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Arfvidsson, J. and Bjelke-Holtermann, B. and Mattsson, J. (2017) Status determination of a historical building including measures for three different scenarios. Energy Procedia, 132.
Bratasz, L and Kozłowski, R and Camuffo, D and Pagan, E (2007) Impact of indoor heating on painted wood: monitoring the altarpiece in the church of Santa Maria Maddalena in Rocca Pietore, Italy. Studies in Conservation, 52 (3). pp. 199-210. ISSN 00393630
Dionisi Vici, P and Mazzanti, P and Uzielli, L (2006) Mechanical response of wooden boards subjected to humidity step variations: climatic chamber measurements and fitted mathematical models. Journal of Cultural Heritage, 7 (1). pp. 37-48. ISSN 12962074
Erhardt, D and Mecklenburg, M F (1994) Relative humidity re-examined. Preventive conservation: practice, theory and research. Preprints of the contributions to the Ottawa Congress, 12-16 September 1994 . pp. 32-38.
Erhardt, D and Mecklenburg, M F and Tumosa, C S and McCormick-Goodhart, M (1995) Determination of allowable RH fluctuations. Newsletter (Western Association for Art Conservation) . pp. 19-23. ISSN 1052-0066
Iñigo, A C and Vicente-Tavera, S (2001) Different degrees of stone decay on the inner and outer walls of a Cloister. Building and Environment, 36 (8). pp. 911-917. ISSN 03601323
Jakieła, S and Bratasz, L and Kozłowski, R (2008) Numerical modeling of moisture movement and related stress field in lime wood subjected to changing climate conditions. Wood Science and Technology, 42 (1).
Legnér, Mattias and Bylund Melin, Charlotta (2013) Quantification, the link to relate climate-induced damage to indoor environments in historic buildings. Climate for Collections - Standards and Uncertainties. Postprints of the Munich Climate Conference 7 to 9 November 2012. pp. 311-324.
Mecklenburg, M F (2007) Determining the Acceptable Ranges of Relative Humidity And Temperature in Museums and Galleries: Part 2, Structural Response to Temperature. Smithsonian Museum Conservation Institute.
Mecklenburg, M F (2007) Determining the Acceptable Ranges of Relative Humidity And Temperature in Museums and Galleries: Part 1, Structural Response to Relative Humidity. Smithsonian Museum Conservation Institute.
Michalski, Stefan (2013) Stuffing everything we know about mechanical properties into one collection simulation. Climate for Collections - Standards and Uncertainties. Postprints of the Munich Climate Conference 7 to 9 November 2012. pp. 349-362.
Muñoz-González, Carmen Ma and León-Rodríguez, A.L. and Campano-Laborda, M. and Teeling, C. and Baglioni, R. (2018) The assessment of environmental conditioning techniques and their energy performance in historic churches located in Mediterranean climate. Journal of Cultural Heritage, 34. ISSN 12962074
van Duin, Paul (2013) What real museum objects can teach us about the influence of climate conditions. Climate for Collections - Standards and Uncertainties. Postprints of the Munich Climate Conference 7 to 9 November 2012. pp. 271-282.
von Reden, Anna (2013) Uncertainties in the interaction between a canvas painting support and moisture. Climate for Collections - Standards and Uncertainties. Postprints of the Munich Climate Conference 7 to 9 November 2012. pp. 247-256.
Bratasz, L and Slawomir, J and Kozłowski, R (2005) Allowable thresholds in dynamic changes of microclimate for wooden cultural objects: monitoring in situ and modelling. In: Triennial meeting (14th), The Hague, 12-16 September 2005: preprints. James & James . ISBN 1-84407-253-3
Knight, B and Thickett, D (2007) Determination of response rates of wooden objects to fluctuating relative humidity in historic properties. In: Museum Microclimates. National Museum of Denmark. ISBN 978-87-7602-080-4
Mecklenburg, M F (2007) Micro Climates and Moisture Induced Damage to Paintings. In: Museum Microclimates. National Museum of Denmark. ISBN 978-87-7602-080-4
Mecklenburg, M F and Tumosa, C S and Erhardt, D (1998) Structural response of painted wood surfaces to changes in ambient relative humidity. In: Painted wood: history and conservation (Part 6: Scientific Research). The Getty Conservation Institute , pp. 464-483. ISBN 0-89236-501-3
Michalski, S (1993) Relative humidity: a discussion of correct/incorrect values. In: ICOM Committee for Conservation tenth triennial meeting, Washington, DC, 22-27 August 1993: preprints. International Council of Museums Committee for Conservation . ISBN 0-935868-65-8
Olstad, T and Haugen, A (2007) Warm feet and cold art: is this the solution? Polychrome wooden ecclesiastical art - Climate and dimensional changes. In: Museum Microclimates. National Museum of Denmark. ISBN 978-87-7602-080-4
Arfvidsson, J. and Bjelke-Holtermann, B. and Mattsson, J. (2015) Status determination of historical buildings: an example. In: 1st International Symposium on Building Pathology, Porto.
Arfvidsson, J. and Bjelke-Holtermann, B. and Mattsson, J. (2014) A method for status determination of historical buildings. In: NSB 2014 10th Nordic Symposium on Building Physics, 15-19 June 2014, Lund, Sweden.
Olstad, T and Haugen, A and Nilsen, T (2001) Polychrome wooden ecclesiastical art - Climate and dimensional changes. NIKU Publikasjoner (110). NIKU. ISBN 1502-4903
Bylund Melin, Charlotta (2018) Wooden objects in historic buildings: Effects of dynamic relative humidity and temperature. Doctoral thesis, Göteborgs universitet.
Wessberg, Magnus (2019) Indoor climate analysis and model based control of massive construction historic buildings. Doctoral thesis, Czech Technical University in Prague.