High Temperature Mechanical Behavior of Porous Cordierite-based Ceramic Materials Evaluated Using 3-point Bending

Gass, Sebastián; Sandoval, María Laura; Talou, Mariano H.; Martínez, A.G. Tomba; Camerucci, M.A.; Gregorová, Eva; Pabst, Willi

doi:10.1016/j.mspro.2015.04.032

Cited by 8 publications

(4 citation statements)

References 12 publications

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“…Gass et al [ 45 ] used starches (potato or corn) in accordance with (i) kaolinite rich-clay, talc and alumina or (ii) a commercial powder consisting of kaolinite, halloysite, talc, alumina and quartz in order to produce porous cordierite-based materials. The results show that after consolidation and sintering of samples, materials with halloysite exhibited higher mechanical strength compared to those with kaolinite.…”

Section: Summarizing Papers and Discussionmentioning

confidence: 99%

Halloysite in Different Ceramic Products: A Review

Lampropoulou

Papoulis

2021

Materials

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The increased demands of our rapidly developing way of life lead to the broadening of the ceramic market among other effects. Due to the advanced ceramic properties of halloysite and its abundance, combined with its good synergistic effect with other materials, it has been investigated for multifarious possible applications to produce traditional and advanced ceramics as well as ceramic composites. In this review, a substantial number of studies by several investigators into halloysite-based ceramics were are summarized. The possibilities and limitations of different halloysite-based ceramic materials for future applications are also discussed in this manuscript and new fields of research are proposed. The summarization of published results indicates a constant scientific interest in halloysite-based traditional ceramics and new potential uses in the future. Additionally, investigations on different novel ceramic composites with low cost halloysite nanotubes (HNTS) have rapidly increased, covering different scientific and technological areas. On the other hand, research into advanced ceramics (SiAlONS) has been pursued due to its highly cost effective technology treatments on a large scale.

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Section: Summarizing Papers and Discussionmentioning

confidence: 99%

Halloysite in Different Ceramic Products: A Review

Lampropoulou

Papoulis

2021

Materials

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“…Guo Li [18] studied the wear status of diamond grinding wheels during zirconia ceramic machining and grinding using EMD decomposition and acoustic emission technology in monitoring the wear status of diamond grinding wheels. Sebasti á n E. Gass et al [19] studied the mechanical properties of ceramic materials at high temperatures. Anders Sundh et al [20] studied the application and flexural strength of zirconia ceramic products in dentistry.…”

Section: Introductionmentioning

confidence: 99%

Study on Acoustic Emission Characteristics of Deformation Damage Process of Zirconia Ceramics

Fu,

Lai

2024

MSCE

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Zirconia ceramics have become increasingly widely used in recent years and are favored by relevant enterprises. From the traditional dental field to aerospace, parts manufacturing has been used, but there is limited research on the deformation and damage process of zirconia ceramics. This article analyzes the acoustic emission characteristics of each stage of ceramic damage from the perspective of acoustic emission, and explores its deformation process characteristics from multiple perspectives such as time domain, frequency, and EWT modal analysis. It is concluded that zirconia ceramics exhibit higher brittleness and acoustic emission strength than alumina ceramics, and when approaching the fracture, it tends to generate lower frequency acoustic emission signals.

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“…Although research on ceramic materials has a history of decades, research on high-performance ceramics remains a hot topic in the industry. Sebasti á n E. Gass et al [4] effectively evaluated the mechanical properties of ceramic materials at high temperatures using three-point bending experiments. Anders Sundh et al [5] compared the bending strength of zirconia ceramic products with that of alumina ceramic products.…”

Section: Introductionmentioning

confidence: 99%

Study on fracture of zirconia and alumina ceramics based on acoustic emission technology

Fu,

Lai,

Mei

et al. 2023

Third International Conference on Advanced Algorithms and Signal Image Processing (AASIP 2023)

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By comparing the commonly used 95 type zirconia ceramics and 99 type alumina ceramics in engineering, acoustic emission technology was used to monitor the stress failure process of the two types of ceramics. Corresponding acoustic emission signals were collected and analyzed. The differences in acoustic emission signal counting rate, signal timefrequency domain, and acoustic emission energy were obtained for the damage evolution process of the two types of ceramics. After analysis, it was found that the acoustic emission activity intensity of 95 type zirconia ceramics was much higher than that of 99 type alumina ceramics in the experiment. At the same time, it was found that the acoustic emission signal frequency of these two types of ceramics would decrease when approaching the fracture state. This can effectively determine the state of these two types of ceramics.

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High Temperature Mechanical Behavior of Porous Cordierite-based Ceramic Materials Evaluated Using 3-point Bending

Cited by 8 publications

References 12 publications

Halloysite in Different Ceramic Products: A Review

Halloysite in Different Ceramic Products: A Review

Study on Acoustic Emission Characteristics of Deformation Damage Process of Zirconia Ceramics

Study on fracture of zirconia and alumina ceramics based on acoustic emission technology

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