Bioceramics Development and Applications

Department of Mechanical Engineering, Razi University, Kermanshah, Kermanshah, Iran

Publications

• Mini Review   
  Thermoplastic Feedstocks for Ceramic Additive Manufacturing
  Author(s): Farzad Dabirian*
  
  The advancement of the Web of Things animates the improvement of sensors of little size and low power utilization. Scaled down metal-oxide semiconductor (MOX) gas sensors (for example methane, hydrogen or carbon monoxide recognition) can be coordinated into agro-modern offices, for example, animals offices, fish cultivating, ranger service, food-capacity and agriculture, where they support future-arranged plant creation (savvy agribusiness). A micro-hotplate that serves as the central component of a MOX gas sensor is primarily responsible for the power consumption of the sensor at operating temperatures ranging from 450 °C to 600 °C. Ceramic materials are the best choice for the micro-hotplate substrate and sensor housing (ceramic MEMS), as well as platinum metallization for the heater, in harsh environmental conditions. Miniaturized printable heaters m.. Read More»
  DOI: 10.37421/2090-5025.2022.12.229

  Abstract HTML PDF