One-step sintering process for the production of magnetocaloric La(Fe,Si)₁₃-based composites
A one-step sintering process was developed to produce magnetocaloric La(Fe,Si)13/Ce-Co composites. The effects of Ce2Co7 content and sintering time on the relevant phase transformations were determined. Following sintering at 1373 K/30 MPa for 1–6 h, the NaZn13-type (La,Ce)(Fe,Co,Si)13 phase formed,...
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sg-ntu-dr.10356-1652122023-07-14T15:47:09Z One-step sintering process for the production of magnetocaloric La(Fe,Si)₁₃-based composites Zhong, Xi-Chun Dong, Xu-Tao Huang, Jiao-Hong Liu, Cui-Lan Zhang, Hu Huang, You-Lin Yu, Hong-Ya Ramanujan, Raju V. School of Materials Science and Engineering Engineering::Materials Sintering Grain Boundary Diffusion A one-step sintering process was developed to produce magnetocaloric La(Fe,Si)13/Ce-Co composites. The effects of Ce2Co7 content and sintering time on the relevant phase transformations were determined. Following sintering at 1373 K/30 MPa for 1–6 h, the NaZn13-type (La,Ce)(Fe,Co,Si)13 phase formed, the mass fraction of α-Fe phase reduced and the CeFe7-type (La,Ce)(Fe,Co,Si)7 phase appeared. The mass fraction of the (La,Ce)(Fe,Co,Si)7 phase increased, and the α-Fe phase content decreased with increasing Ce2Co7 content. However, the mass fraction of the (La,Ce)(Fe,Co,Si)7 phase reduced with increasing sintering time. The EDS results showed a difference in concentration between Co and Ce at the interphase boundary between the 1:13 phase and the 1:7 phase, indicating that the diffusion mode of Ce is reaction diffusion, while that of Co is the usual vacancy mechanism. Interestingly, almost 100 % single phase (La,Ce)(Fe,Co,Si)13 was obtained by appropriate Ce2Co7 addition. After 6 h sintering at 1373 K, the Ce and Co content in the (La,Ce)(Fe,Co,Si)13 phase increased for larger Ce2Co7 content. Therefore, the Curie temperature increased from 212 K (binder-free sample) to 331 K (15 wt.% Ce2Co7 sample). The maximum magnetic entropy change (−∆SM)max decreased from 8.8 (binder-free sample) to 6.0 J/kg∙K (15 wt.% Ce2Co7 sample) under 5 T field. High values of compressive strength (σbc)max of up to 450 MPa and high thermal conductivity (λ) of up to 7.5 W/m∙K were obtained. A feasible route to produce high quality La(Fe,Si)13 based magnetocaloric composites with large MCE, good mechanical properties, attractive thermal conductivity and tunable TC by a one-step sintering process has been demonstrated. Published version This work was funded by the National Natural Science Foundation of China (Grant Nos. 51874143, 52066001, 51671022, 51461012), the Natural Science Foundation of Guangdong Province (Grant Nos. 2019A1515010970, 2017A030313317), the National Key Research & Development Program of China (Materials Genome Initiative) (Grant No. 2017YFB0702703), the Guangzhou Municipal Science and Technology Project (Grant No. 201904010030), and the Foundation of State Key Laboratory of Baiyunobo Rare Earth Resource Researches and Comprehensive Utilization (Grant No. 2020Z2218). This Research is also supported by Singapore-HUJ Alliance for Research and Enterprise (SHARE), Nanomaterials for Energy and Energy-Water Nexus (NEW), Campus for Research Excellence and Technological Enterprise (CREATE), Singapore 138602. And the APC was funded by the National Natural Science Foundation of China (Grant No. 51874143). 2023-03-20T06:41:29Z 2023-03-20T06:41:29Z 2022 Journal Article Zhong, X., Dong, X., Huang, J., Liu, C., Zhang, H., Huang, Y., Yu, H. & Ramanujan, R. V. (2022). One-step sintering process for the production of magnetocaloric La(Fe,Si)₁₃-based composites. Metals, 12(1), 112-. https://dx.doi.org/10.3390/met12010112 2075-4701 https://hdl.handle.net/10356/165212 10.3390/met12010112 2-s2.0-85122260556 1 12 112 en Metals © 2022 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https:// creativecommons.org/licenses/by/ 4.0/). application/pdf |
