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Wood Material Science & Engineering Volume 14, 2019 - Issue 4: 7th Forum Wood Building Nordic, Växjö, Sweden, 27-28 September 2018
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Review Article

Material properties of wooden surfaces used in interiors and sensory stimulation

Elaheh JalilzadehazhariForest and Wood Technology, Linnaeus University, Växjö, SwedenCorrespondence[email protected]
ORCID Iconhttp://orcid.org/0000-0003-1835-7158View further author information
ORCID Icon &
Jimmy JohanssonForest and Wood Technology, Linnaeus University, Växjö, SwedenORCID Iconhttp://orcid.org/0000-0003-0130-3356View further author information
ORCID Icon
Pages 192-200 | Received 07 Mar 2018, Accepted 25 Jan 2019, Published online: 12 Feb 2019

References

  • Aries, M., Aarts, M. and van Hoof, J. (2015) Daylight and health: A review of the evidence and consequences for the built environment. Lighting Research & Technology, 47(1), 6–27. doi: 10.1177/1477153513509258
  • Bamba, I. and Azuma, K. (7–12 July 2014) Relation of Changes in Cerebral Blood Flow and Diffusion Material Caused by Smelling Wood. ed. International society of indoor air quality and climate (ISIAQ) (Hong Kong).
  • Bhatta, S. R., Tiippana, K., Vahtikari, K., Hughes, M. and Kyttä, M. (2017) Sensory and emotional perception of wooden surfaces through fingertip touch. Frontiers in Psychology, 8, 1–12. doi: 10.3389/fpsyg.2017.00367
  • Brand, G. and Millot, J.-L. (2001) Sex differences in human olfaction: between evidence and enigma. The Quarterly Journal of Experimental Psychology: Section B, 54(3), 259–270. doi: 10.1080/02724990143000045
  • Bucur, V. (2006) Acoustics of Wood. 2nd ed., (Heidelberg, Germany: Springer series in wood science)
  • Burnard, M. D. and Kutnar, A. (2015) Wood and human stress in the built indoor environment: A review. Wood Science and Technology, 49(5), 969–986. doi: 10.1007/s00226-015-0747-3
  • Bysheim, K., Nyrud, A. and Strobel, K. (2016) Building Materials and Well-Being in Indoor Environments (Oslo: Norsk Tretenisk Institutt).
  • Dayawansa, S., Umeno, K., Takakura, H., Hori, E., Tabuchi, E., Nagashima, Y., Oosu, H., Yada, Y., Suzuki, T., Ono, T. and Nishijo, H. (2003) Autonomic responses during inhalation of natural fragrance of “Cedrol” in humans. Autonomic Neuroscience, 108(1), 79–86. doi: 10.1016/j.autneu.2003.08.002
  • Diener, E. (1984) Subjective well-being. Psychological Bulletin, 95(3), 542–575. doi: 10.1037/0033-2909.95.3.542
  • Dubey, M. K., Pang, S. and Walker, J. (2012) Oil uptake by wood during heat-treatment and post-treatment cooling, and effects on wood dimensional stabilityEinfluss der Ölaufnahme von Holz während der Hitzebehandlung und anschließender Kühlung auf die Dimensionsstabilität. European Journal of Wood and Wood Products, 70(1-3), 183–190. doi: 10.1007/s00107-011-0535-1
  • Dzulkifli, M. A. and Mustafar, M. F. (2013) The influence of colour on memory performance: A review. The Malaysian Journal of Medical Sciences: MJMS, 20(2), 3.
  • Edwards, L. and Torcellini, P. A. (2002) A Literature Review of the Effects of Natural Light on Building Occupants (National Renewable Energy Laboratory Golden, CO). doi:10.2172/15000841.
  • Esteves, B., Ribeiro, F., Cruz-Lopes, L. and Ferreira, J. V. (2017) Densification and heat treatment of maritime pine wood. Wood Research, 62(3), 373–388.
  • Fisk, W. and Seppanen, O. (2007) Providing better indoor environmental quality brings economic benefits. Proceedings of Clima 2007 WellBeing Indoors, Helsinki, FInland, 3–12.
  • Fredriksson, M. (2010) A Critical Literature Review of Moisture and Temperature Conditions in Wood Exposed Outdoors Above Ground (Lund, Sweden: Division of Building Materials, Lund Institute of Technology).
