{"id":4207,"date":"2022-05-24T08:33:15","date_gmt":"2022-05-24T06:33:15","guid":{"rendered":"https:\/\/www.elektrokul.dk\/permanent-magnets\/"},"modified":"2022-06-24T14:25:04","modified_gmt":"2022-06-24T12:25:04","slug":"permanent-magnets","status":"publish","type":"page","link":"https:\/\/www.elektrokul.dk\/en\/permanent-magnets\/","title":{"rendered":"Permanent Magnets"},"content":{"rendered":"

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<\/div>[vc_basic_grid post_type=”page” max_items=”-1″ element_width=”2″ gap=”20″ order=”ASC” item=”3474″ grid_id=”vc_gid:1653393134004-5dcf7dbc-279a-4″ taxonomies=”13″]
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List of terms<\/h2>\n

\u200bAnisotropisk \u2013 isotropisk:<\/strong><\/p>\n

When a magnetic substance is compressed in a magnetic field, this substance is called anisotropic. When the substance is not compressed in a magnetic field, it is characterised as isotropic. Later the isotropic substance can be magnetised in all directions, while anisotropic substances can be magnetised in the specifically focused direction. The remanence (Br) of an anisotropic substance is approximately the double value of the remanence of an isotropic substance. See figure 1.<\/p>\n

General Features<\/h3>\n

B:
\nSee magnetic induction
\n(BH)max
\nBR:
\nSee remanence<\/p>\n

\u200b\u200bCoercivity, normal HcB:<\/h3>\n

The necessary field power to create the magnetic induction in a magnetic substance o (see demagnetisation curve). The \u201c-\u201c mark is often omitted in specifications. Units: A\/m or Oe.<\/p>\n

\u200bCoercivity, intrinsic HcJ:<\/h3>\n

The necessary field power to induce a polarisation of a magnetic substance o (see demagnetisation curve). The \u201c-\u201c mark is often omitted in specifications. Units: A\/m or Oe.<\/p>\n

\u200bCurie temperature:<\/strong><\/h3>\n

Temperature at which magnetisation disappears completely. Units are C and K among others.<\/p>\n

(Second quadrant of the hysteresis curve).
\nDemagnetisation curve of a magnetic substance can be determined by placing the magnetic substance in a closed system by generating a magnetic field by means of coils. At first the substance is magnetised to the point of saturation. (+H) and then demagnetised (-H). The polarisation of the magnetic substance (J) is measured during the process. The magnetic induction B into the magnet is calculated using the following formula:
\nB=J+ou*H, where
\nJ=polarisation of the substance (part of the substance)
\nUo*H=part of the substance[\/vc_column_text][vc_empty_space height=”30px”][vc_media_grid element_width=”3″ gap=”20″ item=”467″ grid_id=”vc_gid:1653393134005-c7b0c25d-d475-2″ include=”3688,3687,3692,3693″][vc_empty_space height=”30px”][vc_separator][vc_empty_space height=”30px”][vc_column_text]<\/p>\n

Flux mass:<\/strong><\/h3>\n

See magnetic induction.[\/vc_column_text][vc_empty_space height=”30px”][vc_media_grid element_width=”3″ gap=”20″ item=”467″ grid_id=”vc_gid:1653393134006-c547cfff-2c43-1″ include=”3696″][vc_empty_space height=”30px”][vc_column_text]\u200bHcB:<\/strong>
\nSe coercivity, normal.
\nHcJ:<\/strong>
\nSe coercivity, intrinsic.<\/p>\n

Losses, which cannot be regained can be regenerated.
\nE. g. permanent loss of magnetism because of excessively high temperature.
\nOnly re-magnetisation can regenerate the loss.<\/p>\n

\u200b\u200bLosses, which cannot be regained cannot be regenerated either.
\nE. g. permanent loss of magnetism because of excessively high temperature or oxygenation.
\nThis loss cannot be regained.<\/p>\n

\u200bIsotropic:<\/strong>
\nSee anisotropic<\/p>\n

\u200bJ:<\/strong>
\nSee magnetic polarisation<\/p>\n

Magnetic induction, B:
\nMagnetic alignment as a result of a magnetic power (H) and\/or a magnetic power (J) or: The number of magnetic field lines per unit \u2013 the area. Units: Includes T and G.<\/p>\n

