where expertise comes together - since 1996 -

The Largest Open Access Portal of Nondestructive Testing (NDT)

Conference Proceedings, Articles, News, Exhibition, Forum, Network and more

where expertise comes together
- since 1996 -
1103 views
Technical Discussions
aldo
Engineering
Italy, Joined Jan 2009, 39

aldo

Engineering
Italy,
Joined Jan 2009
39
18:46 Feb-09-2009
torioidal magetization

Hi everybody. I am studying the induced current magnetization especially the todoidal method for ring shapdes part on aeronautic components. I have a lot of questions for the forum specialist on specific ASTM par. 6.2.9 in particular on ratio between L/D. The following questions are:
1)What diameter do i take of the part? outside diameter Dout, inner diameter Din or effective diameter Deff?
2)The specific saies that ratio L/D must be less than three. Why? Whats happens if i choose a conponent wich have a ratio L/D major than three? I think that with a ratio major than three i have a overheat on component. Is correct my interpretation ?
Tanks and best regards
Aldo

    
 
 Reply 
 
aldo
Engineering
Italy, Joined Jan 2009, 39

aldo

Engineering
Italy,
Joined Jan 2009
39
19:50 Mar-02-2009
Re: torioidal magetization
In Reply to aldo at 18:46 Feb-09-2009 (Opening).

Hi everybody.
I have discovered important information on L/D ratio. On specific book of NDT of title:Nondestructive Evaluation - Theory, Techniques, and Applications - (Peter J. Shull) Marcel Dekker 2001, it indicates that L is: "lenght of iron core" while does not specific that type of diameter must be considered... can somebody help me for to define the diameter that is present on specific ASTM 6.2.9?
Tanks and best regards...
Aldo

    
 
 Reply 
 
Michel Couture
NDT Inspector,
consultant, Canada, Joined Sep 2006, 847

Michel Couture

NDT Inspector,
consultant,
Canada,
Joined Sep 2006
847
23:07 Mar-03-2009
Re: torioidal magetization
In Reply to aldo at 19:50 Mar-02-2009 .

Aldo,

You reference paragraph 6.2.3 of an ASTM standard yet you don't mention which one it is! It is pretty hard to answer your question without this information.

    
 
 Reply 
 
aldo
aldo
19:50 Mar-04-2009
Re: torioidal magetization
In Reply to Michel Couture at 23:07 Mar-03-2009 .

Hi michel Couture... Tanks your replay...
Why do the ASTM not specific the type of diameter of component? Becasue there are not information on specific textbooks or technical articles on this matter...
Tanks

    
 
 Reply 
 
Amy
NDT Inspector, - -
USA, Joined Jan 2009, 87

Amy

NDT Inspector, - -
USA,
Joined Jan 2009
87
21:59 Mar-04-2009
Re: torioidal magetization
In Reply to aldo at 19:50 Mar-04-2009 .

Aldo,
Looking at ASTM E1444-05, for inducing a toroidal field, typically is used for ring or disc shaped parts to find circumfrential defects. It actually uses the iron core inside your part in the coil to induce an eddy current into the part. It's good if you cannot use a central conductor or do not want to risk arcing with a head shot. As far as the formula you are looking for, use the dimensions of the iron core with your base formula 45000/(l/d) for a low fill as a beginning current and attach QQI's. I've found formulas are more than unreliable and the QQI is your best bet. I usually start almost 1000 Amps lower than my calculated and increase till the QQI's show. As far as parts with a L/D greater than 3, the core is not needed. the part should have a uniform longitudinal field with the coil shot. I do a lot of ring shaped, and if you can, use a central conductor, stay away from the toroidal, or if you must do a coil, use extension pieces of the same diameter on either side to increase your L/D. Hope it helps....

    
 
 Reply 
 
mandar
mandar
07:35 Mar-05-2009
Re: torioidal magetization
In Reply to aldo at 19:50 Mar-04-2009 .

Dear Aldo ,
As far as my interpretation goes there is no formula for setting ampere turns for torroidal magnetization but should be set up using QQI shims or the hall effect gauss meter because in using the formulae it is stated that in L/D these values are considered of the part under test and not of the core further more it is clearly stated that the formulae hold true for parts having L/D more than 3 and less than 15 and it is clearly stated that torroidal magnetization is used for parts having L/D less than 3 hence the faormulae are not applicable for torroidal magnetization . This is mainly because the induced eddy currents dependent on all factors like fill factor of part to coil and also core with respect to part ID and also frequency of current used .

    
 
 Reply 
 

Product Spotlight

PROlineTOP Plug & Play Ultrasonic inspection device

As Plug & Play solution it units all control and operation elements in a small housing and therefo
...
re replaces the typical control cabinet...
>

Robotic laser shearography enables 100% inspection of complex, flight-critical composite structures

An article in “Composites World Magazine” showcases Non Destructive Testing of aero-structures
...
with Laser Shearography. Over the years Dantec Dynamics has supplied many solutions for the aerospace industry. Referring to specific customer projects several of these cases are examined to outline the advantages of using Laser Shearography for automated defect detection.
>

Lyft™: Pulsed Eddy Current Reinvented

PEC Reinvented—CUI Programs Redefined Corrosion under insulation (CUI) is possibly the greatest u
...
nresolved asset integrity problem in the industry. Current methods for measuring wall thickness with liftoff, without removing insulation, all have severe limitations. Eddyfi introduces Lyft — a reinvented, high-performance pulsed eddy current (PEC) solution. The patent- pending system features a state-of-the-art portable instrument, real- time C-scan imaging, fast data acquisition with grid-mapping and dynamic scanning modes, and flexibility with long cables. It can also scan through thick metal and insulation, as well as aluminum, stainless steel, and galvanized steel weather jackets. Who else but Eddyfi to reinvent an eddy current technique and redefine CUI programs. Got Lyft?
>

Panther

M2M PANTHER is a phased-array equipment designed for both desktop and industrial applications, offer
...
ing unparalleled performance in a compact unit. It combines the speed required for industrial integrated Phased-Array Ultrasound (PAUT) solutions, with the most complete set of total focusing method (TFM) imaging techniques, making it the ultimate tool for R&D and procedure qualification.
>

Share...
We use technical and analytics cookies to ensure that we will give you the best experience of our website - More Info
Accept
top
this is debug window