Silesian University of Technology
Subject: Architecture , Civil Engineering , Engineering, Environmental
ISSN: 1899-0142
SEARCH WITHIN CONTENT
Dorota WINNICKA-JASŁOWSKA / Małgorzata JASTRZĘBSKA / Joanna TYMKIEWICZ / Dorota WINNICKA-JASŁOWSKA / Małgorzata JASTRZĘBSKA / Joanna TYMKIEWICZ
Keywords : Ergonomics, Laboratories, Laboratory process technology, Users needs
Citation Information : Architecture, Civil Engineering, Environment. Volume 10, Issue 2, Pages 35-41, DOI: https://doi.org/10.21307/acee-2017-018
License : (BY-NC-ND 4.0)
Received Date : 08-March-2017 / Accepted: 29-April-2017 / Published Online: 28-August-2018
The paper is the first, introductory part to the description of an interdisciplinary research project in the modernization of laboratories at The Faculty of Civil Engineering, The Silesian University of Technology. The scope of the paper is to disseminate the current state of knowledge of ergonomics and issues involved in the technology of laboratory processes, describing the methodology of experiments carried out in geotechnical laboratories, their equipment and spatial requirements in view of the users – research staff. The course and results of the pre-design studies are presented in: PREDESIGN STUDIES ON THE EXAMPLE OF THE MODERNIZATION OF GEOTECHNICAL LABORATORIES.
Content not available Share
[1] Charytonowicz J. (1994). Zasady kształtowania laboratoryjnych stanowisk pracy (Principles of shaping laboratory work stands). Monograph. Wrocław: Publishing House of Wrocław Technical University, (in Polish).
[2] Kliment S.A. (2003). Series Founder and Editor, Neuman D.J.; Building Type Basics for College and University Facilities. Canada: John Wiley&Sons.inc.
[3] Cieśla-Gałeczka K. (2012). Kształtowanie współczesnych funkcji nauki oraz ich rola w przestrzeni miejskiej.Wybrane obiekty (Shaping of modern functions of science and their role in city space. Selected objects). Ph.D. dissertation, supervised by N. Juzwa, Faculty of Architecture, The Silesian University of Technology. Gliwice (in Polish).
[4] Winnicka-Jasłowska D. (2012). Creating a functional and special program for a new building of the Faculty of the Biomedical Engineering, The Silesian University of Technology. Architecture Civil Engineering Environment 5(3), Gliwice.
[5] Winnicka-Jasłowska D. (2014). Ergonomic Solutions of Facilities and Laboratory Work-Stands at Universities. Programming of Ergonomic Technological Lines – Case Study, [in:] Universal access in human-computer interaction. 8th International Conference UAHCI 2014, held as part of HCI International 2014, Heraklion, Crete, Greece, June 22-27, 2014. Proceedings. Pt. 4, Design for all and accessibility practice, (eds.) Constantine Stephanidis, Margherita Antona. Cham: Springer, 2014, Lecture Notes in Computer Science 8516.
[6] Gryczmański M. (2009). State of the art in modelling of soil behaviour at small strains. Architecture Civil Engineering Environment 2(1), 61–80.
[7] Jastrzębska M., Łupieżowiec M., Uliniarz R., Jaroń A. (2014). Analysis of the vibration propagation in the subsoil, Studia Geotechnica et Mechanical XXXVI(3), 9–18.
[8] Jastrzębska M. (2010). Badania zachowania się gruntów spoistych poddanych obciążeniom cyklicznym w zakresie małych odkształceń (Investigations of the behaviour of cohesive soils subjected to cyclic loads in the area of small deformations). Scientific Journals of The Silesian University of Technology, Gliwice, Poland, 216 (in Polish).
[9] Jastrzębska M. (2002). Kalibrowanie i weryfikacja jednopowierzchniowego sprężysto-plastycznego modelu gruntu o silnie nieliniowym wzmocnieniu anizotropowym (Calibration and verification of a single surface elasto-plasic model for soil with strongly nonlinear anisotropic hardening law), PhD thesis, Department of Geotechnics, The Silesian University of Technology, Gliwice (in Polish).
[10] Jastrzębska M. (2010). The external and internal measurement effect on shear modulus distribution within cyclic small strains in triaxial studies on cohesive soil. Proc. International Conference on Experimental Mechanics ICEM14 Poitiers, France, EDP Sciences, a, 1–8.
[11] Kalinowska M., Jastrzębska M. (2014). Behaviour of cohesive soil subjected to low-frequency cyclic loading in strain-controlled tests, Studia Geotechnica et Mechanica XXXVI(3), 21–34.
[12] Kalinowska M. (2013). Określenie kryterium zniszczenia w gruntach spoistych poddanych wolnozmiennym obciążeniom cyklicznym (Determination of the destruction criterion for cohesive soils subjected to slow cyclic loads). MSc thesis supervised by M. Jastrzębska, Faculty of Civil Engineering, The Silesian University of Technology. Gliwice (in Polish).
[13] Konsek Sz.,WalasM. (2010). Badania zachowania się gruntów spoistych poddanych obciążeniu cyklicznemu w aparacie trójosiowym oraz w aparacie bezpośredniego ścinania (Tests on the behaviour of cohesive soils subjected to cyclic loads by means of a triaxial apparatus and direct shear apparatus). MSc thesis supervised by M. Jastrzębska, Faculty of Civil Engineering, The Silesian University of Technology. Gliwice (in Polish).
[14] Kowalska M. (2009). Identyfikacja parametryczna modeli gruntów w zagadnieniach geotechniki (Parametric identification of soil models in geotechnical problems), PhD thesis, Department of Geotechnics, The Silesian University of Technology, Gliwice (in Polish).
[15] Jastrzębska M., Kowalska M. (2016). Triaxial tests on weak cohesive soils – some practical remarks (part 2). Architecture Civil Engineering Environment 9(3), 81–94.
[16] Kowalska M., Jastrzębska M. (2016). Triaxial tests on weak cohesive soils – some practical remarks (part 1). Architecture Civil Engineering Environment 9(3), 71–80.
[17] Krzyk P. (2013). Parametry wytrzymałościowe gruntów spoistych na podstawie badań w aparacie bezpośredniego ścinania i w aparacie trójosiowym (Strength parameters of cohesive soils on the grounds of direct shear apparatus and triaxial apparatus).MSc thesis supervised by M. Jastrzębska, Faculty of Civil Engineering, The Silesian University of Technology. Gliwice (in Polish).