Evaluation of Simple Shear Test Geometries for Constitutive Characterization using Virtual Experiments

Narayanan, A.; Abedini, Armin; Weinschenk, A.; Worswick, M. J.; Butcher, Cliff

doi:10.1088/1757-899x/1157/1/012066

Cited by 3 publications

(3 citation statements)

References 3 publications

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“…Relatively speaking, the cost of the former is lower, and users can operate the system by downloading the system on the network. The latter requires not only a computer, but also a wearable device, which is costly for college teaching [3].…”

Section: Virtual Reality Technologymentioning

confidence: 99%

Discussion on the Application of Virtual Reality Technology in Pharmacy Vocational Education

Zhang¹

2023

Proceedings of the 2nd International Conference on Internet, Education and Information Technology (IEIT 2022)

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With the rapid development of virtual reality technology in recent years, the virtual images in the virtual reality system can deeply interact with users. Virtual reality technology is now entering colleges and universities and has become a tool for many experimental teaching. Virtual reality technology has played an important role in pharmacy vocational education. This paper analyzes the benefits brought by virtual reality technology to pharmacy vocational education, and designs a virtual experiment teaching system based on B/S mode. The teaching system in this paper allows students to use computer equipment to learn online and choose to operate various experiments, so as to improve the efficiency and quality of experimental teaching.

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Section: Virtual Reality Technologymentioning

confidence: 99%

Discussion on the Application of Virtual Reality Technology in Pharmacy Vocational Education

Zhang¹

2023

Proceedings of the 2nd International Conference on Internet, Education and Information Technology (IEIT 2022)

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“…Examples include the conical hole expansion and hole tension tests for uniaxial tension [6][7][8], the VDA238-100 v-bend and dihedral punch tests for plane strain tension [9,10], and miniature biaxial punch tests [11,12]. Fracture characterization in simple shear has been challenging due to its high fracture strains and propensity for premature edge cracking in tension [13]. Roth and Mohr [14] developed optimized shear test geometries to minimize the potential for edge cracking.…”

Section: Introductionmentioning

confidence: 99%

Experimental and Numerical Fracture Characterization of DP1180 Steel in Combined Simple Shear and Uniaxial Tension

Khameneh

Abedini

Butcher

2023

Metals

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Current tests for plane stress characterization of fracture in automotive sheet metals include simple shear, uniaxial, plane strain, and biaxial tension, but there is a significant gap between shear and uniaxial tension. Presently, it remains uncertain whether the fracture strain experiences a reduction between simple shear and uniaxial tension or undergoes an exponential increase as the triaxiality decreases. Fracture in combined simple shear and tension is complicated by premature edge cracking in tension along with a strong sensitivity of fracture strain to the measurement lengthscale. To address these issues, several existing simple shear geometries were modified and evaluated, with a focus on obtaining approximately linear strain paths corresponding to combined uniaxial tension and simple shear suitable for experimental fracture characterization using digital image correlation (DIC). An experimental and numerical investigation was conducted using two planar geometries that do not require through-thickness machining and can be easily tested on a universal test frame. Finite-element analysis was used to investigate the influence of the notch eccentricity on the stress state and predicted fracture location. The most promising geometry in each coupon type was then selected and tested for a dual-phase advanced high-strength steel, DP1180. The performance of the two planar geometries was evaluated based on the linearity of strain and stress state, along with the location of fracture initiation. The best geometry was then used to evaluate and recalibrate the modified Mohr-Coulomb (MMC) fracture locus with data in combined shear and tension. The initial MMC calibration using four fracture tests that suppressed necking provided an accurate estimate for the fracture strain in combined uniaxial tension and simple shear. The MMC model correctly predicted a valley in the fracture strain between these two loading conditions.

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“…Nevertheless, it is still a challenge to avoid failure initiation in the notch region and to provide shear failure. In literature exists a consensus to design the geometry of the shear zone dependent on the material behavior, especially the hardening behavior, to reduce previous notch failure and to evaluate reliable shear failure strains [6,10,11]. Shear specimen geometries for the characterization of fracture initiation has to be clearly distinguished to the characterization of yield initiation [12].…”

Section: Introductionmentioning

confidence: 99%

A uniform method for the characterization of shear fracture strain for high-strength steel sheets under quasi-static and crash loading

Klitschke,

Westhäuser,

Schneider

et al. 2023

IOP Conf. Ser.: Mater. Sci. Eng.

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In the conflict between lightweight design and crash safety of high-strength steel components failure models for crash simulation have to be calibrated precisely. To predict shear failure strains in a wide strain rate range shear experiments must be performed from quasi-static up to crash-relevant strain rates of about 100 s-1. In particular, asymmetric notched shear tensile specimens have proven useful for this purpose in previous investigations. Using this type of shear specimen, a characterization concept for shear loading in a wide strain rate range is presented for high strength steel sheets of different strength, ductility and sheet thickness in this contribution. Within a round robin test of different laboratories the influence of the degrees of freedom in the clamping area and the free clamping length on the kinematic of the specimens and on the deformation and failure behavior in the shear zone are investigated in detail. The main outcome is that the disadvantages of a fix clamping in terms of shear deformation, shear fracture and homogeneity of the shear zone can be compensated by a large free clamping length. An evaluation method based on digital image correlation (DIC) is presented, which enables an operator- and laboratory-independent determination of shear strains up to failure.

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Evaluation of Simple Shear Test Geometries for Constitutive Characterization using Virtual Experiments

Cited by 3 publications

References 3 publications

Discussion on the Application of Virtual Reality Technology in Pharmacy Vocational Education

Discussion on the Application of Virtual Reality Technology in Pharmacy Vocational Education

Experimental and Numerical Fracture Characterization of DP1180 Steel in Combined Simple Shear and Uniaxial Tension

A uniform method for the characterization of shear fracture strain for high-strength steel sheets under quasi-static and crash loading

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