Presentation is loading. Please wait.

Presentation is loading. Please wait.

1 G. Tomás, D. Martins, A. Cooper and G. Bonfait Thermal conductivity of copper foam June 29th 2015 Tucson, Arizona, Cryogenic Engineering Conference.

Published byIlene Parrish Modified over 9 years ago

Similar presentations

Presentation on theme: "1 G. Tomás, D. Martins, A. Cooper and G. Bonfait Thermal conductivity of copper foam June 29th 2015 Tucson, Arizona, Cryogenic Engineering Conference."— Presentation transcript:

1 1 G. Tomás, D. Martins, A. Cooper and G. Bonfait Thermal conductivity of copper foam June 29th 2015 Tucson, Arizona, Cryogenic Engineering Conference

2 2 Motivation Highly porous and good thermal conductor materials have interesting applications in the cryogenics field. Particularly in microgravity systems, for liquid confinement by capillarity like energy storage units (see Thursday C4OrD-05 10:00 “15 K H2 ESU”). Absence of such materials with pore size below 500 µm. Characterization of copper foam thermal conductivity with pore size between 300-400 µm and porosity between 58-73% (from Versarien, UK).

3 3 Measure directly in the sample Cell base Sample Thermometers Dimensioning Cold finger Cell base Heater Thermometer

4 4 Experimental set up 30 mm 1.6 mm x 5 mm Pt 100 Ω, stycast encapsulation (inexpensive). Homemade calibration down to 20 K. Upgrade: GaAs diodes for measurements down to 10 K.

5 5 Control Sample Bulk of ETP copper Dimensioned to have a thermal conductance similar to the samples

6 6 Results

7 7 Thermal conductivity of the samples

8 Tortuosity 8 Porous material model Cell base Sample Thermometers Section Porosity y x z

9 9 Tortuosity dependence

10 10 Normalization of the samples

11 11 Conclusions We built and validated a system to measure the thermal conductivity of highly conductive materials. The system allowed the measurement of the thermal conductivity of the control sample and the four copper foams. The behavior of the thermal conductivity of the copper foam is similar to that of bulk copper. The purity level of the copper within the foam decreases only slightly with porosity and is between RRR 20 – RRR 10.

12 12 Conclusions The tortuosity was calculated for all samples and was shown that it decreases with porosity. The system has now been upgraded allowing for more precise measurements down to 10 K.

13 13 Thank you! This work was partially supported by the European Space Agency. Contacts:  G. Tomás: g.tomas@campus.fct.unl.pt  G. Bonfait: gb@fct.unl.pt  Cryogenics laboratory: http://www.libphys.fct.unl.pt/services- facilities/cryogenics-laboratory This work was partially supported by the European Space Agency. Contacts:  G. Tomás: g.tomas@campus.fct.unl.pt  G. Bonfait: gb@fct.unl.pt  Cryogenics laboratory: http://www.libphys.fct.unl.pt/services- facilities/cryogenics-laboratory CRYOGENICS LABORATORY @

Download ppt "1 G. Tomás, D. Martins, A. Cooper and G. Bonfait Thermal conductivity of copper foam June 29th 2015 Tucson, Arizona, Cryogenic Engineering Conference."

Similar presentations

Results Conclusion Methods Samples Characterization of large size co-extruded Al-Ni stabilized Nb-Ti superconducting cable Objectives Background Stefanie.

Results Conclusion Methods Samples Characterization of large size co-extruded Al-Ni stabilized Nb-Ti superconducting cable Objectives Background Stefanie.
Thermal Conductivity Characterization for Cryogenic Applications

Thermal Conductivity Characterization for Cryogenic Applications
EN Division-Metallurgy and Metrology

EN Division-Metallurgy and Metrology
Hongjie Zhang Purge gas flow impact on tritium permeation Integrated simulation on tritium permeation in the solid breeder unit FNST, August 18-20, 2009.

Hongjie Zhang Purge gas flow impact on tritium permeation Integrated simulation on tritium permeation in the solid breeder unit FNST, August 18-20, 2009.
LABORATORY DETERMINATION OF POROSITY

LABORATORY DETERMINATION OF POROSITY
Montana Instruments Company Introduction. Company Background The company founder, Luke Mauritsen, started the Cryostation product development in 2008.

Montana Instruments Company Introduction. Company Background The company founder, Luke Mauritsen, started the Cryostation product development in 2008.
Mitra’s short time expansion Outline -Mitra, who’s he? -The model, a dimensional argument -Evaluating the leading order correction term to the restricted.

Mitra’s short time expansion Outline -Mitra, who’s he? -The model, a dimensional argument -Evaluating the leading order correction term to the restricted.
Progress on the MICE Cooling Channel Solenoid Magnet System

Progress on the MICE Cooling Channel Solenoid Magnet System
Fluid Flow and Continuity Imagine that a fluid flows with a speed v 1 through a cylindrical pip of cross-sectional area A 1. If the pipe narrows to a cross-

Fluid Flow and Continuity Imagine that a fluid flows with a speed v 1 through a cylindrical pip of cross-sectional area A 1. If the pipe narrows to a cross-
Ram C. Dhuley Steven W. Van Sciver

Ram C. Dhuley Steven W. Van Sciver
COMPRESSIBILITY OF RESERVOIR ROCKS.

COMPRESSIBILITY OF RESERVOIR ROCKS.
Thin Films for Superconducting Cavities HZB. Outline Introduction to Superconducting Cavities The Quadrupole Resonator Commissioning Outlook 2.

Thin Films for Superconducting Cavities HZB. Outline Introduction to Superconducting Cavities The Quadrupole Resonator Commissioning Outlook 2.
| Mechanical Robustness of Cryogenic Temperature Sensors Packaged in a Flat, Hermetically Sealed Package 2015 CEC-ICMC, Tucson, AZ, C30rG-1, 1 July 2015.

| Mechanical Robustness of Cryogenic Temperature Sensors Packaged in a Flat, Hermetically Sealed Package 2015 CEC-ICMC, Tucson, AZ, C30rG-1, 1 July 2015.
ORNL is managed by UT-Battelle for the US Department of Energy Commissioning and Operation of the Horizontal Test Apparatus at SNS Presented at: CEC/ICMC.

ORNL is managed by UT-Battelle for the US Department of Energy Commissioning and Operation of the Horizontal Test Apparatus at SNS Presented at: CEC/ICMC.
Charge collection studies on heavily diodes from RD50 multiplication run G. Kramberger, V. Cindro, I. Mandić, M. Mikuž Ϯ, M. Milovanović, M. Zavrtanik.

Charge collection studies on heavily diodes from RD50 multiplication run G. Kramberger, V. Cindro, I. Mandić, M. Mikuž Ϯ, M. Milovanović, M. Zavrtanik.
S. Pistacchio2 , G. Bovesecchi1 , P. Coppa1

S. Pistacchio2 , G. Bovesecchi1 , P. Coppa1
Four Point Probe.

Four Point Probe.
Workshop on Beam losses, heat deposition and quench levels for LHC magnets, Geneva, 3-4 March 2005 Liquid helium heat transfer in superconducting cable.

Workshop on Beam losses, heat deposition and quench levels for LHC magnets, Geneva, 3-4 March 2005 Liquid helium heat transfer in superconducting cable.
Chapter 17 Electric Potential. Objectives: The students will be able to: Given the dimensions, distance between the plates, and the dielectric constant.

Chapter 17 Electric Potential. Objectives: The students will be able to: Given the dimensions, distance between the plates, and the dielectric constant.
1 THERMAL CONDUCTIVITY OF SILICATE BONDED SAMPLES Status of measurements with the thermal conductivity facility in Firenze June, 7 th 2007.

1 THERMAL CONDUCTIVITY OF SILICATE BONDED SAMPLES Status of measurements with the thermal conductivity facility in Firenze June, 7 th 2007.

Similar presentations

Ads by Google