Plane Trusses Method of Joints - structures1.tcaup.umich.edu

Structures I University of Michigan, Taubman College Slide 1 of 19

Architecture 314

Structures I

Plane Trusses

Method of Joints

Definition and Assumptions

Nomenclature

Stability and Determinacy

Analysis by joints

2 Force Members

Pinned Joints

Concurrent Member Centroids at Joints

Joint Loaded

Straight Members

Small Deflections

Bullring Covering, Xàtiva, Spain

Kawaguchi and Engineers, 2007

Definitions and Assumtions

Panels• Secments: left to right

Joints• Upper: U1, U2, U3...

• Lower: L1, L2, L3...

Members• Chords

• Web

Nomenclature

2D Trusses• Concurrent Coplanar

3D Trusses• Concurrent Non-Coplanar

Force Systems

University of Michigan Architectural Research LabUnistrut System, Charles W. Attwood

Foster Bridge, 1889Ann Arbor, Michigan

• j joints

• m members

• r reactions (restraints)

Three conditions

• m < k unstable

• m = k stable and determinate

• m > k stable and indeterminate

Stability and Determinacy

For each of the following trusses, determine whether they are:

A) Stable

B) Unstable

• m < k unstable

• m = k stable and determinate

• m > k stable and indeterminate

Truss 1

Truss 2

Structures I University of Michigan, Taubman College Slide 6/42

Not a true trussMoment frame structureRigid joints as moment connectionsFlexure in members

Vierendeel “Truss”

Vierendeel bridge at Grammene, Belgium

Photo by Karel Roose

Salk Institute, La Jolla. Architect: Louis KahnEngineer: Komendant and Dubin

Method of Joints

Method of Sections

Graphic MethodsJames Clerk Maxwell 1869M. Williot 1877Otto Mohr 1887Heinrich Müller-Breslau 1904

Computer ProgramsDr. Frame (2D)STAAD Pro (2D or 3D)West Point Bridge Designer

Analysis

James Clerk Maxwell

1. Solve reactions (all external forces)

2. Inspect for zero force members (T’s & L’s)

3. Cut FBD of one joint

4. Show forces as orthogonal components

5. Solve with FH and FV (no M)

6. Find resultant member forces (Pythagorean Formula)

Method of Joints – procedure

T – joints

L – joints

Inspection of Zero Force Members

1. Solve the external reactions for the whole truss.

Method of Joints - example

2. T or L joints by inspection.

3. Cut FBD of joint

4. Show orthogonal components

5. Solve by F horz. and vert.

Continue with joints having only one unknown in either horizontal or vertical direction. Generally work starting at the reactions.

Continue moving across the truss, joint by joint. Solve by FH and FV .

Continue moving across the truss, joint by joint. Choose joints that have only one unknown in each direction, horizontal or vertical.

Solve the joints with the most members last.

Check that all forces balance.

Inspect the final solution to see that it seems to make sense.

Qualitative T or C

For typical gravity loading:(tension=red compression=blue)

Top chords are in compression

Bottom chords are in tension

Diagonals down toward center are in tension (usually)

Diagonals up toward center are in compression (usually)

Qualitative Force

For spanning trusses with uniform loading: (tension=blue compression=red)

Top and bottom chords greatest at center when flat (at maximum curvature or moment)

Diagonals greatest at ends (near reactions, i.e. greatest shear)

Plane Trusses Method of Joints - structures1.tcaup.umich.edu

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Transcript of Plane Trusses Method of Joints - structures1.tcaup.umich.edu

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