Timber buildings in modern housing


Vol. 568 (12) 2019 / środa, 1 stycznia, 2020

(InPolish)

P. Sulik,

Volume 568: Issue 12
Pages 40-42
Accepted for publication: 20.08.2019 r.

The paper presents typical solutions for multi-family wooden buildings. Construction solutions were analysed and examples of implementation were presented, among others from Germany, Austria and Poland. Keywords: wood (timber); fire safety; durability; multi-family housing.
[1] Chun N.,M. Popovski. 2015.Mid-riseWood-Frame Construction Handbook. Special Publication SP-57E, FP Innovations, CanadianWood Council National Research Council, ISBN 978-0-86488-566-1. [2] Izydorczyk D., B. Sędłak, Paweł Sulik. 2018. „The issue of proper reception of timber fireproof doors”. SGGW Forestry and Wood Technology, No 104, s. 360-367. [3] Just Alar, Daniel Brandon, Joakim Norén. 2016. Execution of timber structures and fire, WCTE 2016,World Conference on Timber Engineering, Vienna, Austria, sierpień 22-25. [4] Kimbar G., P. Roszkowski, Paweł Sulik. 2018. Calculation methods of determining charring depth of timber walls andAnnals ofWarsaw University of Life Sciences – SGGW Forestry and Wood Technology, 2018, No 101, s. 71-77. [5] Kinowski J., Paweł Sulik, B. Sędłak. 2018. Behaviour of wood-based panels during a fire. SGGW Forestry and Wood Technology, No 104, s. 375 – 380. [6] Östman Birgit, Lars Boström. 2015. „Fire protection ability of wood covering”. Fire Technology, Vol. 51, no 6, p. 1475 – 1493. [7] Papis B., T. Gwiżdż, Paweł Sulik. 2018. Spreading of fire by roofs from oak, Aspen and pine. SGGW Forestry and Wood Technology, No 104, s. 368 – 374. [8] Roszkowski P., Paweł Sulik, B. Sędłak. 2018. The main issues related with fire resistance classification of timber building elements–part 2. SGGW Forestry and Wood Technology, No 104, s. 316 – 325. [9] Sędłak B., Paweł Sulik P. 2018. General rules for testing fire resistance of timber elements. Part 2 – test frames, test load, equipment measuring properties of the test specimens and their surroundings, conditions and procedure of testing, performance criteria. Annals of Warsaw University of Life Sciences – SGGW Forestry and Wood Technology, No 101, s. 32 – 44. [10] Sędłak B., Paweł Sulik, P. Roszkowski. 2018. The main issues related with fire resistance classification of timber building elements – part 1. SGGW Forestry and Wood Technology, No 104, s. 307 – 315. [11] Sulik Paweł. 2018. „Bariery prawne wykorzystania drewna konstrukcyjnego w budownictwie”. Materiały Budowlane 546 (2): 90 – 92. DOI: 10.15199/33.2018.12.29. [12] Sulik Paweł, B. Sędłak. 2018. General rules for testing fire resistance of timber elements. Part 1 – introduction, sample elements, mounting structures and testing furnaces.Annals ofWarsaw University of Life Sciences – SGGW Forestry and Wood Technology, No 101, s. 20 – 31. [13] Sulik Paweł. 2018. Fire spread by wooden elements used in constriction in polish legislation. SGGW Forestry and Wood Technology, No 104, s. 353 – 359.

dr inż. Paweł Sulik, Instytut Techniki Budowlanej; Zakład Badań Ogniowych;

dr inż. Paweł Sulik, Instytut Techniki Budowlanej; Zakład Badań Ogniowych;

Adres do korespondencji: p.sulik@itb.pl

Full paper is available at Publisher house SIGMA-NOT Sp. z o.o. webpage

DOI: 10.15199/33.2019.12.05