Misplaced Pages

Zero force member

Article snapshot taken from Wikipedia with creative commons attribution-sharealike license. Give it a read and then ask your questions in the chat. We can research this topic together.
This article includes a list of general references, but it lacks sufficient corresponding inline citations. Please help to improve this article by introducing more precise citations. (March 2023) (Learn how and when to remove this message)

In the field of engineering mechanics, a zero force member is a member (a single truss segment) in a truss which, given a specific load, is at rest: neither in tension, nor in compression.

Description

In a truss, a zero-force member is often found at pins (any connections within the truss) where no external load is applied, and three or fewer truss members meet. Basic zero-force members can be identified by analyzing the forces acting on an individual pin in a physical system.

If the pin has an external force or moment applied to it, then all of the members attached to that pin are not zero-force members unless the external force acts in a manner that fulfills one of the rules:

  • If two non-collinear members meet in an unloaded joint, both are zero-force members.
  • If three members meet in an unloaded joint, of which two are collinear, then the third member is a zero-force member.

Restated for clarity, when there are no external loads at a pin joint, the two rules that determine zero-force members are:

  • If a joint in a truss has only two non-collinear members and no external load or support reaction is applied at that joint, then both members are zero-force members.
  • If three members form a joint and two of these members are collinear while the third member is not, and no external load or support reaction is applied at the joint, the third non-collinear member is a zero-force member.

Reasons to include zero force members in a truss system

It is a common practice to eliminate zero force members from a truss to simplify analysis. Although an absolute minimalist design might eliminate all zero force elements from a truss, there are still sound reasons to retain some of these components in actual built systems:

  • These members can contribute to the stability of the structure by preventing buckling of long, slender members under compressive forces
  • These members can increase rigidity when variations are introduced in the normal external loading configuration, including dynamic and variable forces.

See also

External links

References

  1. Engineering Mechanics Volume 1: Equilibrium, by C. Hartsuijker and J.W. Welleman
  2. Vector Mechanics for Engineers: Statics. Beer, F. P., Johnston, E. R., & Mazurek, D. F., McGraw-Hill Education, 2015.
Categories: