: pp. 34-38
Lviv Polytechnic National University
Lviv Polytechnic National University

Consideration of  the  liquid-in-tube thermometers envisages  that  the performance depends on  their  linear sizes and the row of thermophysical properties. Methodic error is defined by the ratio of the complex parameters that take into account the mentioned characteristics of the measured object and the thermometer. We consider the liquid-in-micro tube thermometers for measuring  temperature. Permanent development consists  first in minimization of  their sizes due  to  the continuous diminishing of electronics production operation control of which is realized with help of nanosensors, nanoelements, and nanosystems.

[1] N. Gong, M. Lu, C. Wang, Y. Chen, L. Chen. Au(Si)-filled  b-Ga2O3  nanotubes  as  wide  range  high  temperature nanothermometers,  Appl.  Phys  .Let.,  vol.92,  iss.7,  Nanoscale science and Design, 073101, 2008; 3 p. 

[2]  H.  Hofmann,  Advanced  nanomaterials,  Powder Technology Laboratory, IMX, EPFL, vers.1, Sept 2009.

[3] G. Khaidarov, A. Khaidarov, A. Mashek, The physical nature of  liquid  surface  tension, Vestnik St.Petersburg University, Series 4: Physics and Chemistry, is. 1, p. 3–8, 2011.  

[4]  S.  Yatsyshyn,  B.  Stadnyk,  Ya.  Lutsyk,  Research  in Nanothermometry.  Part  3.  Characteristics  of  the  Thermometers with  liquid-  and  solid-phase  sensitive  elements,  Sensors  & Transducers, vol. 140, is. 5, p. 15–23, 2012.

[5] Surface tension by the ring method (Du Nouy method). [On-line]. Available: /phywe/LEP/Experim/1_4_05.pdf

[6]  Powering  nanotechnology  devices with  novel  surface energy  generators,  Nanowerk  Nanotechnology  Spotlight,  posted: March 5, 2010.