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Create a Temperature Tower Using Cura – The Easy Way

temperature tower 2

Understanding the characteristics of the filament you are using can go a long way when it comes to getting the best print possible from a 3d printer. This is especially true when it comes to knowing the temperature that works best with the filament. A five-degree change in either direction can be the difference between getting a great print or a stringy mess with some types of filament. That’s where a temperature tower comes into play.

Most modern slicing software can change the temperature mid-print by injecting additional commands into the g-code file. With Cura, that’s done using the ChangeAtZ plugin, and I’m going to show you how to use it.

Before we dig into how to print a temperate tower, let’s first talk about what it is and why you would want to print one to begin with.

How to Print a Temperature Tower

Now that we talked about what a temperature tower is and when you would want to print one, let’s dig into how you actually do that.

If your looking for a good filament, I recommend HATCHBOX (link to Amazon). Its an all around great filament for a good price and my go to filament.

  • Heat tower (190-240) 5mm steps
  • Better temperature tower 240-180
  • Smart compact temperature calibration tower
  • For example, the 190-240 heat tower should start at 240 and decrease by 5 degrees every 5mm.  
  • Import the tower into Cura and select the profile you plan on using.

temperature tower

  • In this example, it would be 240.

temperature

  • Set the infill density to 10%, unless the notes on the tower you are using recommends differently.
  • Go to Extensions à Post Processing à and click on Modify G-Code

Modify G-Code

  • Click on Add a script and select ChangeAtZ, you will do this ten times. The values should look like this.

ChangeAtZ-1

  • The values for each plugin will change, basically layer height increases by 5 mm, and the temperature decreases by 5 degrees. Here is an overview of what all the values should be.

ChangeAtZ-10

  • Next, you will want to go back through and verify everything looks right, it’s easy to make a typo.
  • Slice the object and save it to an SD card.
  • Enter the SD card into your printer.
  • Kick off the print.

*Note: There have been some cases of the temperature not changing appropriately when using height as the trigger in Cura 4.8. If this ends up being happening to you, the workaround would be to switch the trigger from height to layers and increment the layer number by 25 (assuming you are using a .2mm layer height).

Here is a video I made covering the process. If you are still having issues, I would revert back to Cura 4.7 until the ChangeAtZ plugin can be patched.

What is a Temperature Tower

A temperature tower is a 3d object that is divided into sections that are printed at different temperatures. The object can be as simple as a tower or have additional features like bridges, cylinders, and cones. The main purpose of it is to help you identify the best temperature to use when printing with a specific filament .

You would do that by looking at the printed object to see what temperature looked the best, had the least amount of defects and stringing, and had the best bridge. With some filaments on Amazon, the results can be pretty close, and you would just need to make a judgment call on what one appears to be the best. With others, there can be a significant difference, and the right choice would be obvious.

Here are a couple of temperature towers from Thingiverse that I would recommend.

Most of the time I print a temperature tower that has a solid area, bridge, and a slight overhang. If I am working with more expensive filament, I typically opt to print a more complex tower to get the most from the filament.

Why Print a Temperature Tower

You would want to print a temperature to help you determine what temperature works best for the filament that you are using. The filament manufacture tends to give you a range you can use, but that range is typically 15-30 degrees, so it really only provides you a starting point. The difference between printing at the min and max of the range can be day and night, especially with more specialty filaments.  

When should I print a temperature tower

You should print a temperature tower for each filament brand and type you use. For example, if you use HATCHBOX and Overture PLA filament (both available on Amazon), you would want to print a temperature tower for each of those even though they are both PLA because they are made differently and have different specs.

If you bought another roll of something you already printed a temperature tower for, you wouldn’t need to print another one. The same thing stands true for going between filament types like PLA, ABS, TPU, etc.

Related Articles

  • Cura First Layer Settings
  • Cura Jerk Settings: How to Set Them
  • Cura Profiles
  • How to Remove the Disallowed Areas in Cura

Understanding the characteristics of the filament you are using can go a long way when it comes to getting the best print possible from a 3d printer. With most modern slicing software being able to change the temperature mid-print by injecting additional commands into the g-code file, it’s easy to print a temperature tower, and I highly recommend doing so when you start to use new filament.

Make sure you check out our YouTube channel, and if you would like any additional details or have any questions, please leave a comment below. If you liked this article and want to read others click here .

I'm Rob, the founder of 3dprintscape.com. I’m a Marine Corps vet with a master’s degree in Information Systems and have been working in the technology field for over a decade. I started working with 3D printers because I was fascinated by the technology and wanted a hobby that my kids and I can enjoy together.

