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Mechanical and dielectric properties of silicon nitride ceramics with high and hierarchical porosity
Highlights ► Si3N4 ceramics with high and hierarchical porosity are low temperature precessed. ► Si resin is as a binder and pore forming agent, offering a strength enhancement. ► The hierarchical structure is good for low dielectric constant and high strength.
Abstract Silicone resin (SR) processed Si3N4 porous ceramics with high and hierarchical porosity were prepared by adding naphthalene as a pore-forming agent via pressureless sintering technique. The porosity of the obtained Si3N4 porous ceramics is 40∼71% with pores sizes ranging 0.1∼1.0μm, 5∼30μm and 50∼200μm, which is determined by the pyrolysis of SR, partial sintering of Si3N4, and the volatilization of naphthalene, respectively. The bending strength is 6.8∼80MPa and the dielectric constant is 2.29∼4.84. The results suggest that the hierarchical structure is responsible for a low dielectric constant with excellent mechanical property of the Si3N4 porous ceramics, making this material a good candidate for electromagnetic radome application.
Mechanical and dielectric properties of silicon nitride ceramics with high and hierarchical porosity
Highlights ► Si3N4 ceramics with high and hierarchical porosity are low temperature precessed. ► Si resin is as a binder and pore forming agent, offering a strength enhancement. ► The hierarchical structure is good for low dielectric constant and high strength.
Abstract Silicone resin (SR) processed Si3N4 porous ceramics with high and hierarchical porosity were prepared by adding naphthalene as a pore-forming agent via pressureless sintering technique. The porosity of the obtained Si3N4 porous ceramics is 40∼71% with pores sizes ranging 0.1∼1.0μm, 5∼30μm and 50∼200μm, which is determined by the pyrolysis of SR, partial sintering of Si3N4, and the volatilization of naphthalene, respectively. The bending strength is 6.8∼80MPa and the dielectric constant is 2.29∼4.84. The results suggest that the hierarchical structure is responsible for a low dielectric constant with excellent mechanical property of the Si3N4 porous ceramics, making this material a good candidate for electromagnetic radome application.
Mechanical and dielectric properties of silicon nitride ceramics with high and hierarchical porosity
Chen, Fei (author) / Cao, Feng (author) / Pan, Haoliang (author) / Wang, Kaiyu (author) / Shen, Qiang (author) / Li, Jialiang (author) / Wang, Siqing (author)
2012-03-15
5 pages
Article (Journal)
Electronic Resource
English
Mechanical and dielectric properties of silicon nitride ceramics with high and hierarchical porosity
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