appendices:a4
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appendices:a4 [2019/06/21 11:47] helene |
appendices:a4 [2022/05/23 10:51] (current) calogero [Data to be given in the file .SWI] |
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| ===== Data to be given in the file .SWI ===== | ===== Data to be given in the file .SWI ===== | ||
| - | ^First line (5I5)^^ | + | ^First line (6I5)^^ |
| |NGR(I5)|Number of activation or deactivation phases (maximum value is currently 10000, changed by G. Gilles on May 2015. It’s possible to change this value!)| | |NGR(I5)|Number of activation or deactivation phases (maximum value is currently 10000, changed by G. Gilles on May 2015. It’s possible to change this value!)| | ||
| |IFORM (I5)| = 0 the elements to be activated are written in the format 14I5 \\ ≠ 0 the elements to be activated are written in the format 9I10. This is useful when the number of nodes exceeds 10 000| | |IFORM (I5)| = 0 the elements to be activated are written in the format 14I5 \\ ≠ 0 the elements to be activated are written in the format 9I10. This is useful when the number of nodes exceeds 10 000| | ||
| Line 19: | Line 19: | ||
| |iON_elem(I5)|Maximum number of activated elements at any given IGR| | |iON_elem(I5)|Maximum number of activated elements at any given IGR| | ||
| |iTFORM(I5)|When this number is equal to 1, the format for the definition of activation and deactivation moments is G15.0 (instead of G10.0)| | |iTFORM(I5)|When this number is equal to 1, the format for the definition of activation and deactivation moments is G15.0 (instead of G10.0)| | ||
| + | |NFRMT(I5)| Use the new format, which allow transform intervals, see below example 3, tested only for OFF groups | | ||
| === Group of 1+NPICS(IGR) lines repeated NGR times === | === Group of 1+NPICS(IGR) lines repeated NGR times === | ||
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| Distribution of the flux defined by .LOA on solid elements that must be activated. \\ | Distribution of the flux defined by .LOA on solid elements that must be activated. \\ | ||
| CONRA element must also be activated on these elements. \\ | CONRA element must also be activated on these elements. \\ | ||
| - | {{:appendices:a4_2.png|}} | + | {{:appendices:a4_2.png|}} \\ |
| 52 nodes at surface → NGR: 50 (It can be considered as the number of steps) \\ | 52 nodes at surface → NGR: 50 (It can be considered as the number of steps) \\ | ||
| 51 solid elements (elements 1, 2, 3 are active when the laser flow is on the top of element 1,2, then the laser moves on the top of element 2 and 3 and element 4 is activated). \\ | 51 solid elements (elements 1, 2, 3 are active when the laser flow is on the top of element 1,2, then the laser moves on the top of element 2 and 3 and element 4 is activated). \\ | ||
| Line 70: | Line 71: | ||
| 5.88 6.0 | 5.88 6.0 | ||
| - | + | ==== Example 3: Laser cladding with NFRMT = 1 ==== | |
| + | |||
| + | The idea is to simplify the use of switch by making the creation of the .swi file easier | ||
| + | |||
| + | {{ :appendices:switch_nfrmt_explanation.jpg?nolink&600 |}} | ||
| + | |||
| + | Every element that belongs to a group will be replace in the group/groups to which it corresponds. | ||
| + | |||
| + | For example, elements of GR 2 will be place in the reoganized groups GR 1, GR 2, GR 3 and GR 4. | ||
appendices/a4.1561110459.txt.gz · Last modified: 2020/08/25 15:33 (external edit)
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