  • Fujisaki, W., Tokita, M. and Kariya, K. (2015) Perception of the material properties of wood based on vision, audition, and touch. Vision Research, 109, 185–200. doi: 10.1016/j.visres.2014.11.020
  • Glass, S. V. and Zelinka, S. L. (2010) Moisture relations and physical properties of wood. In Wood Handbook: Wood as an Engineering Material: Chapter 4. Centennial ed. General Technical Report FPL; GTR-190 (Madison, WI: US Dept. of Agriculture, Forest Service, Forest Products Laboratory), pp. 4.1–4.19., 190, 4.1–4.19.
  • Godshall, W. and Davis, J. H. (1969) Acoustical Absorption Properties of Wood-Base Panel Materials (Madison, WI: Forest Products Lab Madison Wis).
  • Granström, K., 2005. Emissions of volatile organic compounds from wood. (Doctorate). Karlstad University.
  • Gustavsson, L., Pingoud, K. and Sathre, R. (2006) Carbon dioxide balance of wood substitution: comparing concrete-and wood-framed buildings. Mitigation and Adaptation Strategies for Global Change, 11(3), 667–691. doi: 10.1007/s11027-006-7207-1
  • Hemström, K., Mahapatra, K. and Gustavsson, L. (2010). The perceptions of Swedish architects and structural engineers towards use of wood frames in multi-storey buildings. SB10, Sustainable Community, Espoo, Finland, September 22–24.
  • Hirata, S., Kageyama, I. and Ohta, M. 2012. Eye fatigue-reduction effect of wood rim cover on liquid crystal display. Journal of Wood Science, 58(2), 163–168. doi: 10.1007/s10086-011-1231-9
  • Hiruma, T., Yabe, H., Sato, Y., Sutoh, T. and Kaneko, S. (2002) Differential effects of the hiba odor on CNV and MMN. Biological Psychology, 61(3), 321–331. doi: 10.1016/S0301-0511(02)00091-1
  • Hon, D. N.-S. and Shiraishi, N. (eds.) (2000) Wood and Cellulosic Chemistry, Revised, and Expanded (New York: CRC Press).
  • Huang, S., Xiong, J., Cai, C., Xu, W. and Zhang, Y. (2016) Influence of humidity on the initial emittable concentration of formaldehyde and hexaldehyde in building materials: Experimental observation and correlation. Scientific Reports, 6, 23388. doi: 10.1038/srep23388
  • Hume, K. and Ahtamad, M. (2013) Physiological responses to and subjective estimates of soundscape elements. Applied Acoustics, 74(2), 275–281. doi: 10.1016/j.apacoust.2011.10.009
  • Høibø, O. and Nyrud, A. Q. (2010) Consumer perception of wood surfaces: The relationship between stated preferences and visual homogeneity. Journal of Wood Science, 56(4), 276–283. doi: 10.1007/s10086-009-1104-7
  • Ikei, H., Song, C., Lee, J. and Miyazaki, Y. (2015a) Comparison of the effects of olfactory stimulation by air-dried and high-temperature-dried wood chips of Hinoki cypress (Chamaecyparis obtusa) on prefrontal cortex activity. Journal of Wood Science, 61(5), 537–540. doi: 10.1007/s10086-015-1495-6
  • Ikei, H., Song, C. and Miyazaki, Y. (2015b) Physiological effect of olfactory stimulation by Hinoki cypress (Chamaecyparis obtusa) leaf oil. Journal of Physiological Anthropology, 34(1), 44. doi: 10.1186/s40101-015-0082-2
  • Ikei, H., Song, C. and Miyazaki, Y. (2016) Effects of olfactory stimulation by α-pinene on autonomic nervous activity. Journal of Wood Science, 62(6), 568–572. doi: 10.1007/s10086-016-1576-1
  • Ikei, H., Song, C. and Miyazaki, Y. (2017) Physiological effects of wood on humans: a review. Journal of Wood Science, 63, 1–23. doi: 10.1007/s10086-016-1597-9
  • IWBI, T. I. W. B. I. (2018) Well v.2. The next version of the WELL Building Standard (The International WELL Building Institute (IWBI)).
  • Jeong, I. C., Kang, H. and Yeom, H. (2014) Effects of skin surface temperature on Photoplethysmograph. Journal of Healthcare Engineering, 5(4), 429–438. doi: 10.1260/2040-2295.5.4.429
  • Jiménez, P., Dunkl, A., Eibel, K., Denk, E., Grote, V., Kelz, C. and Moser, M. (2016) Wood or Laminate?—psychological research of customer expectations. Forests, 7(11), 275. doi: 10.3390/f7110275
  • Joung, D., Song C., Ikei H. and Okuda, T. (2014) Physiological and psychological effects of olfactory stimulation with D-limonene. Advances in Horticultural Science, 28(2), 90–94.
