Talk:Magnetic core
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Core saturation is a critical consideration. There is a limit to the magnetic flux a core will carry. You really can not use magnetic cores safely without knowing about saturation. Air gaps are often used to avoid saturation. B/H curves could be shown and discussed.
There are already articles on Saturation (magnetic) and Saturable reactor and Hysteresis that can help. The hysteresis article covers all uses of the term, but does show a B/H curve. The Magnetic amplifier article references these, plus magnetic core and transformer.
The Transformer article also talks about cores, but omits pot cores. That article could benefit from this one.
AJim 03:48, 25 July 2007 (UTC)[reply]
I notice that commercial magnetic knife holders all seem to have a few magnets surrounded by steel (e.g.). This configuration seems to be what is used in a magnetic base as well. Is this steel acting as a magnetic core? If I wanted to create a magnetic field that extended out particularly far from a permanent magnet, what shape magnet would I use and where would I put the steel? —Ben FrantzDale (talk) 12:07, 20 June 2008 (UTC)[reply]
What is "soft" iron? Is it elemental iron (which is mechanically fairly soft) as opposed to steel, which has a little carbon in it, or cast iron which has a lot of carbon in it?
In this case "soft" is not referring to the mechanical property of hardness, rather to the magnetic property. A material that is magnetically "soft" is one that does not remain highly magnetised when an externally applied magnetic field is not present (i.e. has a low Coercivity and low Remanence)
202.12.105.132 (talk) 03:30, 23 July 2009 (UTC)[reply]
There was an article called "ferrite bead" which was apparently written by someone who doesn't know the proper terminology for this technology. I have turned the article into a redirect to here and I am putting whatever was useful from that article and merging it into this one... images, See Also, External links, and Translation links.
I created a section that tries to keep some of the "bead" article alive, distinguishing between a "torus" and a "ring/bead", though honestly I don't know if this is a valid distinction. The only major distinguishing factor is the application: toroids are usually wound multiple times around the perimeter, while the cylinders are axial only and the conductors usually only pass through the center of cylinder.
I'm going to have to defer to someone with more expertise in the field than me, to decide whether to keep the ring/bead section separate or merge it as an application of the toroid.
DMahalko (talk) 06:07, 23 March 2009 (UTC)[reply]
A couple weeks ago I added in a pictorial discussion of "parasitic induction" into the article on Faraday's law of induction. After finding this article today I see the information is useful as a discussion of why laminations or ceramics are used though the topic material is not totally specific to this one "applications of induction" article.
Electromagnetic induction#Parasitic induction and waste heating
I suppose I could merge in some of the images and have a jump-over redirect to that as the main article.
DMahalko (talk) 06:36, 23 March 2009 (UTC)[reply]
In my opinion this section should redirect to Ferrite (iron) instead of Ferrite (magnet). —Preceding unsigned comment added by 20.133.32.18 (talk) 06:28, 10 September 2009 (UTC)[reply]
I added a picture of an EI lamination under the section about Silicon steel lams. It is the same photo I uploaded to use with the Wikibook article I authored on Transformer Design.--Craxd (talk) 11:34, 20 September 2010 (UTC)[reply]
There is at least one core shape omitted: it consists of two pieces, the first is H-shaped, the second is rectangular ring; it was designed for miniature inductors of high inductance, where it has advantages over other core shapes: easy coil winding (using the H) and little permeance loss caused by gap (due to large area of contact between these two parts); note some gap is unavoidable (except ring ang bead cores), because of dust on contacting surfaces and imperfections of their polishing.
JerzyTarasiuk (talk) 06:43, 15 July 2015 (UTC)[reply]
I don't agree to the term "Rod" refering to the coil's core.The definitions of "rod" in the wikipedia agrees.A rod is a rod is a rod. — Preceding unsigned comment added by 2.80.207.209 (talk) 13:51, 17 April 2012 (UTC)[reply]
Chetvorno removed air cores but I reverted the edit. Although an air core may or may not be considered a magnetic core, the section is equivalent to a section explaining why cores with a permeability above 1 are not always used, and that is clearly on-topic.GliderMaven (talk) 17:06, 29 November 2017 (UTC)[reply]
This information is missing. I know that each layer of sheet is insulated, but what about the E ad I sheet? Does the current that is inducted under the primary coil goes under the secondary coil (or are the E and I plates insulated from each other?)? I would guess that the core doesn't need to be a conductive loop (to induce a magnetic field needed to move electrons of the secondary coil). Am I wrong? Nestashi (talk) 13:34, 27 October 2019 (UTC)[reply]