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Engineering::Materials Sintering Grain Boundary Diffusion Zhong, Xi-Chun Dong, Xu-Tao Huang, Jiao-Hong Liu, Cui-Lan Zhang, Hu Huang, You-Lin Yu, Hong-Ya Ramanujan, Raju V. One-step sintering process for the production of magnetocaloric La(Fe,Si)₁₃-based composites |
| description |
A one-step sintering process was developed to produce magnetocaloric La(Fe,Si)13/Ce-Co composites. The effects of Ce2Co7 content and sintering time on the relevant phase transformations were determined. Following sintering at 1373 K/30 MPa for 1–6 h, the NaZn13-type (La,Ce)(Fe,Co,Si)13 phase formed, the mass fraction of α-Fe phase reduced and the CeFe7-type (La,Ce)(Fe,Co,Si)7 phase appeared. The mass fraction of the (La,Ce)(Fe,Co,Si)7 phase increased, and the α-Fe phase content decreased with increasing Ce2Co7 content. However, the mass fraction of the (La,Ce)(Fe,Co,Si)7 phase reduced with increasing sintering time. The EDS results showed a difference in concentration between Co and Ce at the interphase boundary between the 1:13 phase and the 1:7 phase, indicating that the diffusion mode of Ce is reaction diffusion, while that of Co is the usual vacancy mechanism. Interestingly, almost 100 % single phase (La,Ce)(Fe,Co,Si)13 was obtained by appropriate Ce2Co7 addition. After 6 h sintering at 1373 K, the Ce and Co content in the (La,Ce)(Fe,Co,Si)13 phase increased for larger Ce2Co7 content. Therefore, the Curie temperature increased from 212 K (binder-free sample) to 331 K (15 wt.% Ce2Co7 sample). The maximum magnetic entropy change (−∆SM)max decreased from 8.8 (binder-free sample) to 6.0 J/kg∙K (15 wt.% Ce2Co7 sample) under 5 T field. High values of compressive strength (σbc)max of up to 450 MPa and high thermal conductivity (λ) of up to 7.5 W/m∙K were obtained. A feasible route to produce high quality La(Fe,Si)13 based magnetocaloric composites with large MCE, good mechanical properties, attractive thermal conductivity and tunable TC by a one-step sintering process has been demonstrated. |
| author2 |
School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Zhong, Xi-Chun Dong, Xu-Tao Huang, Jiao-Hong Liu, Cui-Lan Zhang, Hu Huang, You-Lin Yu, Hong-Ya Ramanujan, Raju V. |
| format |
Article |
| author |
Zhong, Xi-Chun Dong, Xu-Tao Huang, Jiao-Hong Liu, Cui-Lan Zhang, Hu Huang, You-Lin Yu, Hong-Ya Ramanujan, Raju V. |
| author_sort |
Zhong, Xi-Chun |
| title |
One-step sintering process for the production of magnetocaloric La(Fe,Si)₁₃-based composites |
| title_short |
One-step sintering process for the production of magnetocaloric La(Fe,Si)₁₃-based composites |
| title_full |
One-step sintering process for the production of magnetocaloric La(Fe,Si)₁₃-based composites |
| title_fullStr |
One-step sintering process for the production of magnetocaloric La(Fe,Si)₁₃-based composites |
| title_full_unstemmed |
One-step sintering process for the production of magnetocaloric La(Fe,Si)₁₃-based composites |
| title_sort |
one-step sintering process for the production of magnetocaloric la(fe,si)₁₃-based composites |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/165212 |
| _version_ |
1772826434519171072 |