EndStyles of Tube fitting Parts

AI Thread Summary
The discussion centers on creating 3D models of Tube Fitting Parts from 2D drawings and assigning appropriate end styles and properties using CATIA V5 software. The original poster seeks guidance on defining connector points and determining end styles, such as welded, brazed, or threaded connections. Participants suggest that the profile of the connecting areas can help identify the correct end styles. A resource is mentioned that includes a catalog for tube fittings, which also offers downloadable 3D models. The conversation emphasizes the need for clarity on specific designs to provide accurate assistance.
venkataramana
Messages
3
Reaction score
0
Dear All,

I have received 2D drawings of Tube Fitting Parts. I need to create the model and assign the properties.

I like to know how to assign the end styles for different Tubing Parts and how to define the connector (tubing) points.

Any help is highly appreciated.

Thanks in advance,
Venkat
 
Engineering news on Phys.org
Are you referring to flared tubing, i.e. 37° flared fittings or beads or compression fittings? It would help f you were more precise with your question. We can't give you information on every design of tube connection. Do you hve a particular design in mind that you are working on?
 
I have 2D drawings of Tube Fitting parts. I need to create 3D model of the Tube fitting parts and add tubing properties for the model(using CATIA V5 software). The 2D drawing doesn't give any information about end styles of the tubing parts (i.e) whether the ends of the tubing parts has to be welded, brazed or threaded etc. Some suggest that based on the profile of the connecting areas of the tubing parts, we can determine the end styles.

Since I have very less idea in this segment, I am looking for assistance.

Thanks in advance,
P.K.Venkataramana
 

Thread '2:1 Pulley Question'

I have Mass A being pulled vertically. I have Mass B on an incline that is pulling Mass A. There is a 2:1 pulley between them. The math I'm using is: FA = MA / 2 = ? t-force MB * SIN(of the incline degree) = ? If MB is greater then FA, it pulls FA up as MB moves down the incline. BUT... If I reverse the 2:1 pulley. Then the math changes to... FA = MA * 2 = ? t-force MB * SIN(of the incline degree) = ? If FA is greater then MB, it pulls MB up the incline as FA moves down. It's confusing...
View full post »

Thread 'Why do all my clocks run slow?'

Hi. I noticed that all electronic devices in my household that also tell time eventually lag behind, except the ones that get synchronized by radio signal or internet. Most of them are battery-powered, except my alarm clock (which runs slow as well). Why does none of them run too fast? Deliberate design (why)? Wrong temperature for quartz crystal? Decreasing battery voltage? Or just a coincidence?
View full post »

Similar threads

Vacuum pump design
Replies
6
Views
3K
Measuring the Speed of Sound in Water, Using Faraday's Law
Replies
14
Views
3K
Abaqus FEA Problem - Displacing an Entire Part at Once
Replies
1
Views
2K
Using Monopods for city travel utilizing linear induction motors
2
Replies
95
Views
7K
Help with formulas for calculating pressure
Replies
7
Views
3K
Discover How to Measure Flowrate Through Varying Tube Diameters
Replies
1
Views
2K
What is the most efficient way to create steam with the desired properties?
Replies
7
Views
5K
Design of a Laser beam polarization rotation apparatus
Replies
4
Views
2K
How can I prevent deformation of an ultrathin-walled tube during insertion?
Replies
2
Views
1K
Elasticity of a Tubular Cantilever Beam
Replies
8
Views
2K

Hot Threads

Recent Insights

Back
Top