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3D Printing Temperature Tower in Cura

  • Last updated: March 8, 2023
  • Author: Thomas Frend
  • Thomas Frend

All our reviews are based on our personal experience and deep research. We are supported by our partners, and we might earn commission from qualified purchases through affiliate links with no additional costs for the buyer. Read more .

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Fused Deposition Molding or FDM technology is one of the most popular 3D printing techniques.

It uses thermoplastic materials that melt and solidify. The properties of printed objects depend on many variables such as the material (filament), nozzle diameter, nozzle temperature, print speed, ambient temperature, etc. 

Filaments used for 3D printing have different chemical compositions, and therefore different temperature requirements.

Sub-optimal nozzle and hotbed temperature settings affect the filament, and therefore the quality and appearance of 3D prints :

  • If the temperature is set to a value that is below the filament melting temperature, the filament will not melt properly, leading to under-extrusion as the filament will not be pushed out properly.
  • If the temperature is set to a high value, too much filament will extrude from the nozzle, leading to problems such as oozing and stringing.
  • If the temperature is set to a value that is too high, the filament will burn up inside the hotend.

Printed temperature tower.

Even when manufacturers usually provide a range of temperatures, they don’t provide information about the optimal temperature for each filament.

Therefore, taking the time to learn about the best temperature setting for each filament you use can help you print strong and aesthetically pleasing 3D prints.

And this is where a temperature tower can help you. 

There are different 3D printing calibration tests that focus on different aspects of 3D printing.

E.g. the 3D Benchy focuses on small details and dimensional accuracy, and the XYZ calibration test focuses on dimensional accuracy for the X, Y, and Z axes respectively. 

In this article, we will look at another important calibration test, the temperature tower, that focuses on nozzle temperature, and show how you can print the temp tower in Cura and analyze the print results.

What is the Temperature Tower of Cura?

Cura is the most widely used free, easy-to-use slicing software for popular 3D printers, such as the Ender 3 series from Creality.

A temperature tower, or “temp tower”, is a calibration test that you can use to optimize the nozzle (hotend) and hotbed temperature for your 3D printer . The temperature tower is a model with a base and multiple blocks or sections. Each block on the tower is printed at a different nozzle temperature. 

Temp tower for nylon materials.

The usual practice is to print the block next to the base at the highest temperature that you want to use for the test and reduce the nozzle temperature by 5 °C for each successive block.

So if you set the slicing software to print the first block at 230°C, the next block would print at 225 °C, and so on. 

Usually there are no limitations how many blocks you can print with the temperature tower.

Once you print a complete temperature tower, you can analyze the print results and decide upon the nozzle temperature setting that is optimal for the filament you want to use.

Now let’s go ahead and look at how you can use Cura to print a temperature tower.

How To 3D Print Temperature Tower Test in Cura

As already mentioned, Cura is very easy to install and use. So let’s start with this step-by-step guide to learn how to print your first temperature tower.

Temperature Tower Model

You can use different ways to find models of temperature tower.

The 3 most common are:

1. Cura marketplace (recommended)

Cura marketplace offers you some great free plugins and temperature tower is one of them. I am using the one called “Auto towers generator”. It comes with many other helpful models for configuration and so you don’t need to search and upload them always.

Here is where to find it:

Temperature tower plugin installation in Cura.

Once you you have found it, simply install it and than it will be visible under “Extension” – “”Auto towers”.

2. Download

You can also find a model template on sites like thingiverse.com . There are many useful models to download and you’ll find additional helpful information in the model description.

3. Design your own

Yes, you can also design your own if you are familiar with 3D software. This option will give you more freedom, as you can design and adjust the tower to your need.

To design your own tower, you can use free 3D modeling software like TinkerCAD , which is very easy to learn.

Cura Settings

The following is a list of settings that you need to make in Cura to print the temperature tower:

Print temperature

This is the temperature setting for the first block of the temperature tower.

The value you set for the print temperature depends on the filament that you use .

Each filament has a distinct glass transition temperature , which is the temperature at which the solid filament turns into a substance that your printer can extrude. The correct print temperature setting will ensure that the hot end of your printer heats the filament properly as it pushes it through the nozzle.

If you are using PLA, for example, and your printer has a heated bed, set the bed temperature to 60 °C and the nozzle temperature to 210 °C.

Print speed

This setting controls the motors that move the printhead on your 3D printer.

Slow print speeds produce high-quality prints, but take a longer time to finish. High print speeds, on the other hand, take less time to finish but produce lower-quality prints with lower accuracy and weaker parts.

Cura uses the print speed setting to determine the amount of filament the 3D printer will need to extrude to maintain the required print speed. For a medium-quality print, you can set the print speed to 50 mm/s.

