Research on preparation and characterization of Ti-Ti5Si3 gradient composite porous material via in-situ reactive process

Research on preparation and characterization of Ti-Ti5Si3 gradient composite porous material via in-situ reactive process

•Ti-Ti5Si3 gradient composite porous material was fabricated via in-situ reactive process.•The Ti5Si3 phases of porous membrane were confirmed by XRD and XPS.•The synthesized granules on the porous membrane is well distributed with the size of ∼1.0 µm.•There are two distinct layers observed in the m...

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Veröffentlicht in:Journal of alloys and compounds 2022-04, Vol.899, p.163405, Article 163405
Hauptverfasser: Liu, Zhongjun, Gao, Boyang, Liu, Yuan, Ji, Shuai, Ao, Qingbo
Format: Artikel
Sprache:eng
Schlagworte:
Energy consumption
Filtration
Hot pressing
In-situ reaction
Maximum aperture
Membranes
Particle size distribution
Permeability
Pore size
Porous composite material
Porous materials
Raw materials
Sintering (powder metallurgy)
Synthesis
Ti5Si3 membrane
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container_title Journal of alloys and compounds
container_volume 899
creator Liu, Zhongjun
Gao, Boyang
Liu, Yuan
Ji, Shuai
Ao, Qingbo
description •Ti-Ti5Si3 gradient composite porous material was fabricated via in-situ reactive process.•The Ti5Si3 phases of porous membrane were confirmed by XRD and XPS.•The synthesized granules on the porous membrane is well distributed with the size of ∼1.0 µm.•There are two distinct layers observed in the membrane prepared by fine powder Gradient composite porous material can reach a high filtering accuracy with larger filtration flux, and the filter elements applied in separation equipment can enhance the filtration efficiency and reduce the energy consumption. Ti-Ti5Si3 gradient composite porous material was successfully prepared by in-situ reaction process with the raw materials of Ti powder and high purity quartz tablets. Microstructures and filtration properties prepared under different synthesized conditions have been studied, including the parameters of pressure sintering (additional loads and temperatures) and powder particle sizes. The synthesized granules on the membrane are well distributed with the size of ∼1.0 µm, and the thickness of the membrane is 3.0∼6.3 µm. The relative air permeability coefficient of porous membrane reduces raptly compared to the sample matrix due to the decrease of pore size. The all synthesized membranes show the presence of Ti and Ti5Si3 phases. There are two distinct layers observed in the membrane layers prepared by fine powder due to in-situ over-reaction.
doi_str_mv 10.1016/j.jallcom.2021.163405
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Ti-Ti5Si3 gradient composite porous material was successfully prepared by in-situ reaction process with the raw materials of Ti powder and high purity quartz tablets. Microstructures and filtration properties prepared under different synthesized conditions have been studied, including the parameters of pressure sintering (additional loads and temperatures) and powder particle sizes. The synthesized granules on the membrane are well distributed with the size of ∼1.0 µm, and the thickness of the membrane is 3.0∼6.3 µm. The relative air permeability coefficient of porous membrane reduces raptly compared to the sample matrix due to the decrease of pore size. The all synthesized membranes show the presence of Ti and Ti5Si3 phases. 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Ti-Ti5Si3 gradient composite porous material was successfully prepared by in-situ reaction process with the raw materials of Ti powder and high purity quartz tablets. Microstructures and filtration properties prepared under different synthesized conditions have been studied, including the parameters of pressure sintering (additional loads and temperatures) and powder particle sizes. The synthesized granules on the membrane are well distributed with the size of ∼1.0 µm, and the thickness of the membrane is 3.0∼6.3 µm. The relative air permeability coefficient of porous membrane reduces raptly compared to the sample matrix due to the decrease of pore size. The all synthesized membranes show the presence of Ti and Ti5Si3 phases. 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Ti-Ti5Si3 gradient composite porous material was successfully prepared by in-situ reaction process with the raw materials of Ti powder and high purity quartz tablets. Microstructures and filtration properties prepared under different synthesized conditions have been studied, including the parameters of pressure sintering (additional loads and temperatures) and powder particle sizes. The synthesized granules on the membrane are well distributed with the size of ∼1.0 µm, and the thickness of the membrane is 3.0∼6.3 µm. The relative air permeability coefficient of porous membrane reduces raptly compared to the sample matrix due to the decrease of pore size. The all synthesized membranes show the presence of Ti and Ti5Si3 phases. There are two distinct layers observed in the membrane layers prepared by fine powder due to in-situ over-reaction.</abstract><cop>Lausanne</cop><pub>Elsevier B.V</pub><doi>10.1016/j.jallcom.2021.163405</doi></addata></record>
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subjects Energy consumption
Filtration
Hot pressing
In-situ reaction
Maximum aperture
Membranes
Particle size distribution
Permeability
Pore size
Porous composite material
Porous materials
Raw materials
Sintering (powder metallurgy)
Synthesis
Ti5Si3 membrane
title Research on preparation and characterization of Ti-Ti5Si3 gradient composite porous material via in-situ reactive process
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