Further reading: Magazine and journal articlesAnalytical Models for Calculating Thermal Bridge Effects Caused by Thin High Barrier Envelopes around Vacuum Insulation Panels, M.J.Tenpierik, J.J.M. Cauberg, Journal of Building Physics 30 (3), 185-215 (2007)Integrating vacuum insulation panels in building constructions: an integral perspective, M.J. Tenpierik, J.J.M. Cauberg, T.I. Thorsell, Construction Innovation: Information, Process, Management 7 (1), 38-53 (2007) Systematisiertes Bauen mit vakuumgedämmten Betonfertigteilen, Matthias Hangleiter, Stephan Weismann, Bauphysik 28, Heft 3, 192-196 (2006) Thermal testing and numerical simulation of a prototype cell using light wallboards coupling vacuum isolation panels and phase change material, Maha Ahmad, André Bontemps, Hébert Salleé, Daniel Quenard, Energy and Buildings 38, 673–681 (2006) Investigation of multilayered aluminium-coated polymer laminates by focused ion beam (FIB) etching, S. Brunner, Ph. Gasser, H. Simmler, K. Ghazi Wakili, Surface & Coatings Technology 200, 5908–5914 (2006) Experimental and numerical investigation of the thermal performance of a protected vacuum insulation system applied to a concrete wall, T. Nussbaumer, K. Ghazi Wakili, Ch. Tanner, Applied Energy 83, 841–855 (2006) Vacuum insulation panels for building application, Basic properties, aging mechanisms and service life, H. Simmler, S. Brunner, Energy and Buildings 37, 1122–1131 (2005) Thermal analysis of a wooden door system with integrated vacuum insulation panels, T. Nussbaumer, R. Bundi, Ch. Tanner, H. Muehlebach, Energy and Buildings 37, 1107–1113 (2005) Meßtechnische und rechnerische Untersuchungen an einer mit Vakuum-Isolations-Paneelen gedämmten Holztür, Reto Bundi, Thomas Nussbaumer, Christoph Tanner, Hans Mühlebach, Bauphysik 27, Heft 1, 21-27 (2005) Permeation of Different Gases Through Foils used as Envelopes for Vacuum Insulation Panels, Hubert Schwab, Ulrich Heinemann, Andreas Beck, Hans-Peter Ebert, and Jochen Fricke, Journal of Thermal Envelope and Building Science, Vol. 28, No. 4, 293-317 (2005) Dependence of Thermal Conductivity on Water Content in Vacuum Insulation Panels with Fumed Silica Kernels, Hubert Schwab, Ulrich Heinemann, Andreas Beck, Hans-Peter Ebert, and Jochen Fricke, Journal of Thermal Envelope and Building Science, Vol. 28, No. 4, 319-326 (2005) Predictions for the Increase in Pressure and Water Content of Vacuum Insulation Panels (VIPs) Integrated into Building Constructions using Model Calculations, Hubert Schwab, Ulrich Heinemann, Johannes Wachtel, Hans-Peter Ebert, and Jochen Fricke, Journal of Thermal Envelope and Building Sc?????N???t??�??ience, Vol. 28, No. 4, 327-344 (2005) Thermal Bridges in Vacuum-insulated Building Façades, Hubert Schwab, Cornelia Stark, Johannes Wachtel, Hans-Peter Ebert, and Jochen Fricke, Journal of Thermal Envelope and Building Science, Vol. 28, No. 4, 345-355 (2005) Prediction of Service Life for Vacuum Insulation Panels with Fumed Silica Kernel and Foil Cover, Hubert Schwab, Ulrich Heinemann, Andreas Beck, Hans-Peter Ebert, and Jochen Fricke, Journal of Thermal Envelope and Building Science, Vol. 28, No. 4, 357-374 (2005) Effective Thermal Conductivity of Vacuum Insulation Panels, K. Ghazi Wakili, R. Bundi and B. Binder, Building Research and Information, Vol. 32(4), p. 293-299 (2004) VakuumIsolationsPaneele (VIP) - die superschlanke Wärmedämmung, Dr. Peter Randel (WACKER Silicones), Energieeffizientes Bauen 3/2004, S. 8 ff Bürogebäude mit Vakuum-Isolations-Paneelen (Praxisbericht aus der Schweiz), Energieeffizientes Bauen 2/2002 Evacuated Insulation Panels Filled with Pyrogenic Silica Powders: Properties and Application, R. Caps, U. Heinemann, M. Ehrmanntraut, J. Fricke, High Temperatures - High Pressures, Vol. 22, pp. 151-156, 2001 Thermal Conductivity of Opacified Powder Filler Materials for Vacuum Insulations, R. Caps, J. Fricke, International Journal of Thermophysics, Vol. 21, No. 2, 2000 Characterization and Commercialization of INSTILL Vacuum Insulation Core, P. Bendergast, B. Malone, Vuoto Scienza e Tecnologia, 1-2 1999, pp. 77-82 Characterization and optimization of filler materials for vacuum super insulations, U. Heinemann, R. Caps, J. Fricke, Vuoto Scienza e Tecnologia, Vol. 18, 1-2 1999, pp. 43-46 Thermal Conductivity of Spun Glass Fibers as Filler Material for Vacuum Insulations, R. Caps, J. Hetfleisch, Th. Rettelbach, J. Fricke, Thermal Conductivity 23, 1996, pp. 373-382 |