain reliable results of fracture parameters, correction factors of new designed fixture and modified Arcan fixture were determined using three-dimensional finite element analysis.…”

mentioning

confidence: 99%

3D Characterization of Mixed-Mode Fracture Toughness of Materials Using a New Loading Device

Oskui

Choupani

Shameli

2016

Lat. Am. j. solids struct.

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In this paper, a new loading device was employed to conduct a mixed-mode fracture test. Therefore, disadvantages detected in the previous mixed-mode fracture toughness test methods can be avoided. The new fixture has perfect symmetry which provides a uniform stress state, creates the pure plane strain conditions and eliminates the unwanted mode-III loading conditions. The values of non-dimensional stress intensity factors for pure mode-I, pure mode-II, and pure mode-III were obtained using 3D models of new loading device and modified Arcan method in order to compare the results and investigate the variation of fracture parameters. Furthermore, the values of correction factors for pure mode-III in various loading angles were studied for both fixtures and it was resulted that in modified Arcan device there was a larger contribution of unwanted third mode loading conditions and therefore the values of mode-I and mode-II non-dimensional stress intensity factors were affected. In the present study, in order to compare the results, the fracture toughness values of ABS (Acrylonitrile butadiene styrene) polymeric material were determined experimentally for both fixtures and a full range of mixed-mode loading conditions including pure mode-I and pure mode-II loading were created and tested. The differences in critical stress intensity factors of the fixtures were found about 7.00% and 42.65% in mode-I and mode-II loading conditions, respectively. ness for three modes of loading (I, II and III) and also under mixed-mode loading conditions. Some of these methods include: the double cantilever beam (DCB) and the end notched flexure (ENF) specimens have been employed for mode-I and mode II tests, respectively (Davidson et al. 2012, Shokrieh and Heidari 2011, Zacharopoulos 2004. A crack rail shear (CRS) specimen has been proposed to determine the mode-III (tearing) critical strain energy release rate by Becht and Jr (1988). The mixed-mode bending (MMB) test has been proposed by combining the schemes used for DCB and ENF tests, which can produce a wide range of the ratios of mode-I and mode-II components by varying the lever arm of the specimen. A modified MMB test method was used for evaluation of the interlaminar fracture toughness of AS4/PEEK composite material by Reeder (1990), Reeder and Crews (1990). Furthermore, MMB test method was recently used for investigation of crack propagation in adhesively bonded joints by Ben Salem et al. (2014). Researchers like Verma et al. (1995) and Dharmawan et al. (2006) evaluated the fracture toughness of composite materials by using DCB, ENF and MMB specimens. However, for all these test methods there are problems in that a wide range of mixed-mode ratios cannot be tested which limits their usefulness (Reeder and Crews 1990). But in order to obtain reliable results for interlaminar fracture toughness for pure mode-I, pure mode-II, and mixed-mode loading conditions, different beam type specimens would be required. It is therefore necessary to develop other test methods to eval...

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confidence: 99%

3D Characterization of Mixed-Mode Fracture Toughness of Materials Using a New Loading Device

Oskui

Choupani

Shameli

2016

Lat. Am. j. solids struct.

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“…Consequently, both the specimen geometry and the set fixation must be optimized in order to reduce these stress concentration. The current specimen geometry used in this study has been proposed by Cognard et al [17] and avoids the stress concentration in order to obtain reliable results (thanks to the grooves machined in the specimen see Fig. 1(c)).…”

Section: Materials and Experimental Setupmentioning

confidence: 99%

“…It is based on the use of specimen manufactured from thin composite plates bonded to metallic substrates. It has already been shown that this method allows us to obtain reliable results [17]. In these previous works, the results were presented in terms of macroscopic failure envelope of the laminates.…”

Section: Introductionmentioning

confidence: 98%

Determination of the 3D failure envelope of a composite based on a modified Arcan test device

Alfonso

Uguen

Bădulescu

et al. 2015

Composite Structures

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“…Different modes are obtained with different loading angles, using a tensile testing machine. Along the years, many researchers have used Arcan's original or modified specimen [63,5,65,55,28,32]. Driemeier et al [31] proposed a modified Arcan specimen that can be tested at high or low triaxialities, depending the direction the specimen is loaded.…”

Section: Accepted Manuscriptmentioning

confidence: 99%

A bifailure specimen for accessing failure criteria performance

Driemeier

Moura

Machado

et al. 2015

International Journal of Plasticity

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A modified Arcan test to analyze the behavior of composites and their assemblies under out-of-plane loadings

Cited by 59 publications

References 35 publications

3D Characterization of Mixed-Mode Fracture Toughness of Materials Using a New Loading Device

3D Characterization of Mixed-Mode Fracture Toughness of Materials Using a New Loading Device

Determination of the 3D failure envelope of a composite based on a modified Arcan test device

A bifailure specimen for accessing failure criteria performance

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