Truss bridges, renowned for their strength and efficiency in material use, have been a staple in engineering for spanning distances without intermediate supports. These bridges are characterized by their distinctive truss structure, composed of interconnected triangular units that distribute loads e

Truss bridges have been a staple in civil engineering for their ability to span long distances while efficiently distributing loads. However, like any structure, they are not without weaknesses. Understanding these weaknesses is crucial for engineers, planners, and maintenance personnel to ensure th

Truss bridges have been a staple in civil engineering for centuries, known for their ability to span long distances while supporting heavy loads. However, despite their many advantages, truss bridges also come with significant weaknesses that can affect their performance, longevity, and overall effe

Truss bridges are among the oldest and most widely used bridge designs, characterized by their triangular framework that provides strength and stability. While they offer several advantages, such as efficiency in material use and the ability to span long distances, truss bridges also come with notable disadvantages. This article explores the various drawbacks associated with truss bridges, providing a comprehensive understanding of their limitations.