conststd::stringPROFILE_DESCRIPTION_0=_L("It has a small layer height, and results in almost negligible layer lines and high printing quality. It is suitable for most general printing cases.");
conststd::stringPROFILE_DESCRIPTION_1=_L("Compared with the default profile of a 0.2 mm nozzle, it has lower speeds and acceleration, and the sparse infill pattern is Gyroid. So, it results in much higher printing quality, but a much longer printing time.");
conststd::stringPROFILE_DESCRIPTION_2=_L("Compared with the default profile of a 0.2 mm nozzle, it has a slightly bigger layer height, and results in almost negligible layer lines, and slightly shorter printing time.");
conststd::stringPROFILE_DESCRIPTION_3=_L("Compared with the default profile of a 0.2 mm nozzle, it has a bigger layer height, and results in slightly visible layer lines, but shorter printing time.");
conststd::stringPROFILE_DESCRIPTION_4=_L("Compared with the default profile of a 0.2 mm nozzle, it has a smaller layer height, and results in almost invisible layer lines and higher printing quality, but shorter printing time.");
conststd::stringPROFILE_DESCRIPTION_5=_L("Compared with the default profile of a 0.2 mm nozzle, it has a smaller layer lines, lower speeds and acceleration, and the sparse infill pattern is Gyroid. So, it results in almost invisible layer lines and much higher printing quality, but much longer printing time.");
conststd::stringPROFILE_DESCRIPTION_6=_L("Compared with the default profile of 0.2 mm nozzle, it has a smaller layer height, and results in minimal layer lines and higher printing quality, but shorter printing time.");
conststd::stringPROFILE_DESCRIPTION_7=_L("Compared with the default profile of a 0.2 mm nozzle, it has a smaller layer lines, lower speeds and acceleration, and the sparse infill pattern is Gyroid. So, it results in minimal layer lines and much higher printing quality, but much longer printing time.");
conststd::stringPROFILE_DESCRIPTION_8=_L("It has a general layer height, and results in general layer lines and printing quality. It is suitable for most general printing cases.");
conststd::stringPROFILE_DESCRIPTION_9=_L("Compared with the default profile of a 0.4 mm nozzle, it has more wall loops and a higher sparse infill density. So, it results in higher strength of the prints, but more filament consumption and longer printing time.");
conststd::stringPROFILE_DESCRIPTION_10=_L("Compared with the default profile of a 0.4 mm nozzle, it has a bigger layer height, and results in more apparent layer lines and lower printing quality, but slightly shorter printing time.");
conststd::stringPROFILE_DESCRIPTION_11=_L("Compared with the default profile of a 0.4 mm nozzle, it has a bigger layer height, and results in more apparent layer lines and lower printing quality, but shorter printing time.");
conststd::stringPROFILE_DESCRIPTION_12=_L("Compared with the default profile of a 0.4 mm nozzle, it has a smaller layer height, and results in less apparent layer lines and higher printing quality, but longer printing time.");
conststd::stringPROFILE_DESCRIPTION_13=_L("Compared with the default profile of a 0.4 mm nozzle, it has a smaller layer height, lower speeds and acceleration, and the sparse infill pattern is Gyroid. So, it results in less apparent layer lines and much higher printing quality, but much longer printing time.");
conststd::stringPROFILE_DESCRIPTION_14=_L("Compared with the default profile of a 0.4 mm nozzle, it has a smaller layer height, and results in almost negligible layer lines and higher printing quality, but longer printing time.");
conststd::stringPROFILE_DESCRIPTION_15=_L("Compared with the default profile of a 0.4 mm nozzle, it has a smaller layer height, lower speeds and acceleration, and the sparse infill pattern is Gyroid. So, it results in almost negligible layer lines and much higher printing quality, but much longer printing time.");
conststd::stringPROFILE_DESCRIPTION_16=_L("Compared with the default profile of a 0.4 mm nozzle, it has a smaller layer height, and results in almost negligible layer lines and longer printing time.");
conststd::stringPROFILE_DESCRIPTION_17=_L("It has a big layer height, and results in apparent layer lines and ordinary printing quality and printing time.");
conststd::stringPROFILE_DESCRIPTION_18=_L("Compared with the default profile of a 0.6 mm nozzle, it has more wall loops and a higher sparse infill density. So, it results in higher strength of the prints, but more filament consumption and longer printing time.");
conststd::stringPROFILE_DESCRIPTION_19=_L("Compared with the default profile of a 0.6 mm nozzle, it has a bigger layer height, and results in more apparent layer lines and lower printing quality, but shorter printing time in some printing cases.");
conststd::stringPROFILE_DESCRIPTION_20=_L("Compared with the default profile of a 0.6 mm nozzle, it has a bigger layer height, and results in much more apparent layer lines and much lower printing quality, but shorter printing time in some printing cases.");
