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to Fabric Wicking Performance. J. Text. Inst. 97 (2), 119–128.  Sreenivasan, S. (2009). Total Wear Comfort Index as an Objective Parameter for Characterization of overall Wear ability of Cotton Fabrics. J. Eng. Fiber. Fabr. 4 (4), 35-40.  Malik, Z. A. (2011). Development of Model to Predict Tensile Strength of Cotton Woven Fabrics. J. Eng. Fiber Fabr. 6 (4), 41-45.  Fatahi, I. (2010). Assessment of Relationship between Air Permeability of Woven Fabrics and its Mechanical Properties. Fibers Text. East. Eur. 18 (6), 68–71.  Nayak, R. K. (2009). Comfort
In buildings with steel-concrete composite floors, joints are designed to transmit mainly hogging bending moment. In case of the large horizontal loads due to wind, earthquake or accidental events, sagging bending moments in a joint can also occur. Additionally, large deformations of the structure cause tying and prying effects. In the paper, a mechanical model based on “component method” for evaluation of characteristics of the composite joint is presented. The influence of tying and prying actions on distribution of the internal forces in a joint is also analyzed. The procedure for calculation of the characteristics of the composite joint with bolted endplate connection is elaborated too.
of the model The present work develops a fully thermo-mechanical coupled 2D plane strain finite element turning model for mild steel using Abaqus/Explicit software. This thermomechanical model is very much essential to understand the effect of temperature on the machining process and wear process [ 20 , 21 ]. The simulation is carried out for three different sets of conditions as mentioned in Table 1 . The work piece is defined as deformable and the tool is defined as discrete rigid. A rigid modeling tool reduces solution time and does not greatly affect the
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. (2011). Metal magnetic memory testing of welded joints of ferritic and austenitic steels, NDT&E International , Vol. 44, pp. 305-310. DOI:10.1016/j.ndteint.2011.01.008.  Roskosz M., Rusin A. & Kotowicz J. (2010): The metal magnetic memory method in the diagnostics of power machinery components , Journal of Achievements in Materials and Manufacturing Engineering , Vol. 43(1), pp. 362-370.  Viana A., Rouve L-L., Cauffet G. & Coulomb J-L. (2011). Analytical Model for External Induction Variations of a Ferromagnetic Cylinder Undergoing High Mechanical Stresses
Influence of Parameters of FDM Technology on the Selected Mechanical Properties of Models , Procedia Engineering, Vol. 192, 2017, 463–468.  Salazar–Martín A.G., Pérez M.A., García-Granada A.A., Reyes G, Puigoriol-Forcada J.M., A Study of Creep in Polycarbonate Fused Deposition Modelling Parts , Materials & Design, Vol. 141, 2018, 414–425.  Adamczak S., Makieła W., Stępień K., Investing advantages and disadvantages of the analysis of a geometrical surface structure with the use of Fourier and wavelet transform , Metrology and Measurement System, Vol. XVII, 2010
przejściowych. 57. Sympozjon Modelowanie w Mechanice, Zeszyt streszczeń . 130. Zielińska, M., Zboiński G. (2018b). Solid-to-shell transition elements in adaptive analysis of model structures of a complex mechanical description. AIP Conference Proceedings , 1922, 040004. Zielińska, M., Zboiński, G. (2019). Modyfikacja algorytmu adaptacyjnych piezoelektrycznych elementów przejściowych. 58. Sympozjon Modelowanie w Mechanice, Zeszyt streszczeń . 91-92.
mathematical models of the torque of mechanical losses in a hydraulic rotational motor for hydrostatic drive (in Polish), Napędy i sterowanie, scientific monthly, No 11(139), November 2010 Paszota Z.: Energy losses in the hydraulic rotational motor - definitions and relations for evaluation of the efficiency of motor and hydrostatic drive. Polish Maritime Research 2 (65) 2010, Vol. 17 Paszota Z.: Theoretical and mathematical models of the torque of mechanical losses in a hydraulic rotational motor for hydrostatic drive. Polish Maritime Research 3 (66) 2010, Vol. 17