Ryan Jordan scite author profile

The strength of brittle ceramic materials is typically tested using simple uniaxial compression or by three-or four-point bending techniques. While these methods provide reliable results, they do not depict a realistic characterisation of the load-bearing capacity of structural materials, and a method that involves the application of multiaxial stress is required, such as the ring-on-ring biaxial flexural strength test. In this paper, an in-house ring-on-ring fixture was developed and validated by comparing the experimental and simulated biaxial strength tests of a model ZrB 2 -30wt-%SiB 6 ceramic composite. A description of the simulated finite element analysis is provided, and the stress field acting on the sample with maximum principal stress located at the surface under tension at the centre of the ceramic disk is shown.

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Net-Shape Manufacture of Low-Cost Ceramic Shapes by Freeze-Gelation

Statham

Hammett

Harris

et al.

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Ryan Jordan

Non-congruence of high-temperature mechanical and structural behaviors of LaCoO3 based perovskites

Design and development of ring-on-ring jig for biaxial strength testing of brittle ceramic composite materials: ZrB₂-30wt-%SiB₆

Net-Shape Manufacture of Low-Cost Ceramic Shapes by Freeze-Gelation

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Ryan Jordan

Non-congruence of high-temperature mechanical and structural behaviors of LaCoO3 based perovskites

Design and development of ring-on-ring jig for biaxial strength testing of brittle ceramic composite materials: ZrB2-30wt-%SiB6

Net-Shape Manufacture of Low-Cost Ceramic Shapes by Freeze-Gelation

Contact Info

Product

Resources

About

Design and development of ring-on-ring jig for biaxial strength testing of brittle ceramic composite materials: ZrB₂-30wt-%SiB₆