Preparation of YAG nanopowders and ceramics via coprecipitation: Effects of treatment modes of precipitates

Zhang, Xiaorong; Yang, Guangyuan; Chi, Ruitong; Shi, Yingjie; Zhao, Xu; Jiang, Hai; Guo, Fei; Wang, Guimei; Guo, Jianmin; Zhang, Zhixiao

doi:10.1111/ijac.14084

Cited by 4 publications

(7 citation statements)

References 37 publications

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“…Since Ikesue et al [110] prepared the YAG:Nd transparent ceramics with high optical quality by the solid-state reaction method in 1995 and successfully achieved its lasing, the preparation of the garnet-structured transparent ceramics has received wide attention in Refs. [111][112][113][114][115]. While the translucent scintillators also have their applications, for HEP and high-tech medical devices, high transmittance is necessary to reduce self-absorption and optical scattering.…”

Section: Fabrication Of Scintillation Ceramicsmentioning

confidence: 99%

Development and prospects of garnet ceramic scintillators: A review

et al. 2022

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Garnet ceramic scintillators are a class of inorganic scintillation materials with excellent overall performance. The flexibility of cation substitution in different lattice positions leads to tunable and versatile properties and a wide range of applications. This paper starts with an overview of the development history of the inorganic scintillation materials, followed by a description of major preparation methods and characterization of garnet scintillation ceramics. Great progress obtained in recent years consisting in applying the band-gap and defect engineering strategies to the garnet scintillation ceramics is reviewed. Finally, the respective problems in the preparation and performance of multicomponent garnet single crystals and ceramics and the effective solutions are discussed. The garnet scintillation ceramics with the highest application potential are summarized, and the future development directions are proposed.

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Section: Fabrication Of Scintillation Ceramicsmentioning

confidence: 99%

Development and prospects of garnet ceramic scintillators: A review

et al. 2022

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“…At present, hydraulic fracturing technology is widely used in the exploration of oil and gas wells in various formations 5,6 . The results of hydraulic fracturing determine the production efficiency of oil and gas wells to a certain extent, and the performance of proppant plays a decisive role in hydraulic fracturing 7–10 …”

Section: Introductionmentioning

confidence: 99%

“…5,6 The results of hydraulic fracturing determine the production efficiency of oil and gas wells to a certain extent, and the performance of proppant plays a decisive role in hydraulic fracturing. [7][8][9][10] The proppants used at present can be divided into three categories, namely, quartz sand, resin-coated, and ceramic proppants, and their appearance and properties are shown in Figure 1B. [11][12][13] Quartz sand is a traditional proppant and mainly obtained from nature, and it has the advantage of low cost.…”

Section: Introductionmentioning

confidence: 99%

Basic principle, progress, and prospects of coal gangue ceramic proppants

Zhao

Zhang

et al. 2023

Int J Applied Ceramic Tech

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Ceramic proppants are preferred in hydraulic fracturing because of their high strength, good sphericity, and excellent acid corrosion resistance. Bauxite is the main raw material of ceramic proppants, but with the increasing depletion of bauxite resources, substitutes for bauxite need to be sought. Coal gangue is a solid waste that is rich in SiO 2 and Al 2 O 3 , making it a potential substitute for the preparation of ceramic proppants. The use of coal gangue to prepare ceramic proppants can reduce the cost of ceramic proppants and benefit environmental protection. Studies on using coal gangue to prepare ceramic proppants have been conducted and achieved progress, but further improvement can still be obtained.Here, the basic principle, progress, and prospects of coal gangue ceramic proppants are reviewed. First, coal gangue ceramic proppants are divided into two categories, namely, proppants prepared using coal gangue as an auxiliary material and proppants prepared using coal gangue as the main material. Second, the progress of research of coal gangue ceramic proppants is summarized from the perspective of additives, and the influence of different kinds of additives on the sintering temperature and performance of proppants is discussed. Lastly, the future prospects of coal gangue ceramic proppants are presented.

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“…Although the fracture toughness and impact resistance of single-phase B 4 C ceramics are poor, these defects of B 4 C ceramics can be alleviated by introducing a toughening phase, such as boride, carbide, or oxide. [12][13][14][15] Titanium boride (TiB 2 ) is an applicable toughening phase for B 4 C ceramics, and the addition of TiB 2 to B 4 C ceramics can effectively improve the fracture toughness of B 4 C ceramics without sacrificing the hardness. [13][14][15][16] Therefore, the B 4 C-TiB 2 composite ceramic is a potential candidate tool for cutting superhard materials.…”

Section: Introductionmentioning

confidence: 99%

“…[12][13][14][15] Titanium boride (TiB 2 ) is an applicable toughening phase for B 4 C ceramics, and the addition of TiB 2 to B 4 C ceramics can effectively improve the fracture toughness of B 4 C ceramics without sacrificing the hardness. [13][14][15][16] Therefore, the B 4 C-TiB 2 composite ceramic is a potential candidate tool for cutting superhard materials. However, the study and application of B 4 C-TiB 2 composites as cutting tools are rare.…”

Section: Introductionmentioning

confidence: 99%

Finite element simulation and experimental analysis of B₄C‐TiB₂‐SiC ceramic cutting tools

Yang

Zhang

et al. 2023

Int J Applied Ceramic Tech

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Here, cutting properties and wear mechanism of the home‐made B4C‐TiB2‐SiC ceramic cutting tools in turning of AISI 4340 steel workpieces were studied through a combination of finite element simulation using Deform‐3D software and turning experiments. Simulation results show that cutting parameters have significant effects on the main cutting force and tool temperature of the B4C‐TiB2‐SiC cutting tool. The optimal cutting parameters for the ceramic cutting tool are cutting speed of 300 m/min, depth of cut of .3 mm, and feed rate of .1 mm/r. Experimental results show the cutting length of the B4C‐TiB2‐SiC cutting tool is about 101 m, which is 21.0% and 32.9% larger than that of the home‐made B4C‐TiB2 ceramic cutting tool and commercially available tungsten carbide tool, indicating that the B4C‐TiB2‐SiC cutting tool has a desired service life. The surface roughness of the workpieces processed by the B4C‐TiB2‐SiC cutting tool is 2.43 µm, which is 29.4% lower than that of the workpieces processed by the B4C‐TiB2 cutting tool, indicating that the B4C‐TiB2‐SiC cutting tool has a satisfying machining accuracy. Wear forms of the B4C‐TiB2‐SiC ceramic cutting tool involve craters, chipping, and flank wear, and the main wear mechanisms are abrasive, adhesive, oxidative, and diffusion wear.

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Preparation of YAG nanopowders and ceramics via coprecipitation: Effects of treatment modes of precipitates

Cited by 4 publications

References 37 publications

Development and prospects of garnet ceramic scintillators: A review

Development and prospects of garnet ceramic scintillators: A review

Basic principle, progress, and prospects of coal gangue ceramic proppants

Finite element simulation and experimental analysis of B₄C‐TiB₂‐SiC ceramic cutting tools

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Preparation of YAG nanopowders and ceramics via coprecipitation: Effects of treatment modes of precipitates

Cited by 4 publications

References 37 publications

Development and prospects of garnet ceramic scintillators: A review

Development and prospects of garnet ceramic scintillators: A review

Basic principle, progress, and prospects of coal gangue ceramic proppants

Finite element simulation and experimental analysis of B4C‐TiB2‐SiC ceramic cutting tools

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Product

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Finite element simulation and experimental analysis of B₄C‐TiB₂‐SiC ceramic cutting tools