3D-printed objects are not fully solid structures. They have an external region that is visible, and an infill pattern that is not visible.

The infill helps to save material and reduce printing time. You can vary the design and density of the infill pattern.

The Grid infill pattern on Cura creates a grid on every layer of the 3D print. To start, you can use Cura’s grid at 20% which will provide moderate strength for your temperature tower. 

Grid infill 20%.

Layer height

This setting corresponds to the height of each successive filament layer that your printer extrudes.

Layer height affects the overall print speed and quality. A general practice is to use a layer height equal to half the nozzle diameter.

Since most popular printers, such as the Ender 3 , come with a 0.4 mm nozzle, you can set the layer height to 0.2 mm.

These settings control the overall behavior of the 3D printer. Now we will look at settings that modify the nozzle temperature for each block on the temp tower. 

Temperature Changes

The G-code is a programming language that controls machines connected to computers. To make temperature changes for each block, you need to modify the G-code :

  • On Cura, go to the “Extensions” menu
  • Select “Post Processing” 
  • Select “Modify G-code” 
  • Click on “Add a script” 
  • From the sub-options, select “ChangeAtZ”. This is where you configure the slicing software to make changes based on the z-axis height or number of layers.
  • Set “Trigger” to “Height”
  • From the options on the right choose ‘Change Height’ as ‘5.0’ mm 
  • Enable “Change Extruder 1 Temp” 
  • Enter the desired temperature value for “Extruder 1 Temp”
  • Increment “Changing Height” by 5 mm 
  • Decrement “Extruder 1 Temp” by 5 °C. 

Temperature tower setup.

Once the configurations are complete, you can print the temperature tower. 

Checklist To Understand Temperature Tower Results

After the temperature tower is completely printed, you can inspect it to decide the best nozzle temperature for your filament. 

Examine Visually

PLA temperature tower.

A simple visual inspection will give you a good overall picture of how different nozzle temperatures affect 3D print quality and appearance.

Based on which part of the tower has achieved the highest print quality, you can decide on the temperature of your next prints.

Layer Adhesion Inspection

Layer adhesion gives an insight into the print quality and model strength.

If the filament melts properly, successive layers will adhere better and there won’t be any gaps between layers. As a result, the model will be strong and will have a good visual (smooth) appearance.

To test the adhesions of the layers, try to use any tool to separate the layers.

The most together glued layers with the best visual appearance are your favorites.

The Surface

This is a very important evaluation criterion if you plan to print highly detailed objects, such as miniatures or faces.

The block with ideal temperature will have a nice smooth surface, sharp edges, and nice visible details.

On the other hand, the blocks with low temperatures will have a small unsmooth surface with little pieces of filament.

Stringing occurs when small strings of plastic are left behind on a printed model. This is due to plastic oozing out of the nozzle while the extruder moves to a new location.

Stringing can vary in appearance but often looks like fine filament hairs between two points that would not be connected under normal circumstances.

Stringing example

Generally known, stringing is not a signal of bad quality printing. Anyway, this is a signal where you need to adjust your temperature. Same as with

Cura Temperature Tower Not Changing Temp?

Upon inspection, if you find that the different test blocks on your temperature tower appear the same, it could be due to a configuration issue that led to the printer using the same temperature to print each block. 

To solve this problem, the first thing that you can do is recheck Cura configuration settings . 

If you recheck the Cura configuration and find that it is set up correctly, the next step is to try changing the “Trigger” to “Layers” , and increment the layer number by an amount that corresponds to the layer height. For example, if you are using 0.2 mm layer height, you can increment the layer number by 25 for each successive block on the temperature tower.

Knowing how to calibrate your 3D printer is essential if you want strong and high-quality 3D prints.

Printing a temperature tower with Cura is easy: you can set up the software in a few minutes and start printing. Once your temperature tower is ready, you can inspect it and select the temperature that gives the best results. 

Cura is just awesome free slicing software that many 3D printing enthusiasts are using. You can also learn another great feature like “ Pause at Height ” in our last article.

Hope this article will help you find out the right temperature settings for your prints. If you have any questions, don’t hesitate to reach out to us.

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Optimal 3D printing temperature using temperature tower

I am currently working on a script that will inject the temperature changes in your gcode. Check back after a while.

One part of 3D printer's calibration is finding the optimal printing temperature. This temperature can differ based on the hotend design, filament manufacturer, material type or even ambient temperature.

The easiest way to quickly test a range of temperatures is by printing a temperature tower. Unfortunately, setting the temperature changes isn't obvious or even impossible with some slicers.

