Data-driven prediction of microhardness and tensile strength in microwave-sintered ZrC reinforced AA7075/SiC hybrid composites using machine learning. [PDF]
Sci RepSrinath E +4 more
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Enhanced Photoluminescent Properties and Crystalline Morphology of LiBaPO₄:Tm3+ Phosphor through Microwave Sintering Method. [PDF]
Materials (Basel), 2016 Lai HL, Weng MH, Yang RY, Chang SJ.
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Structural, optical, and magnetic properties of NiMoO4 nanorods prepared by microwave sintering. [PDF]
ScientificWorldJournal, 2015 de Moura AP +8 more
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V<sub>2</sub>O<sub>5</sub>-Assisted Low-Temperature Sintering and Microwave Dielectric Properties of (1 - x)Li<sub>2.08</sub>TiO<sub>3</sub>-xLi<sub>2</sub>ZnTi<sub>3</sub>O<sub>8</sub> (x = 0.3-0.7) Ceramics for LTCC Applications. [PDF]
Materials (Basel)Lee YS, Lee KH.
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Influence of heating rate and soak time on microwave sintered hydroxyapatite and β-tricalcium phosphate ceramics for bone applications. [PDF]
Sci RepSarode B +3 more
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Tailoring and Fabricating Temperature-Stable ZnNb<sub>2</sub>O<sub>6</sub>-Ca<sub>0.5</sub>Sr<sub>0.5</sub>TiO<sub>3</sub> Composite Ceramics for Next-Generation Microwave Components. [PDF]
Materials (Basel)Wang H, Chen C, Fu X, Peng Z.
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Low-Temperature Sintering Inks for Printed Bioelectronics: Materials, Mechanisms, and Emerging Ideas. [PDF]
Biosensors (Basel)Bera A +8 more
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Preparation of SiC/SiO<sub>2</sub> Fibers by Microwave Heating. [PDF]
ACS OmegaDong B +13 more
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Discussion on Microwave-Matter Interaction Mechanisms by In Situ Observation of "Core-Shell" Microstructure during Microwave Sintering. [PDF]
Materials (Basel), 2016 Liu W, Xu F, Li Y, Hu X, Dong B, Xiao Y.
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