Difference between revisions of "D of Bend"
From ATTWiki
(→Examples) |
(→Notes) |
||
(23 intermediate revisions by one user not shown) | |||
Line 9: | Line 9: | ||
It is a ratio calculated like this: '''D of bend = Centerline Radius / OD''' | It is a ratio calculated like this: '''D of bend = Centerline Radius / OD''' | ||
+ | |||
+ | <br><br> | ||
==How Is It Used?== | ==How Is It Used?== | ||
− | |||
− | + | ===FOR FABRICATORS=== | |
+ | *The D of bend value helps fabricators know if the radius is tight or large compared to the OD. | ||
+ | *It serves as a general guide for how difficult it will be to create a quality bend. | ||
+ | *It helps fabricators know what kind of tooling will be necessary to achieve the bend. It is useful, therefore, in building quotations for customers. | ||
+ | *It is common for fabricators to share the lower limit of their D of bend capabilities with customers. | ||
− | It is | + | ===FOR DESIGNERS=== |
+ | *It is helpful to designers as a limit for what is practical in choosing radii. | ||
− | + | <br><br> | |
− | + | ||
− | *D of bend = 2.00 is generally considered not difficult | + | ==Example Values== |
+ | In most applications, a lower D of bend valued radii is less complex and therefore less expensive. | ||
+ | |||
+ | *D of bend = 2.00 or greater is generally considered not difficult. | ||
*D of bend = 1.50 is moderately difficult. | *D of bend = 1.50 is moderately difficult. | ||
*D of bend = 1.00 is difficult. | *D of bend = 1.00 is difficult. | ||
*D of bend = 0.75 is very difficult and much more expensive. | *D of bend = 0.75 is very difficult and much more expensive. | ||
− | D of bend values at 1 and below are possible - but are rare and require special benders that can press material into the bender's dies. (Most call this "carriage boost".) | + | ===Notes=== |
− | + | *D of bend values at 1 and below are possible - but are rare and require special benders that can press material into the bender's dies. (Most call this "carriage boost".) | |
− | + | *Other variables, like wall factor, impact what is difficult. Wall factor = OD / Wall Thickness | |
− | + | ||
− | + | ||
− | + | ==Example Models== | |
− | [[image: | + | [[image:DofBend001.png|600px]] |
+ | [[image:DofBend002.png|600px]] | ||
+ | [[image:DofBend003.png|600px]] | ||
+ | [[image:DofBend004.png|600px]] | ||
<br><br> | <br><br> | ||
=Other Pages= | =Other Pages= | ||
− | * | + | * [[VTube-LASER]] |
+ | * [[VTube-STEP]] |
Latest revision as of 15:49, 2 January 2020
- Back to VTube-STEP or VTube-LASER
Contents |
What is D of bend?
Tube fabricators sometimes indicate the centerline radius using D of bend.
We say it by speaking three words: "D of bend".
Some tube fabricators also say "D factor" to mean the same thing.
It is a ratio calculated like this: D of bend = Centerline Radius / OD
How Is It Used?
FOR FABRICATORS
- The D of bend value helps fabricators know if the radius is tight or large compared to the OD.
- It serves as a general guide for how difficult it will be to create a quality bend.
- It helps fabricators know what kind of tooling will be necessary to achieve the bend. It is useful, therefore, in building quotations for customers.
- It is common for fabricators to share the lower limit of their D of bend capabilities with customers.
FOR DESIGNERS
- It is helpful to designers as a limit for what is practical in choosing radii.
Example Values
In most applications, a lower D of bend valued radii is less complex and therefore less expensive.
- D of bend = 2.00 or greater is generally considered not difficult.
- D of bend = 1.50 is moderately difficult.
- D of bend = 1.00 is difficult.
- D of bend = 0.75 is very difficult and much more expensive.
Notes
- D of bend values at 1 and below are possible - but are rare and require special benders that can press material into the bender's dies. (Most call this "carriage boost".)
- Other variables, like wall factor, impact what is difficult. Wall factor = OD / Wall Thickness
Example Models