We'll be using this temperature tower by Jan Petersen from Thingiverse. I recommend it because the sections are evenly spaced and it includes a stringing test. Besides retraction settings, stringing is dependent on printing temperature so you might as well test it at the same time.

For PLA, I recommend testing temperatures in the range from 190°C to 215°C. Try 210°C to 240°C for PETG and 220°C to 250°C for ABS.

tour de temperature 3d

When your tower is finished, examine the overhangs, bridging and stringing. The ideal temperature is the lowest where the layers are still bonded together strongly (try breaking it apart) and where you can notice the least amount of artefacts. Also, the lower the printing temperature the better bridging you can achieve.

In some cases, the entire tower might look nearly identical. This is usually a sign of a good quality filament. I recommend selecting the temperature in the middle of the range to begin with.

Let's see how you can set the temperature changes using different slicers.

Simplify3D has a built-in tool for setting different properties at different heights. This is great for changing infill percentage, but it can also make changing the temperature very easy.

You will find it under the Tools menu and then Variable Setting Wizard .

tour de temperature 3d

For our case, you should split the model beginning at 12mm and then at every further 10mm (i.e. 22, 32, 42 and so on).

Once done, Simplify3D will create a new process for every height that you've entered. The first process is attached to the bottom section of the tower.

Double click on each process, go to the Temperature tab and then select the Extruder temperature . You should set a single temperature at Layer 1.

tour de temperature 3d

Repeat this for each process while changing the individual temperatures. When you're ready to slice it, be sure to select all of the processes before continuing.

tour de temperature 3d

Save the gcode and your tower is ready to be printed.

Cura doesn't have a built-in support for changing the temperatures, but there is a plug-in available that will help you do that. Best of all, it's already included with Cura.

Go to the Extensions menu and then select Post processing -> Modify G-Code :

tour de temperature 3d

Begin by adding a new script. The one we are looking for is called ChangeAtZ . Then simply enter the height of the change and select the Change Extruder 1 Temp . Enter your desired temperature in °C. Add a new script for every temperature change and repeat the above.

tour de temperature 3d

Unfortunately, Slic3r does not currently support changing temperatures in any way. You will have to manually change the gcode as explained in the next section.

Set changes manually

If your slicer doesn't support the temperature changes or if you prefer to do it yourself, then you can edit the gcode file and set the changes manually.

Gcode files are written in plain text, so you can open them in any text editor.

To set the temperature changes, you have to search for a certain height and insert the appropriate command there. Specifically, you should search for the G1 Z12.0 command, as we want the first temperature change to occur at the height of 12mm. Unfortunately, this is where things get complicated.

Different slicers have slightly different ways of creating the gcode file. For example, Simplify3D and Slic3r will insert only the individual command to change the height, which is easy to find. Cura, on the other hand, will combine the height change with XY movement as well and the gcode would look like this (they're also using G0 instead of G1 , but the end result is similar):

G0 X113.263 Y93.263 Z12.15

To further complicate things, if you have Lift-Z / Z-hop enabled, you might see a lot of commands that use the same height, but you need to find the one that actually changes the current layer.

Luckily, slicers also include human readable comments in the gcode, which helps greatly. All comments begin with the ; symbol at the beginning of the line.

In Simplify3D , the comment for layer height change looks like this and you should be able to find the actual G1 command right after it:

; layer 80, Z = 12.051 ; feature inner perimeter G1 Z12.051 F720

With Slic3r , it should look like this:

;AFTER_LAYER_CHANGE ;12.05 ; PURGING FINISHED G1 Z12.050

Cura only comments on the layer's number, but the G0 command should be right after that:

;LAYER:60 ;MESH:Temperature_Tower.stl G0 X113.263 Y93.263 Z12.15

You might notice the F command at the end of some G commands; that is simply the movement speed.

Once you've successfully found the correct position in the gcode, insert the temperature change command into a new line just after the height change. The command to change the temperature is:

M104 S215 T0

where S is the temperature in °C and T0 signifies the first extruder.

tour de temperature 3d

In a similar fashion, find all the other locations where you wish to change the temperature ( G1 Z22.0 , G1 Z32.0 , etc.) and insert the M104 command afterwards.

With that done, save the gcode file and you're ready to print the modified temperature tower.

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Tour de Température d'Impression 3D

14 nov. 2022

Par Sergio Peciña

A 3D printed temperature tower test part by Eolas Prints

Ce test doit être effectué à chaque fois que vous imprimez avec un nouveau matériau , car il fournit l'un des principaux paramètres d'impression du filament, à savoir la température d'extrusion. Ce test consiste en une partie échelonnée, dans laquelle la température d'extrusion sera variée progressivement de 5 degrés. Comme chaque matériau a une température optimale, ce test comporte différentes parties pour différents matériaux. Ces pièces sont pratiquement les mêmes, seule la plage de température est différente pour une lecture plus facile. Veuillez suivre les étapes ci-dessous.

