Journal of Inorganic Materials, Volume. 36, Issue 7, 685(2021)
Figures & Tables(9)
![(a) XRD patterns of Ta0.8Hf0.2C solid solution ceramic before and after SPS at different temperatures and (b) more detailed diffraction patterns between 30° and 45°[32]](/Images/icon/loading.gif){kind=icon}
1. (a) XRD patterns of Ta0.8Hf0.2C solid solution ceramic before and after SPS at different temperatures and (b) more detailed diffraction patterns between 30° and 45°[32]
2. Morphology of Ta0.8Hf0.2C solid solution ceramics synthesised by different SHS methods[43]
3. Morphologies of Ta0.5Hf0.5C powders synthesized via solvothermal method[21]
4. SEM images of Ta0.8Hf0.2C solid solution ceramic sintered at different temperatures[52]
Table 1. Advantages and disadvantages of different techniques for preparation of Ta
x Hf1-x C powderView tableView in ArticleTable 1. Advantages and disadvantages of different techniques for preparation of Ta
x Hf1-x C powderSolid solution between metal carbides Carbonization reaction of metals Carbothermal reduction of metal oxides Advantages Easy to operate; products have high purity and could achieve densification simultaneously High temperature is not necessary; the whole process lasts only several seconds, not time consuming Easy to operate; raw materials are cheap; have potential to synthesize single-phase products with fine grain size at relatively low temperature Disadvantages Needs high temperature and long time; products are not single-phase solid solution with elements uneven distribution The reaction process are unable to control; products are usually not pure The phase and microstructure of products are closely related to the distribution and binding state of oxides and carbon
Table 2. Mechanical properties of Ta
x Hf1-x C solid solution ceramics at room temperatureView tableView in ArticleTable 2. Mechanical properties of Ta
x Hf1-x C solid solution ceramics at room temperatureRaw powder Sintering method Relative density/% Hardness/GPa Elastic modulus/GPa KIC/(MPa·m1/2) Ref. Ta0.9Hf0.1C-12vol% MoSi2 TaC, HfC, MoSi2 SPS 100.0 (15.0±0.2) — (3.2±0.3) [26] Ta0.9Hf0.1C-12vol% TaSi2 TaC, HfC, TaSi2 SPS 100.0 (15.9±0.3) — (3.3±0.2) [26] Ta0.87Hf0.13C TaC, HfC HIP >98.0 24.1 575.4 — [3] Ta0.8Hf0.2C Ta0.8Hf0.2C HP 99.6 (30.3±1.6) (462.5±3.1) (2.2±0.4) [30] Ta0.8Hf0.2C TaxHf1-xC HP 94.4 27.2 491.7 3.0 [21] Ta0.8Hf0.2C TaC, HfC SPS 97.8 (16.7±0.9) (443.2±23.7) (4.6±1.1) [40] Ta0.8Hf0.2C TaC, HfC SPS (97.7±0.1) (19.3±1.3) (459.0±5.8) (2.9±0.9) [32] Ta0.8Hf0.2C-10vol% MoSi2 TaC, HfC, MoSi2 SPS 99.8 (18.5±0.5) (482.0±2.0) (4.2±0.2) [29] Ta0.8Hf0.2C-12vol% MoSi2 TaC, HfC, MoSi2 SPS 100.0 (15.2±0.5) — (3.9±0.2) [26] Ta0.8Hf0.2C-12vol% TaSi2 TaC, HfC, TaSi2 SPS 100.0 (17.7±0.4) — (3.2±0.1) [26] Ta0.75Hf0.25C TaC, HfC HIP >98.0 28.6 567.7 — [3] Ta0.7Hf0.3C-12vol% MoSi2 TaC, HfC, MoSi2 SPS 97.8 (15.9±0.6) — (3.9±0.1) [26] Ta0.7Hf0.3C-12vol% TaSi2 TaC, HfC, TaSi2 SPS 98.9 (18.2±0.7) — (2.8±0.1) [26] Ta0.67Hf0.33C Ta0.67Hf0.33C HP 95.3 29.7 483.0 2.5 [21] Ta0.5Hf0.5C Ta0.5Hf0.5C HP 99.2 (36.7±1.2) (559.3±6.5) (2.9±0.4) [30] Ta0.5Hf0.5C Ta0.5Hf0.5C HP 97.9 37.9 591.0 2.5 [21] Ta0.5Hf0.5C TaC, HfC SPS 98.2 (17.1±1.1) (523.8±7.0) (6.0±0.7) [40] Ta0.5Hf0.5C TaC, HfC SPS (95.7±0.3) (22.1±1.8) (549.0±11.2) (2.9±0.7) [32] Ta0.5Hf0.5C TaC, HfC HIP >97.0 23.5 469.9 — [3] Ta0.3Hf0.7C HfO2, Ta2O5, graphite SPS 98.7 (20.0±0.9) — (5.2±0.2) [48] Ta0.25Hf0.75C Ta0.25Hf0.75C HP 96.5 (29.9±2.2) (436.4±13.8) (2.2±0.2) [30] Ta0.25Hf0.75C TaC, HfC HIP >98.0 29.1 593.5 — [3] Ta0.2Hf0.8C Ta0.2Hf0.8C HP 95.9 (35.1±1.1) (554.7±8.8) (2.3±0.5) [21] Ta0.2Hf0.8C TaC, HfC SPS (87.0±0.2) (16.7±3.0) (438.0±17.8) (3.4±0.6) [32] Ta0.2Hf0.8C TaC, HfC SPS 98.8 (19.1±0.3) (577.3±6.0) (5.5±0.6) [40] Ta0.2Hf0.8C HfO2, Ta2O5, graphite SPS 100.0 (19.7±0.7) — 5.1 [48] Ta0.17Hf0.83C TaC, HfC HIP >98.0 26.6 534.2 — [3] Ta0.1Hf0.9C HfO2, Ta2O5, graphite SPS 99.3 (19.7±0.8) — — [48]
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Peng XIAO, Yulin ZHU, Song WANG, Yiping YU, Hao LI.
Paper Information
Category: REVIEW
Received: Aug. 10, 2020
Accepted: --
Published Online: Nov. 25, 2021
The Author Email: WANG Song (wangs_0731@163.com)
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