conststd::stringPROFILE_DESCRIPTION_21=_L("Compared with the default profile of a 0.6 mm nozzle, it has a smaller layer height, and results in less apparent layer lines and slight higher printing quality, but longer printing time.");
conststd::stringPROFILE_DESCRIPTION_22=_L("Compared with the default profile of a 0.6 mm nozzle, it has a smaller layer height, and results in less apparent layer lines and higher printing quality, but longer printing time.");
conststd::stringPROFILE_DESCRIPTION_23=_L("It has a very big layer height, and results in very apparent layer lines, low printing quality and general printing time.");
conststd::stringPROFILE_DESCRIPTION_24=_L("Compared with the default profile of a 0.8 mm nozzle, it has a bigger layer height, and results in very apparent layer lines and much lower printing quality, but shorter printing time in some printing cases.");
conststd::stringPROFILE_DESCRIPTION_25=_L("Compared with the default profile of a 0.8 mm nozzle, it has a much bigger layer height, and results in extremely apparent layer lines and much lower printing quality, but much shorter printing time in some printing cases.");
conststd::stringPROFILE_DESCRIPTION_26=_L("Compared with the default profile of a 0.8 mm nozzle, it has a slightly smaller layer height, and results in slightly less but still apparent layer lines and slightly higher printing quality, but longer printing time in some printing cases.");
conststd::stringPROFILE_DESCRIPTION_27=_L("Compared with the default profile of a 0.8 mm nozzle, it has a smaller layer height, and results in less but still apparent layer lines and slightly higher printing quality, but longer printing time in some printing cases.");
conststd::stringPROFILE_DESCRIPTION_28=_L("This is neither a commonly used filament, nor one of Bambu filaments, and it varies a lot from brand to brand. So, it's highly recommended to ask its vendor for suitable profile before printing and adjust some parameters according to its performances.");
conststd::stringPROFILE_DESCRIPTION_29=_L("When printing this filament, there's a risk of warping and low layer adhesion strength. To get better results, please refer to this wiki: Printing Tips for High Temp / Engineering materials.");
conststd::stringPROFILE_DESCRIPTION_30=_L("When printing this filament, there's a risk of nozzle clogging, oozing, warping and low layer adhesion strength. To get better results, please refer to this wiki: Printing Tips for High Temp / Engineering materials.");
conststd::stringPROFILE_DESCRIPTION_31=_L("To get better transparent or translucent results with the corresponding filament, please refer to this wiki: Printing tips for transparent PETG.");
conststd::stringPROFILE_DESCRIPTION_32=_L("To make the prints get higher gloss, please dry the filament before use, and set the outer wall speed to be 40 to 60 mm/s when slicing.");
conststd::stringPROFILE_DESCRIPTION_33=_L("This filament is only used to print models with a low density usually, and some special parameters are required. To get better printing quality, please refer to this wiki: Instructions for printing RC model with foaming PLA (PLA Aero).");
conststd::stringPROFILE_DESCRIPTION_34=_L("This filament is only used to print models with a low density usually, and some special parameters are required. To get better printing quality, please refer to this wiki: ASA Aero Printing Guide.");
conststd::stringPROFILE_DESCRIPTION_35=_L("This filament is too soft and not compatible with the AMS. Printing it is of many requirements, and to get better printing quality, please refer to this wiki: TPU printing guide.");
conststd::stringPROFILE_DESCRIPTION_36=_L("This filament has high enough hardness (about 67D) and is compatible with the AMS. Printing it is of many requirements, and to get better printing quality, please refer to this wiki: TPU printing guide.");
conststd::stringPROFILE_DESCRIPTION_37=_L("If you are to print a kind of soft TPU, please don't slice with this profile, and it is only for TPU that has high enough hardness (not less than 55D) and is compatible with the AMS. To get better printing quality, please refer to this wiki: TPU printing guide.");
conststd::stringPROFILE_DESCRIPTION_38=_L("This is a water-soluble support filament, and usually it is only for the support structure and not for the model body. Printing this filament is of many requirements, and to get better printing quality, please refer to this wiki: PVA Printing Guide.");
conststd::stringPROFILE_DESCRIPTION_39=_L("This is a non-water-soluble support filament, and usually it is only for the support structure and not for the model body. To get better printing quality, please refer to this wiki: Printing Tips for Support Filament and Support Function.");
conststd::stringPROFILE_DESCRIPTION_40=_L("The generic presets are conservatively tuned for compatibility with a wider range of filaments. For higher printing quality and speeds, please use Bambu filaments with Bambu presets.");