Télécharger la partie appropriée

Téléchargez la pièce appropriée pour le matériau ( PLA , TPU , PETG ) à tester et ajustez les paramètres d'impression comme suit :

  • Température : Celle inscrite sur le premier échelon de la tour à imprimer.
  • Débit : 100 %
  • Hauteur de couche : 0,2 mm
  • Périmètre : 2 ou 3
  • Remplissage : 5 ou 10% (le motif est indifférent)

Tour de température Eolas Prints

Trancheuses

Dans le slicer , on va adapter le gcode pour faire varier la température automatiquement. Cela dépend des slicers qui vont être utilisés, ici nous allons utiliser deux des slicers les plus utilisés : CURA et PrusaSlicer.

Nous découpons la partie avec les paramètres ci-dessus et cliquons sur Extensions → Post-traitement → Modifier GCODE. La fenêtre contextuelle suivante apparaît :

Plugin de post-traitement Ultimaker CURA

Cliquez sur ajouter un script et ajoutez " ChangeAtZ " et cochez l'option " Changer la température de l'extrudeur 1 " qui est l'endroit où nous entrerons la température de la deuxième étape. Nous entrons également dans la hauteur de 16 mm qui est l'endroit où la première étape se termine et la seconde commence, c'est-à-dire l'endroit où nous voulons que la température change. Assurez-vous de sélectionner l'option "calques successifs" du menu déroulant "Appliquer à" afin d'appliquer l'effet à plusieurs calques.

Plug-in Ultimaker CURA ChangeAtZ

Nous ajoutons autant de scripts qu'il y a de pas dans la pièce, en tenant compte du fait que le premier pas se termine à 16 mm et que les autres pas ont une mesure de 14 mm.

Tour de température Ultimaker CURA ChangeAtZ Eolas Prints

Nous coupons à nouveau la pièce et elle est prête pour le changement de température à chaque étape.

Tour de température Ultimaker CURA Eolas Prints

Comme vous pouvez le voir sur l'image à gauche des informations d'impression, il y a un carré blanc avec un cercle rouge avec un nombre qui indique combien de modificateurs nous avons actifs à ce moment.

PrusaSlicer

Nous découpons la pièce avec les paramètres mentionnés ci-dessus.

Tour de température PrusaSlicer Eolas Prints

Après avoir découpé la pièce, le gcode est modifié à l'aide de la barre verticale orange à droite de l'écran.

Barre de sélection de couche PrusaSlicer

En déplaçant la flèche du haut, on la place en position de changement de palier de température (16mm).

Sélection de la première étape de PrusaSlicer pour la tour de température Eolas Prints

En faisant un clic droit sur l'hexagone à côté de la flèche, un menu apparaîtra dans lequel vous devrez sélectionner l'option " Ajouter un G-code personnalisé ". La fenêtre contextuelle suivante s'ouvrira :

PrusaSlicer Custom Gcode pour tour de température Eolas Prints

Dans la fenêtre, écrivez la commande de changement de température, qui est M104, puis indiquez la nouvelle température, qui est écrite sous forme numérique et en plaçant un "S" devant le nombre. Par exemple, en cas de PLA , dans cette première étape, la température doit être changée à 220 degrés, donc le code à entrer serait : M104 S220 .

Après avoir entré le code, cliquez sur accepter et nous pouvons voir que la couche dans laquelle le modificateur a été entré a changé de couleur pour indiquer que certains paramètres ont été modifiés.

Couche de changement de couleur PrusaSlicer

La même procédure est utilisée pour modifier la température pour toutes les étapes suivantes. En d'autres termes, la couche de changement d'étape est sélectionnée et une modification de température est ajoutée. Par exemple, la couche de changement d'étape est sélectionnée et une modification de température est ajoutée.

Lorsque nous avons modifié toutes les températures, tranchez-les à nouveau pour que les modifications soient enregistrées dans le code G que nous enverrons à la machine.

Tour de température imprimée en 3D

Tour de température imprimée

Une fois que la tour de température a terminé l'impression, nous observons les différentes étapes en mettant l'accent sur les questions suivantes :

  • Ponts : Trou central de la pièce
  • Débords de 15, 30 et 60 degrés : , Côté droit de la pièce.
  • Zones arrondies et petites rétractions : Côté gauche de la pièce.
  • Lettrage et texte

Après avoir analysé tous les échelons, nous sélectionnons celui qui convient le mieux à ces situations et la température indiquée dessus sera la température optimale pour le matériau analysé.