\u200bMagnetic polarisation, J:
\nThe part of a substance for the magnetic induction. Units include T and G.<\/p>\n

\u200bMagnetic field power, H:<\/p>\n

\u200bMaximum Energy Mass (BH) max:
\nLargest possible product of B and H on the de-magnetisation curve (see de-magnetisation curve). Generally this applies: The larger (BH) of a magnetic substance , the smaller volume. The \u201c-\u201c mark is normally excluded in specifications. Units: kl\/m3 and MGOe. For example: Volume of a GSN magnet can be +-10 times smaller than the volume of a GSF33H magnet and still have the same application.[\/vc_column_text][vc_empty_space height=”30px”][vc_separator][vc_empty_space height=”30px”][vc_column_text]<\/p>\n

General Features\u200b<\/h3>\n

Values can only be applied for comparison of substances. Mechanical stress: Because of fragility, it is not recommended to expose the magnets to magnetic stress.<\/p>\n

The values of the substances are measured according to IE404-5 standard: The mechanical features mentioned in the table cannot be obtained for all forms and dimensions.[\/vc_column_text][vc_empty_space height=”30px”][vc_media_grid element_width=”3″ gap=”20″ item=”467″ grid_id=”vc_gid:1653393134007-e77d37f2-aea8-5″ include=”3698″][vc_empty_space height=”30px”]

<\/div>[vc_column_text]\u200bMaximum application temperature:<\/strong>
\nThe indication of the maximum temperature where the magnetic substance can be applied with a limited permanent loss (see Working point, Operating Line).<\/p>\n

Permanent magnet:<\/strong>
\nA magnet, which completely or partially keeps its magnetism after magnetisation.<\/p>\n

\u200bPermeability:<\/strong>
\nThe capacity of the magnetic substance to conduct magnetism.
\nPermeability of vacuum (uo) is 12,56*10-6 T\/(A\/m) or 1 G\/=Oe.<\/p>\n

Remanence Br:<\/strong>
\nMagnetic induction in a magnetic substance when the field power is zero (H=0) and after saturation (see de-magnetisation curve). Units: Inclusive T and G.<\/p>\n

\u200bRestorable Loss:<\/strong>
\nTemporary loss of magnetism because of changing temperature for instance.<\/p>\n

Free Poles:<\/strong><\/p>\n

Field lines, which leave the magnet, return to the magnet through the air (no ferromagnetic substance).<\/p>\n

\u200bWorking Point \/ Operating Line:<\/strong><\/p>\n

2 de-magnetisation curves (only the normal curve) of random Neoflux substances in figure 3. Working point (Bm, Hm) of a magnet is the point where the working line crosses the B-H curve. For magnets with free poles and without external magnetic field the angle of the working line correlated to the B axis is dependable on the relationship between length and diameter of the magnet; L1\/D1 > L2\/D2.<\/p>\n

Working line 1 is closer to the axis than the working line 2.<\/p>\n

Partnering with Elektrokul A\/S, Goudsmit UK can advice on a consultancy basis by means of EDB simulation. We apply the most advanced software to calculate your magnetic system.<\/p>\n

Permanent magnets are also available in a steel pot (with a rubber protection upon request); these kinds of magnets have a magnetic field, which makes them a lot stronger.<\/p>\n

\u200bAn advanced product like a loud speaker needs a dust free magnet with the right with the right magnetic and mechanical features.<\/p>\n

Our range of deliveries includes electro magnets.[\/vc_column_text][vc_empty_space height=”30px”][vc_media_grid element_width=”3″ gap=”20″ item=”467″ grid_id=”vc_gid:1653393134008-5818d282-2038-2″ include=”3699,3700,3701″][vc_empty_space height=”30px”][vc_separator][vc_empty_space height=”30px”][vc_column_text]<\/p>\n

Safety Instruction\u200b<\/h3>\n

Warning!
\n<\/strong>This package contains very strong, permanent magnets or magnetic systems.
\nThere is a risk of serious damage if these magnets are not treated very carefully.<\/p>\n

\u200bPlease take a note of the following warnings:<\/p>\n

\u200bMagnets must glide from one another in a cautious way in order to prevent fingers from getting stuck between them. It prevents damage of the surface treatment too. Use gloves if possible.<\/p>\n

