Digital X-Ray Flat Panel Housing for Operation at Extremely Low Temperatures

Abstract:

Article Preview

The paper presents the housing wall structure for the digital X-ray flat panel which can operate in extremely low temperature conditions. A technology of three-dimensional printing is proposed for making the detector housing with heat conductors incorporated in its wall structure.

Info:

Periodical:

Edited by:

Dr. Anatoliy Surzhikov

Pages:

68-76

Citation:

F. Simankin et al., "Digital X-Ray Flat Panel Housing for Operation at Extremely Low Temperatures", Materials Science Forum, Vol. 942, pp. 68-76, 2019

Online since:

January 2019

Export:

Price:

$41.00

* - Corresponding Author

[1] Information on https://openi.nlm.nih.gov/detailedresult.php?img=PMC4085117_poljradiol-79-181-g003&req=4.

[2] A.N. Starchenko, V.G. Filippov, Yu.A. Yugai, Study of the temperature dependence of the sensitivity of a television camera on a silicon matrix, Optical Journal 80(10) 2013 (in Russian).

DOI: https://doi.org/10.1364/jot.80.000632

[3] Information on https://www.boydcorp.com/thermal-management/heat-pipe-technology.html.

[4] S. Mohsen Hosseini, Chien-Chih Chen, Chen-Ching Ting, Developing the Coaxial Dual-Pipe Heat Pipe for Applications of Heat Pipe Cooler, Journal of Heat Transfer 133(9) (2011) 092901.

DOI: https://doi.org/10.1115/1.4003904

[5] Information on http://teplostok.dax.ru.

[6] Information on www.ensinger-online.com.

[7] M. Grundler, T. Derieth, A. Heinze, Polymer compounds with high thermal conductivity, AIP Conference Proceedings 1779 (2016) 030015.

[8] Information on https://www.premixgroup.com.

[9] Robert A. Buerschaper, Thermal and Electrical Conductivity of Graphite and Carbon at Low Temperatures, Journal of Applied Physics 15 (1944) 452.

DOI: https://doi.org/10.1063/1.1707454

[10] Hongyu Chen, Valeriy Ginzburg, JianYang, YunfengYang, WeiLiu, YanHuang, LiboDu, BinChen, Thermal conductivity of polymer-based composites: Fundamentals and applications, Progress in Polymer Science 59 (2016) 41-85.

DOI: https://doi.org/10.1016/j.progpolymsci.2016.03.001

[11] Lucie Trhlíková, Oldrich Zmeskal, Petr Psencik Pavel Florian, Study of the thermal properties of filaments for 3D printing, AIP Conference Proceedings 1752 (2016) 040027.

DOI: https://doi.org/10.1063/1.4955258

[12] D. Isaeva, F. Simankin, Y. Doncov, A. Simankin, Modification of polymeric materials for 3D printing of external panels of nanosatellites, MATEC Web of Conferences 102 (2017) 01022.

DOI: https://doi.org/10.1051/matecconf/201710201022

[13] R. Vasilchenko, F. Simankin, G. Ziyakaev, A. Simankin, Kinematics of the orbital movement of a digital X-ray scanner of annular pipe seams, MATEC Web of Conferences 158 (2018) 01031.

DOI: https://doi.org/10.1051/matecconf/201815801031

[14] A.A. Svetashkov, N.A Kupriyanov, K.K Manabaev, High Technology: Research and Applications (HTRA 2015), Key Engineering Materials 685 (2015).

[15] A.A. Svetashkov, N.A Kupriyanov, K.K Manabaev, Fizicheskaya mezomechanika 18(6) (2015).

[16] Information on http://www.cadfem-us.com/products/ansys/temperature-fields.html.