Glossary of Structural Engineering[edit]

Structural engineering is a field of engineering dealing with the analysis and design of structures that support or resist loads. This glossary provides definitions and explanations of terms commonly used in structural engineering.

A[edit]

Allowable Stress[edit]

The maximum stress that a material or structural component is allowed to carry under specific conditions. It is determined by dividing the material's yield strength by a factor of safety.

Axial Load[edit]

A force applied along the longitudinal axis of a structural member, causing compression or tension.

B[edit]

Beam[edit]

A structural element that primarily resists loads applied laterally to the beam's axis. Its mode of deflection is primarily by bending.

Buckling[edit]

A failure mode characterized by a sudden lateral deflection of a structural member subjected to high compressive stress.

C[edit]

Column[edit]

A vertical structural element that primarily carries axial compressive loads.

Composite Material[edit]

A material made from two or more constituent materials with significantly different physical or chemical properties.

D[edit]

Dead Load[edit]

The permanent static load that is relatively constant over time, such as the weight of the structure itself.

Deflection[edit]

The degree to which a structural element is displaced under a load.

E[edit]

Elasticity[edit]

The ability of a material to return to its original shape after the removal of a load.

Euler's Buckling Load[edit]

The critical load at which a slender column will buckle.

F[edit]

Factor of Safety[edit]

A design criterion that provides a safety margin over the calculated maximum load.

Fatigue[edit]

The weakening of a material caused by repeatedly applied loads.

G[edit]

Girder[edit]

A large beam that supports smaller beams or joists.

Gravitational Load[edit]

The load on a structure due to the force of gravity.

H[edit]

Hooke's Law[edit]

A principle stating that the stress applied to a material is proportional to the strain, within the elastic limit of that material.

I[edit]

I-Beam[edit]

A beam with a cross-section that resembles the letter "I". It is used in construction and civil engineering.

Inertia[edit]

The resistance of a physical object to any change in its state of motion.

J[edit]

Joint[edit]

A connection between two or more members of a structure.

L[edit]

Load[edit]

Any force or combination of forces applied to a structure.

Lateral Load[edit]

A load applied horizontally to a structure, such as wind or seismic forces.

M[edit]

Moment[edit]

A measure of the tendency of a force to rotate an object about an axis.

Modulus of Elasticity[edit]

A measure of a material's ability to deform elastically when a force is applied.

N[edit]

Neutral Axis[edit]

The line in a beam or other member under bending where the fibers are neither compressed nor stretched.

P[edit]

Prestressed Concrete[edit]

Concrete in which internal stresses are introduced to counteract potential tensile stresses in the material.

Purlin[edit]

A horizontal structural member in a roof.

R[edit]

Reinforced Concrete[edit]

Concrete in which reinforcement, such as steel bars, is embedded to improve its tensile strength.

Rigid Frame[edit]

A structural system with members connected by rigid joints.

S[edit]

Shear Force[edit]

A force that acts on a material in a direction parallel to its surface.

Span[edit]

The distance between two intermediate supports for a structure.

T[edit]

Tension[edit]

A force that stretches a material.

Torsion[edit]

A twisting force applied to an object.

W[edit]

Wind Load[edit]

The force exerted by wind on a structure.

Wrought Iron[edit]

A form of iron with a very low carbon content, used in construction.

See Also[edit]

• Structural analysis
• Civil engineering
• Load-bearing wall

References[edit]

• "Structural Engineering Handbook" by Edwin H. Gaylord, Charles N. Gaylord, and James E. Stallmeyer.
• "Principles of Structural Design" by Ram S. Gupta.