  • Kansara, T. (2013) Post occupancy monitoring: An introduction. Environmental Management and Sustainable Development, 2(2), 86. doi: 10.5296/emsd.v2i2.4215
  • Kats, G., Alevantis, L., Berman, A., Mills, E. and Perlman, J. (2003) The Costs and Financial Benefits of Green Buildings. A Report to California’s Sustainable Building Task Force. Available at: https://www.scirp.org/(S(351jmbntvnsjt1aadkposzje))/reference/ReferencesPapers.aspx?ReferenceID=1754115.
  • Keeler, M. and Vaidya, P. (2016) Fundamentals of Integrated Design for Sustainable Building (New Jersey, USA: John Wiley & Sons).
  • Kreith, F. and Chhabra, R. P. (eds.) (2017) CRC Handbook of Thermal Engineering (Boca Raton, FL: CRC press).
  • Kurjatko, S., Kúdela, J. and Lagaňa, R. (eds.) (2006) Wood Structure and Properties’ 06 (Zvolen, Slovakia: Arbora Publishers).
  • Kutz, M. (2005) Handbook of Environmental Degradation of Materials (Delmar, NY: William Andrew).
  • LBC, I. L. B. I. (2016) Living building challenges 3.1. A Visionary Path to a Regenerative Future (USA: International Living Building Institute, International Living, Future Institute and Cascadia Green Building Council).
  • Li, Q., Kobayashi, M., Wakayama, Y., Inagaki, H., Katsumata, M., Hirata, Y., Hirata, K., Shimizu, T., Kawada, T., Park, B. J., Ohira, T., Kagawa, T. and Miyazaki, Y. (2009) Effect of phytoncide from trees on human natural killer cell function. International Journal of Immunopathology and Pharmacology, 22(4), 951–959. doi: 10.1177/039463200902200410
  • Li, Q., Nakadai, A., Matsushima, H., Miyazaki, Y., Krensky, A. M., Kawada, T. and Morimoto, K. (2006) Phytoncides (wood essential oils) induce human natural killer cell activity. Immunopharmacology and Immunotoxicology, 28(2), 319–333. doi: 10.1080/08923970600809439
  • Lundström, J. N., Hummel, T. and Olsson, M. J. (2003) Individual differences in sensitivity to the odor of 4, 16-androstadien-3-one. Chemical Senses, 28(7), 643–650. doi: 10.1093/chemse/bjg057
  • Mack, C. C., Cinel, C., Davies, N., Harding, M. and Ward, G. (2017) Serial position, output order, and list length effects for words presented on smartphones over very long intervals. Journal of Memory and Language, 97, 61–80. doi: 10.1016/j.jml.2017.07.009
  • Mahapatra, K. and Gustavsson, L. (2009) Cost-effectiveness of using wood frames in the production of multi-story buildings in Sweden.
  • Månsson, L. (2003) Light & Room, Guide for Planning of Indoor Lighting [In Swedish: Ljus & rum: planeringsguide för belysning inomhus] (Stockholm, Sweden: Ljuskultur).
  • Marek, M. and MD, C. (1996) Heart rate variability, standards of measurement, physiological interpretation, and clinical use. Task Force of the European Society of Cardiology and the North American Society of Pacing and Electrophysiology. Circulation, 93, 1043–1065. doi: 10.1161/01.CIR.93.5.1043
  • Morikawa, T., Miyazaki, Y. and Kobayashi, S. (1998) Time-series variations of blood pressure due to contact with wood. Journal of Wood Science, 44(6), 495–497. doi: 10.1007/BF00833417
  • Nakamura, M. and Kondo, T. (2007) Characterization of distribution pattern of eye fixation pauses in observation of knotty wood panel images. Journal of Physiological Anthropology, 26(2), 129–133. doi: 10.2114/jpa2.26.129
  • National board of housing building and planning (2015a) Building regulation, [In Swedish: Regelsamling för byggande, BBR]. National board of housing, building and planning, [In Swedish: Boverket].
  • National board of housing building and planning (2015b) Building regulation, Chapter 7 Noise protection [In Swedish: Boverkets byggregler, BFS 2011:6 ändrad t.o.m. BFS 2015:3. Avsnitt 7 Bullerskydd]. National board of housing, building and planning, [In Swedish: Boverket].
  • National board of housing building and planning (2018) In Swedish Boverket [online]. Accessed January 2018, available at: http://www.boverket.se/en/start-in-english/.
  • Navi, P. and Sandberg, D. (2012) Thermo-hydro-mechanical Wood Processing (New York: CRC Press).
