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Simulation of a beam on two simple supports

DenisJaunin
15-Moonstone

Simulation of a beam on two simple supports

Hello,

How should we proceed in Simulate for a beam on two simple supports.

If using the Simple Support function on both sides, there is a lack of constraints erreure.

If we forced one side, it is more in the case of a beam on two supports single but in a cantilever with the push from the other side.

In this case the equations are not the same.

Sincerely.

Denis


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14 REPLIES 14

You could constrain the mid point of the beam to constrain movement away from symmetry-plane.

Or if the analysis is symmetric you could even chop off half and add symmetry constraints.

DenisJaunin
15-Moonstone
(To:unickque)

Hi Patrick,

Thank you for your reply.

If I forced a point in the center of the beam I would not have arrow.

By symmetry with one hand resting I mistake not to be forced assé.

Sincerely.

Denis.

Can you retype that in other words please, I do not understand what you mean?

DenisJaunin
15-Moonstone
(To:unickque)

Hi Patrick,

Oops, sorry, I do not speak English, I pass by an automatic translator.

I tried both of your methods, but it does not work.

If I constrained a point in the center of the beam, I have no arrow.

Simply supported, by symmetry, I am not sufficiently constrained.

Sincerely.

Denis

I don't have that problem... see example attached

Denis,

Ca serait plus facile à comprende si tu téléchargerais un image, un fichier etc. Moi non plus comprends ton question... Même une image dessiné par main va le faire...

/Mats L

Bonjour Mats,

Merci.

Comment simuler une poutre en appuis simple des deux cotés.

How to simulate a single beam supports on both sides.

Sincerely.

Denis

beam.png

2 modèles, une piece 3D et une modèle coque.

Dans le modèle 3D, j'ai utilisé des "rigid link" (je ne sais pas le mot en francais - lien rigide?) pour eviter une singularité. La contrainte est théoriquement infinie sur le bord.

Puisque Creo Simulate est un logiciel adaptatif, if faut utiliser des "rigid links" (ou des liens pondérés) pour eviter des hauts contraintes vers des singularités. Dans autres logiciels on peut en eviter par faire des elements trop grands. Comme ca, le maillage n'est pas capable de correctement répresenter la contrainte.

J'espère cela vous aidera...

/Mats L

Capture.PNG

Hello Mats,

Hello Patrick,

Sorry for not speaking English.

Thank you for your examples.

I do not know all these methods.

But the beam should not stay on his feet.

It should slide.

Simulate requires constraints on his feet.

Sincerely.

Denis

BEAM_SLIP.png

Denis, can you describe what you are trying to model? Do you have a picture of the real parts maybe? That could help a great deal.

Hi Denis,

Although the thread title says "two simple supports", in the diagram you show (which is the classic diagram for a simply-supported beam) the constraints are different at each end.

The left-hand end is constrained in Tx and Ty (and in 3D, Tz as well).

The right-hand end is constrained in Ty (and Tz) but is free in Tx.

If you create these constraints in your model, does it give the answer you are looking for?

Hello,

Thank you for your very specific answers.

Actually I have not chosen the right design for my question.

It is a simply supported beam laid plans without restraint.

See the attached drawing.

Sincerely.

Denis.

BEAM.jpg

The same constraints would be appropriate, even so.

To ensure 'necessary and sufficient' constraint, we assume that one end will slide and the other end will remain fixed.

Yes thank you.

That's how I always do.

I thought it could be another solution.

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