\u200bWhen you unpack the magnets, make sure that there are several meters of distance between you and any item made of iron.<\/p>\n

The magnets must be kept away from any carrier of magnetic information, as for example credit cards, magnet bands, floppy disks, and all electronic equipment such as hearing aids, pacemakers, measuring- and control instruments and EDB machines. These items can be damaged by the extreme, high power magnet fields.<\/p>\n

\u200bNever use magnets in explosive settings, because sparks can be ignited.<\/p>\n

\u200bBefore use, always wet the magnets to prevent spontaneous ignition. Always use cooling water, never work without it by processing of the magnets!<\/p>\n

\u200bAlways keep dust and processed parts after processing in water containing reservoirs or hermetically closed spaces in order to control the risk for spontaneous ignition.[\/vc_column_text][\/vc_column_inner][vc_column_inner offset=”vc_col-lg-4 vc_col-md-4 vc_col-xs-12″][vc_widget_sidebar sidebar_id=”sidebar-1″ el_class=”contact-sidebar”][\/vc_column_inner][\/vc_row_inner]

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Do you have any questions?<\/h3>\n

We are ready to answer any questions you may have that you will not get answered here on the website. So do not hesitate to call or write to us.<\/p>\n

We are happy to have a completely non-binding talk with you about your plans.[\/vc_column_text][\/vc_column][vc_column width=”1\/2″ css=”.vc_custom_1653380119298{background-image: url(https:\/\/www.elektrokul.dk\/wp-content\/uploads\/2022\/05\/5651-go-elektrokulas-06-2096.jpg?id=3284) !important;background-position: center !important;background-repeat: no-repeat !important;background-size: cover !important;}”]

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[vc_row full_width=”stretch_row” css=”.vc_custom_1653378668627{background-color: #f7f7f7 !important;}”][vc_column][vc_basic_grid post_type=”page” max_items=”-1″ element_width=”2″ gap=”20″ order=”ASC” item=”3474″ grid_id=”vc_gid:1653393134004-5dcf7dbc-279a-4″ taxonomies=”13″][\/vc_column][\/vc_row][vc_row full_width=”stretch_row”][vc_column][vc_row_inner][vc_column_inner offset=”vc_col-lg-8 vc_col-md-8 vc_col-xs-12″][vc_column_text] List of terms \u200bAnisotropisk \u2013 isotropisk: When a magnetic substance is compressed in a magnetic field, this substance is called anisotropic. When the substance is not compressed in a magnetic field, it is characterised as isotropic. Later the … Read more<\/a><\/p>\n","protected":false},"author":1,"featured_media":3918,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":{"_acf_changed":false,"footnotes":""},"categories":[25],"class_list":{"0":"post-4207","1":"page","2":"type-page","3":"status-publish","4":"has-post-thumbnail","6":"category-magnet-underside-en"},"acf":[],"yoast_head":"\nPermanent Magnets · Elektrokul A\/S<\/title>\n<meta name=\"robots\" content=\"index, follow, max-snippet:-1, max-image-preview:large, max-video-preview:-1\" \/>\n<link rel=\"canonical\" href=\"https:\/\/www.elektrokul.dk\/en\/permanent-magnets\/\" \/>\n<meta property=\"og:locale\" content=\"en_US\" \/>\n<meta property=\"og:type\" content=\"article\" \/>\n<meta property=\"og:title\" content=\"Permanent Magnets · Elektrokul A\/S\" \/>\n<meta property=\"og:description\" content=\"[vc_row full_width=”stretch_row” css=”.vc_custom_1653378668627{background-color: #f7f7f7 !important;}”][vc_column][vc_basic_grid post_type=”page” max_items=”-1″ element_width=”2″ gap=”20″ order=”ASC” item=”3474″ grid_id=”vc_gid:1653393134004-5dcf7dbc-279a-4″ taxonomies=”13″][\/vc_column][\/vc_row][vc_row full_width=”stretch_row”][vc_column][vc_row_inner][vc_column_inner offset=”vc_col-lg-8 vc_col-md-8 vc_col-xs-12″][vc_column_text] List of terms \u200bAnisotropisk \u2013 isotropisk: When a magnetic substance is compressed in a magnetic field, this substance is called anisotropic. 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