  • Nordvik, E., Schütte, S. and Broman, N. O. (2009) People’s perceptions of the visual appearance of wood flooring: A Kansei engineering approach. Forest Products Journal, 59(11), 67–74. doi: 10.13073/0015-7473-59.11.67
  • Nyrud, A. Q. and Bringslimark, T. (2010) Is interior wood use psychologically beneficial? A review of psychological responses toward wood. Wood and Fiber Science, 42(2), 202–218.
  • Nyrud, A., Bysheim, K. and Bringslimark, T. (2010) Health benefits from wood interior in a hospital room. ed. Proceedings of the International Convention of Society of Wood Science and Technology and United Nations Economic Commission for Europe (Geneva, Switzerland).
  • Obataya, E., Minato, K. and Tomita, B. (2001) Influence of moisture content on the vibrational properties of hematoxylin-impregnated wood. Journal of Wood Science, 47(4), 317–321. doi: 10.1007/BF00766720
  • Olarescu, C. M., Campean, M. and Coşereanu, C. (2015) Thermal conductivity of solid wood panels made from heat-treated spruce and limewood strips. Pro Ligno, 11(4), 377–382.
  • Ozyhar, T., Hering, S., Sanabria, S. J. and Niemz, P. (2013) Determining moisture-dependent elastic characteristics of beech wood by means of ultrasonic waves. Wood Science and Technology, 47(2), 329–341. doi: 10.1007/s00226-012-0499-2
  • Park, S. H., Lee, P. J. and Jeong, J. H. (2017) Influence of noise sensitivity on physiological responses to floor impact sounds. 24th International Congress on sound and vibration ICSV24 (London, UK).
  • Rice, J., Kozak, R. A., Meitner, M. J. and Cohen, D. H. (2007) Appearance wood products and psychological well-being. Wood and Fiber Science, 38(4), 644–659.
  • Riemer, H., Shavitt, S., Koo, M., Markus, H. R. (2014) Preferences don’t have to be personal: Expanding attitude theorizing with a cross-cultural perspective. Psychological Review, 121(4), 619–648. doi: 10.1037/a0037666
  • Ross, R. J. (2010) Wood handbook: Wood as an engineering material.
  • Rowell, R. M. (2012) Handbook of Wood Chemistry and Wood Composites. 2nd ed., (New York: CRC press).
  • Sair, S., Oushabi, A., Kammouni, A., Tanane, O., Abboud, Y., Oudrhiri Hassani, F., Laachachi, A. and El Bouari, A. (2017) Effect of surface modification on morphological, mechanical and thermal conductivity of hemp fiber: Characterization of the interface of hemp –polyurethane composite. Case Studies in Thermal Engineering, 10, 550–559. doi: 10.1016/j.csite.2017.10.012
  • Sakuragawa, S., Kaneko, T. and Miyazaki, Y. (2008) Effects of contact with wood on blood pressure and subjective evaluation. Journal of Wood Science, 54(2), 107–113. doi: 10.1007/s10086-007-0915-7
  • Sakuragawa, S., Miyazaki, Y., Kaneko, T. and Makita, T. (2005) Influence of wood wall panels on physiological and psychological responses. Journal of Wood Science, 51(2), 136–140. doi: 10.1007/s10086-004-0643-1
  • Sandberg, D., Haller, P. and Navi, P. (2013) Thermo-hydro and thermo-hydro-mechanical wood processing: An opportunity for future environmentally friendly wood products. Wood Material Science & Engineering, 8(1), 64–88. doi: 10.1080/17480272.2012.751935
  • Schauerte, T. (2010) Wooden house construction in Scandinavia–a model for Europe. ed. Proceedings of the 16th Internationales Holzbau-Forum.
  • Seddeq, H. S. (2009) Factors influencing acoustic performance of sound absorptive materials. Australian Journal of Basic and Applied Sciences, 3(4), 4610–4617.
  • Seppänen, O. and Fisk, W. (2006) A procedure to estimate the cost effectiveness of the indoor environment improvements in office work. In Creating the Productive Workplace, 2nd edn (London, Taylor & Francis), 407–433.
  • SGBC, S. G. B. C. (2017) Miljöbyggnad Metodik för nyproducerade och befintliga byggnader–Manual 2.1 [Electronic](Miljöbyggnad. Methods for newly constructed and existing buildings.–Manual 3.0. Swedish).
  • Sharma, A. (2011) Regional Cerebral blood flow. In: J. S. Kreutzer, J. DeLuca and B. Caplan (eds.) Encyclopedia of Clinical Neuropsychology (New York, NY: Springer New York), 2135–2136.
