Cross Sectional Classification - Design of Steel Structures Questions and Answers

This set of Design of Steel Structures Multiple Choice Questions & Answers (MCQs) focuses on “Cross Sectional classification”.

1. Which of the following factor is considered for classification of cross section?
a) location where member is used
b) width-to-thickness ratio
c) length of member
d) seismic force
View Answer

Answer: b
Explanation: Cross section are classified into four behavioural groups depending upon the material yield strength, width-to-thickness ratio of individual components (e.g. webs and flanges) within the cross section, and the loading arrangement.

2. What is a plastic section?
a) cross section which can develop plastic moment
b) cross section which can resist seismic force
c) cross section in which buckling can occur
d) cross section which can develop plastic hinges
View Answer

Answer: d
Explanation: Plastic or class I sections are cross sections which can develop plastic hinges and have a rotation capacity required for failure of structure by formation of plastic mechanism.

3. What is a compact section?
a) cross section which can develop plastic moment resistance
b) cross section which can resist seismic force
c) cross section in which buckling can occur
d) cross section which can develop plastic hinges
View Answer

Answer: a
Explanation: Compact or class II sections are cross sections which can develop plastic moment resistance, but have inadequate plastic hinge rotation capacity because of local buckling.

4. What is a semi-compact section?
a) cross section which can develop plastic moment resistance
b) cross section which can resist seismic force
c) cross section in which elastically calculated stress in extreme compression fibre can reach yield strength
d) cross section which can develop plastic hinges
View Answer

Answer: c
Explanation: Semi-compact or class III sections are cross sections in which elastically calculated stress in extreme compression fibre of steel can reach yield strength.

5. What is a slender section?
a) cross section which can develop plastic moment resistance
b) cross section which can resist seismic force
c) cross section in which elastically calculated stress in extreme compression fibre can reach yield strength
d) cross section in which local buckling will occur before yield stress
View Answer

Answer: d
Explanation: Slender or class IV sections are cross section in which local buckling occurs even before the yield stress is attained in one or more parts of the cross section.

Subscribe Now: Design of Steel Structures Newsletter | Important Subjects Newsletters

6. Which of the following is correct regarding class I section?
a) They are not fully effective under pure compression
b) They are capable of reaching and maintaining full plastic moment in bending
c) They are not capable of reaching and maintaining full plastic moment in bending
d) They does not exhibit sufficient ductility
View Answer

Answer: b
Explanation: Class I sections are fully effective under pure compression, and capable of reaching and maintaining full plastic moment in bending and hence used in plastic design. These sections will exhibit sufficient ductility.

7. Match the following design moment capacity with the classes of cross section

                    Cross section			Design moment capacity
                       i) Compact			A) Md = Zpfy
                      ii) Semi-Compact			B) Md < Zefy
                     iii) Plastic			C) Md = Zefy
                     iv) Slender

a) i – B, ii – C, iii – A, iv – B
b) i – A, ii – B, iii – C, iv – B
c) i – A, ii – C, iii – A, iv – B
d) i – C, ii – C, iii – A, iv – B
View Answer

Answer: c
Explanation: The design moment capacity M_d of each of the four classes of cross sectioncan be calculated as i) Plastic – M_d = Z_pf_y, ii) Compact – M_d = Z_pf_y, iii) Semi-Compact – M_d = Z_ef_y, iv) Slender – Md < Z_ef_y, where Z_p = plastic modulus, Z_e = elastic modulus.

8. Which of the following statement is correct?
a) Internal elements are elements attached along both longitudinal edges to other elements
b) Outstanding elements are elements attached along both longitudinal edges to other elements
c) Outstanding elements are elements which are free along both the edges
d) Internal elements are elements which are free along both the edges
View Answer

Answer: a
Explanation: Internal elements are elements attached along both longitudinal edges to other elements or to longitudinal stiffeners connected at suitable intervals to transverse stiffeners connected at suitable intervals to transverse stiffeners (e.g. web of I-sections and flange and web of box sections). Outstanding elements are attached along only one of the longitudinal edges to an adjacent element, the other edge being free to displace out of plan (e.g. flange overhang of an I-section, stem of T-section, leg of angle section).

Sanfoundry Global Education & Learning Series – Design of Steel Structures.

To practice all areas of Design of Steel Structures, here is complete set of 1000+ Multiple Choice Questions and Answers.

If you find a mistake in question / option / answer, kindly take a screenshot and email to [email protected]

« Prev - Design of Steel Structures Questions and Answers – Local Buckling of Plates

» Next - Design of Steel Structures Questions and Answers – Behaviour and Ultimate Strength of Plates and Possible Failure Modes

Related Posts:

Recommended Articles: