Politechnika Warszawska - Centralny System Uwierzytelniania
Strona główna

Strength of Materials 2 1080-BU000-ISA-0403
Ćwiczenia (CWI) rok akademicki 2018/2019 - sem. letni

Informacje o zajęciach (wspólne dla wszystkich grup)

Liczba godzin: 15
Limit miejsc: (brak limitu)
Zaliczenie: Zaliczenie na ocenę
Literatura: (tylko po angielsku)

ebooks on www.bg.pw.edu.pl:

Nash, William. Schaum's Outline of Strength of Materials. McGraw-Hill Professional Book Group, 1998. p vi. Ebrary.

http://site.ebrary.com/lib/pwarszawa/Doc?id=5002184&ppg=6

Case, J.; Chilver, L.; Ross, C.T.F. Strength of Materials and Structures (4th Edition) © 1999 Elsevier. Knovel.

Patnaik, Surya N.; Hopkins, Dale A. Strength of Materials,

ISBN-13: 9780750674027, 753 pp Butterworth-Heinemann, 2003. Engineering Village.

Other (paper) books:

Gere J.M, Timoshenko S.P.: Mechanics of Materials,

Hibbeler R.C.: Structural Analysis

Leet K.M., Uang C-M.: Fundamentals of Structural Analysis

Efekty uczenia się: (tylko po angielsku)

[K1_W01] The graduates have knowledge of mathematics and physics enabling them to describe and understand the basic phenomena in the field of civil engineering.

[K1_W04] The graduates have knowledge of engineering mechanics, strength of materials, modelling of materials and of the principles applied to shaping and optimization of structures. Have knowledge of the fundamentals of mechanics of bar structures, including their stability and dynamics.

[K1_W15] The graduates have knowledge of the basic concepts of the Finite Element Method with regard to mechanics of bar structures and heat flow.

[K1_U05] The graduates have the ability to perform static analysis and analysis of stability and vibrations of bar systems.

[K1_U25] The graduates have understanding of the basic concepts of mechanics and can formulate its basic laws.

[K1_K01] The graduates can work on an assigned task independently or in a team. Can determine priorities to help achieve their goals.

[K1_K06] The graduates formulate conclusions and describe results of their own work. Are communicative in multimedia presentations.

Metody i kryteria oceniania: (tylko po angielsku)

Grades in the course will be based on the attendance, completion of the homework and test scores. The course ends with the Final Exam which consists of two parts, written and oral.

Zakres tematów: (tylko po angielsku)

The problems of biaxial bending, eccentric compression (tension), cross section core, stress distributions under foundations. Beam on elastic foundation (Winkler model). Strength of thin walled bars with open cross section. Experimental tests for determination of mechanical properties of steel, aluminum, wood and concrete altogether with experimental methods for sample testing in homogenous and complex stress states – resistance strain gauges and optical methods. The fundamental yield criteria, its application and determination of application range. Elastic-plastic and plastic properties of materials. Limit states for axially and eccentrically loaded bars and bended beams. Remarks on elastic-plastic torsion of shafts. Extreme theorems of limit states and its application for calculation of simple statically determined and statically indetermined beams. Determination of a critical loading value for axially compressed bars – elastic and elastic-plastic buckling, elastic stability, basic methods of establishing the critical force. Euler’s formula. Introduction to finite element method for the 2D bar structures: formulation, bar element, beam elements, application in truss example and simple frame problem. Introduction to the problems of 2D elasticity in plane stress and plane strain state and simple examples of Kirchhoff’s plate bending.

Metody dydaktyczne: (tylko po angielsku)

The schedule of the class is tentative and the class pace will be adjusted according to the progress of an average student in the group.

Grupy zajęciowe

zobacz na planie zajęć

Grupa Uwagi Termin(y) Prowadzący Miejsca Liczba osób w grupie / limit miejsc Akcje
1 każdy czwartek, 9:15 - 12:00, Budynek Wydziału Inżynierii Lądowej, sala 330
Marcin Gajewski 17/30 szczegóły
99 (brak danych), (budynek nieznany), (sala nieznana)
0/30 szczegóły
Opisy przedmiotów w USOS i USOSweb są chronione prawem autorskim.
Właścicielem praw autorskich jest Politechnika Warszawska.
pl. Politechniki 1, 00-661 Warszawa tel: (22) 234 7211 https://pw.edu.pl kontakt deklaracja dostępności USOSweb 7.0.0.0-7 (2024-03-18)