  • Shengwo, S. and Fangshuo, M. (2010) Study on wooden micro-perforated panel and its application ed. 20th International Congress on Acoustics, ICA 2010 (Sydney, Australia).
  • Song, B., Peng, L., Fu, F., Liu, M. and Zhang, H. (2016) Experimental and theoretical analysis of sound absorption properties of finely perforated wooden panels. Materials, 9(11), 942. doi: 10.3390/ma9110942
  • Standard SS-EN 14298 (2017) Standard SS-EN 14298, Sawn Wood - Assessment of Drying Quality [In Swedish: Sågat virke - Bedömning av torkningskvalitet] (Stockholm, Sweden: Swedish Standard Institute).
  • Strobel, K., Nyrud, A. Q. and Bysheim, K. (2017) Interior wood use: Linking user perceptions to physical properties. Scandinavian Journal of Forest Research, 32(8), 1–9.
  • Sueyoshi, S., Miyazaki, Y. and Morikawa, T. (2004a) Physiological and psychological responses to a heavy floor-impact sound generated by dropping an automobile tire in a wooden house. Journal of Wood Science, 50(6), 490–493. doi: 10.1007/s10086-003-0595-x
  • Sueyoshi, S., Miyazaki, Y. and Morikawa, T. (2004b) Physiological and psychological responses to prolonged light floor-impact sounds generated by a tapping machine in a wooden house. Journal of Wood Science, 50(6), 494–497. doi: 10.1007/s10086-003-0599-6
  • Swedish Standard Institute (2018) [online]. Accessed January 2018, available at: https://www.sis.se/en/
  • Tell, B. V. (1990) Surface treatment [In Swedish: Ytbehandling]. Grsphic system AB Gothenburg, Sweden: Wood Technology Center [In Swedish: Träteknik Centrum].
  • Trichkov, N. and Bardarov, N. (5–7 November 2010) Influence of finish coating on the acoustic properties of wood. ed. Innovations in Forest Industry and Engineering Design (Sofia, Bulgaria).
  • Tsunetsugu, Y., Miyazaki, Y. and Sato, H. (2002) The visual effects of wooden interiors in actual-size living rooms on the autonomic nervous activities. Journal of Physiological Anthropology and Applied Human Science, 21(6), 297–300. doi: 10.2114/jpa.21.297
  • Tsunetsugu, Y., Miyazaki, Y. and Sato, H. (2005) Visual effects of interior design in actual-size living rooms on physiological responses. Building and Environment, 40(10), 1341–1346. doi: 10.1016/j.buildenv.2004.11.026
  • Tsunetsugu, Y., Miyazaki, Y. and Sato, H. (2007) Physiological effects in humans induced by the visual stimulation of room interiors with different wood quantities. Journal of Wood Science, 53(1), 11–16. doi: 10.1007/s10086-006-0812-5
  • U.S. Department of Agriculture, Forest service and Laboratory, F. P. (2007) The Encyclopedia of Wood (Washington, DC, USA: Skyhourse publishing, Skyhourse publishing U.S. Department of Agriculture, Forest service and Forest Products Laboratory).
  • Van Kuijk, F. (1991) Effects of ultraviolet light on the eye: role of protective glasses. Environmental Health Perspectives, 96, 177–184. doi: 10.1289/ehp.9196177
  • Wang, S.-Y., Lin, F.-C. and Lin, M.-Y. (2000) Thermal properties of interior decorative material and contacted sensory cold-warmth I: relation between skin temperature and contacted sensory cold-warmth. Journal of Wood Science, 46(5), 357–363. doi: 10.1007/BF00776396
  • Wargocki, P. (2003) Estimate of an economic benefit from investment in improved indoor air quality in an office building. ed. 7th International Conference on healthy buildings 2003, 382–387.
  • Watchman, M., Potvin, A. and Demers, C. M. (2016) Wood and comfort: A Comparative case study of Two Multifunctional rooms. BioResources, 12(1), 168–182. doi: 10.15376/biores.12.1.168-182
  • Wegst, U. G. (2006) Wood for sound. American Journal of Botany, 93(10), 1439–1448. doi: 10.3732/ajb.93.10.1439
  • Wood Handbook (2010) Wood handbook-Wood as an engineering material.
  • Yaşar, E. and Erdoğan, Y. (2008) Strength and thermal conductivity in lightweight building materials. Bulletin of Engineering Geology and the Environment, 67(4), 513–519. doi: 10.1007/s10064-008-0166-x

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