LESSON-5 (4) Flashcards
TOPIC 4 (12 cards)
The force applied along the longitudinal axis of a structural member,
causing tension or compression. It influences the elongation or shortening of the
member
Axial Load
A force that acts perpendicular to the axis of a member, causing
one section to slide relative to the adjacent section. It is critical in beams and
affects horizontal planes
Shear Force
The moment that induces bending in a structural member. It
is the product of the force and the distance from a specific point, affecting how
much the member bends.
Bending Moment
A twisting action in structural elements caused by moments acting
along the member’s longitudinal axis. It is significant in members subjected to
twisting loads.
Torsion
Stress acting perpendicular to the cross-sectional area, derived
from axial loads or bending moments, and calculated as force divided by area.
Normal Stress
Stress acting parallel to the cross-section, caused by shear
forces or torsion. It plays a vital role in determining member strength and failure.
Shear Stress
DETERMINING DESIGN STRESS RESULTANT PROCESS
- Load Identification
- Structural Model
- Structural Analysis
- Design Stress Resultants
- Load Factors and Safety
- Verification of Structural Capacity
APPLICATION OF STRESS RESULTANT
A. Design and Safety Checks:
B. Structural Analysis:
C. Failure Analysis:
D. Optimization:
Ensure that structural elements can safely resist the applied loads without
exceeding material strengths or causing unacceptable deformations.
Design and Safety Checks
Evaluate the behavior of structures under various load conditions and identify
critical regions where stress resultants are maximized.
Structural Analysis
Assess potential failure modes such as buckling, shear failure, and bending
failure, based on the calculated stress resultants.
Failure Analysis
Optimize the design of structural elements by analyzing stress resultants to
reduce material usage while maintaining safety and performance.
Optimization