REMARQUE : La pièce peut ne pas s'imprimer complètement car l'unité de fusion est bloquée en raison d'une basse température. Si cela se produit, arrêtez l'impression et analysez la partie incomplète de la même manière.

En lire plus.

A 3D printed part to calibrate Print flow by Eolas Prints

Test de Flux d'Impression 3D

3D printed retraction test part

Test de Rétraction d'Impression 3D

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Un matériau très simple à imprimer en suivant les paramètres recommandés. La finition des pièces est comme prévu. La bobine arrive bien conservée, sans humidité, et le bobinage est adéquat.

Bon filament, configuration facile dans mon cas avec un Ender 3, l'enroulement n'est pas très uniforme mais il ne produit pas de bourrages, il a une bonne finition, sans problèmes d'adhérence à la plaque et entre les couches le seul mais je pense qu'ils le feraient faut élargir la gamme de couleurs et le prix mais c'est vrai aussi que pas cher c'est cher, bref je vais continuer à utiliser cette marque

Comme toujours, cette marque ne déçoit jamais, très facile à imprimer, adhérence parfaite entre les couches sans avoir besoin d'un lit chaud. Les principaux paramètres que j'utilise pour imprimer avec ce filament dans une imprimante à extrusion directe sont : température d'impression 215 degrés lit chaud première couche 60 degrés le reste à 0, vitesse 25 mm par seconde

Je suis dans ce monde depuis longtemps, et j'ai essayé d'innombrables marques de filaments, et je l'ai enfin trouvé. Ne laisse pas de fils ni de cordons, adhérence parfaite au lit et entre les couches. extrudeuse directe Elle imprime parfaitement : ce sont mes paramètres, température 205° vitesse d'impression 25mm/s Rétraction 1.8mm Vitesse de rétraction 25mm/s Vitesse de déplacement 220 mm/s

Je suis dans ce monde depuis longtemps, et j'ai essayé d'innombrables marques de filaments, et je l'ai enfin trouvé. Ne laisse pas de fils ni de cordons, adhérence parfaite au lit et entre les couches. extrudeuse directe Elle imprime parfaitement : ce sont mes paramètres, température 235° vitesse d'impression 50mm/s Rétraction 1.8mm Vitesse de rétraction 25mm/s Vitesse de déplacement 220 mm/s

Temp Tower / Tour de température PLA

Temp_Tower_PLA.jpg Temp Tower / Tour de température PLA

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Aerotronic

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⬇️ Info sur le fichier 3D

Description du modèle 3d.

Une autre simple tour de temp...

La base est de 30 x 20 mm, d'une épaisseur de 1 mm

La tour est de 15 x 15 mm

De 180 à 225°C

A 0,2 mm, 30 mm/sec, avec une buse de 0,4 mm, c'est parti pour une heure d'impression.

Pour une impression automatique, vous devrez modifier votre Gcode (changement temporaire) aux niveaux suivants :

56,111,166,221,276,331,386,441,496

en ajoutant une commande M104 T0 SXXX où XXX est la température à laquelle vous voulez correspondre.

Si vous disposez du Geeetech Prusa I3 Pro B, vous pouvez télécharger le fichier intitulé "Temptower PLA with Temp.gcode" et l'utiliser tel quel.

Bien sûr, rien d'original, juste une autre tour de tempête

Amusez-vous bien

MODIFIER 2019-01-12 :

J'ai ajouté un PETG, comme l'a demandé quelqu'un.

MODIFIER 2019-01-25 :

Comme VanessaE (https://www.thingiverse.com/VanessaE/about), merci à elle, a laissé un commentaire très intéressant, je fais un copier/coller de son commentaire, car c'est un conseil pour éviter d'ajouter des changements temporaires, manuellement dans le gcode, et ce commentaire est vraiment polyvalent :

Petite tour utile. Astuce : pour Slic3r, insérez ceci dans le g-code "after layer change" (Imprimante -> G-code personnalisé) :

{if [layer_z] > 1}M104 S{ floor( { [layer_z] / 11} )*5 + 180}

Ensuite, découper/exporter et imprimer. Cela permettra de générer les changements de température nécessaires, aux bons endroits (juste avant chaque règle horizontale), sans avoir à modifier manuellement le fichier G-code. En fait, il met un M104 Sxxx sur chaque couche, mais la valeur ne change qu'à chaque segment de 11 mm, donc il a toujours l'effet désiré.

ÉDITER 2020-05-02 :

À la demande de certains fabricants, j'ai ajouté deux nouvelles versions :

Au lieu d'avoir une température qui augmente de bas en haut, elle diminue maintenant.

Amusez-vous bien, et choisissez la bonne intérimaire ! !!

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  • 3d_printing_tests

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Graças a Harvard, agora você pode conhecer a Grande Pirâmide de Gizé em um passeio virtual 3D

Você também pode visitar a esfinge..

Vika Rosa

Você provavelmente deseja visitar alguns dos pontos turísticos mais famosos do mundo, como o Cristo Redentor, no Brasil, o Coliseu em Roma e, claro, as Pirâmides de Gizé, no Egito. Sabia que é possível fazer um tour virtual para conhece-las? Descubra abaixo como fazer isso.

Um tour virtual nas Pirâmides de Gizé

Recentemente o site Giza Mused disponibilizou um tour virtual nas pirâmides. Para isso, basta acessar este link, se registrar e aproveitar o tour. No entanto, existe outra maneira ainda mais fácil.

Brasil realmente tem muitos feriados? Mapa mundial de folgas remuneradas mostra que a realidade é outra

A Universidade de Harvard já fez a mesma coisa em 2022 e basta acessar este site. Não é preciso nem ao menos se registrar. Você pode até mesmo explorar o interior e descobrir que mistérios elas guardam.

Thanks to Harvard University, you can now virtually enter the Great Pyramid of Giza in 3D and 360º pic.twitter.com/7ZYVanpZuu — Tansu Yegen (@TansuYegen) November 11, 2022

O tour virtual das Pirâmides nos leva pelos apertados espaços da grandiosa estrutura, permitindo que todos tenham uma boa ideia de como é realmente a situação interna com uma visão não apenas 3D, mas também em 360º - ou seja, com muita imersão.

Além disso, Harvard também disponibilizou outras possibilidades de passeio, como a Grande Esfinge, templos, vales, cemitérios e outras pirâmides. Pode ser sua maneira de matar a vontade caso ainda não possa conhecer esses lugares pessoalmente.

Inscreva-se no canal do IGN Brasil no Youtube e visite as nossas páginas no Facebook , Twitter , Instagram e Twitch ! | Siga Vika Rosa no Instagram

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IMAGES

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COMMENTS

  1. Tour de température ABS et PLA / PLA & ABS tower temperature by

    Français : Tours de température pour l'ABS (210 à 250 °C) et le PLA (180 à 220 °C). Les fichiers G-code créés avec Cura 3.2.1 prêts à l'emploi sont joints. Le changement de température s'effectue toutes les 50 couches. buse 0,4 mm English : ABS (210 to 250°C) and PLA (180 to 220 °C) temperature towers G-code files made with Cura 3.2.1 and ready to print are annexed. Temperature ...

  2. Temp Tower PLA,ABS,PETG by stoempie

    Explore Category. A simple temp test 19/09/2017 TPU Temp tower Added 28/09/2017 Personal Gcode added (no self level) 28/04/2018 PLA Settings Added 29/04/2018 PLA 180-22.

  3. "tour de temperature" 3D Models to Print

    Start Notification Service for new "tour de temperature" 3D Models. Most popular tour de temperature 3D Models Download: free Website: Thingiverse. add to list Tags Anet A8 PLA Temp Tower 170-210°C , , , Download: free Website: Thingiverse. add to list. Gcode Ender 3 stock PLA temp tower 220-190 ...

  4. Create a Temperature Tower Using Cura

    Review the notes in the tower selected to see when you should be changing the temperature and what the starting temperature should be. For example, the 190-240 heat tower should start at 240 and decrease by 5 degrees every 5mm. Import the tower into Cura and select the profile you plan on using. Set the starting temperature as the main printing ...

  5. 3D Printing Temperature Tower in Cura

    A temperature tower, or "temp tower", is a calibration test that you can use to optimize the nozzle (hotend) and hotbed temperature for your 3D printer. The temperature tower is a model with a base and multiple blocks or sections. Each block on the tower is printed at a different nozzle temperature. A small model of a temp tower for nylon ...

  6. 3 Ways How to Use a Temperature Tower for Optimal 3D Prints

    These are the steps to download a separate temperature tower for optimal 3D prints: Find and download a suitable temperature tower model from Thingiverse. Import the temperature tower model into your preferred slicing software. Adjust the print settings according to your preferences. Generate the G-code for the temperature tower model.

  7. Comment faire une TOUR DE TEMPÉRATURE et CALIBRER un nouveau ...

    🚀 Le Guide Ultime de paramétrage des Impressions 3D : https://bit.ly/PDF-Total-GuideParametres3DÀ quoi sert exactement une tour de température? Est-elle néc...

  8. Optimal 3D printing temperature using temperature tower

    Besides retraction settings, stringing is dependent on printing temperature so you might as well test it at the same time. For PLA, I recommend testing temperatures in the range from 190°C to 215°C. Try 210°C to 240°C for PETG and 220°C to 250°C for ABS. When your tower is finished, examine the overhangs, bridging and stringing.

  9. Tour de température by Mitsu3D

    Tour de température . 0 reviews . 8. Mitsu3D @Mitsu3D_596306 Follow Following. ... Tour de temperature 220°/190° 3. 0. 64. Printables.com. ... Download free 3D printable STL models. English en. Čeština Deutsch English Español Français Italiano Polski . Create. search; Login ; 3D Models; Store;

  10. Quick temperature turn

    Fairly technical temperature tower design, economical in filament and fairly fast to print (count about 6gr per tower and about 1h of printing) for average parameters). ... 210-185 - Tour de température Mitsu_3D.3mf 220-195 - Tour de température Mitsu_3D.3mf 230-205 - Tour de température Mitsu_3D.3mf ...

  11. CURA programmer tes changements de température (tour de ...

    Apprendre à paramétrer tes changements de température dans CURA pour générer ta propre tour de température.Tuto comment imprimer et interpréter une tour de t...

  12. Ender 3 Smart PLA and PETG Temp Tower (gcode included) by evanphi

    HOW TO USE A TEMP TOWER: Run this G-code (or code the STL yourself) and see which temp gives you the least amount of stringing and best overall look and strength. Check out my calibraton guide on Reddit for more detailed tuning instructions. CHANGE LOG: Removed the base from the original when I sliced it up. Included is the gcode file. Made for my Ender 3 Pro, but should work on any printer ...

  13. "tour temperature" 3D Models to Print

    1949 "tour temperature" 3D Models. Every Day new 3D Models from all over the World. ... search suggestions: tour de temperature tour de temperature abs temperature tower petg temperature tower temperature test torre de temperatura. share: email facebook twitter vk linkedin xing reddit. Start Notification Service for new "tour temperature" 3D ...

  14. Ultime tour de température personnalisable

    Introduction ===== Objectifs du projet ----- J'ai décidé de concevoir cette tour de température car lorsque je teste de nouveaux filaments, je veux parfois seulement tester les problèmes de cordage, mais parfois tout ce que je veux savoir, c'est quelle température est la meilleure pour les surplombs et il n'y avait pas de tour de température où je pouvais désactiver les éléments que ...

  15. Quick temperature turn

    My favorite temperature tower, it is fast (about 40min) consumes almost no filament, has bridges, overhangs, cones and has a very suitable range for most PLA ... 3D printer file information Design number: ... Tour de température 220-190.STL Tour de température 220-190.gcode Learn more about the formats. Publication date: 2022-02-27 at 00: ...

  16. tour de temperature 3D printing models

    2896 tour de temperature Best free and paid 3D printing models, stl and objects to download.

  17. Fichier STL gratuit Tour de température 230

    Fichier STL gratuit Tour de température 230 - 200 🔧・Design pour imprimante 3D à télécharger・Cults. Plus de catégories.

  18. 3D Printable Tour de température PLA by reggi_3d

    Description. Tour de température pour PLA. 190 à 235 degrés. License. MyMiniFactory Exclusive - Credit - Remix - Noncommercial. Technical Information. Date published. 22/08/2018. Technology.

  19. Tour de Température

    Tour de température imprimée. Une fois que la tour de température a terminé l'impression, nous observons les différentes étapes en mettant l'accent sur les questions suivantes : Ponts: Trou central de la pièce; Débords de 15, 30 et 60 degrés :, Côté droit de la pièce. Zones arrondies et petites rétractions : Côté gauche de la pièce.

  20. Temp Tower / Tour de température PLA

    Une autre simple tour de temp... La base est de 30 x 20 mm, d'une épaisseur de 1 mm La tour est de 15 x 15 mm De 180 à 225°C A 0,2 mm, 30 mm/sec, avec une buse de 0,4 mm, c'est parti pour une heure d'impression. Pour une impression automatique, vous devrez modifier votre Gcode (changement temporaire) aux niveaux suivants : 56,111,166,221,276,331,386,441,496 en ajoutant une commande M104 T0 ...

  21. Graças a Harvard, agora você pode conhecer a Grande Pirâmide de Gizé em

    Recentemente o site Giza Mused disponibilizou um tour virtual nas pirâmides. Para isso, basta acessar este link, se registrar e aproveitar o tour. No entanto, existe outra maneira ainda mais fácil. A Universidade de Harvard já fez a mesma coisa em 2022 e basta acessar este site. Não é preciso nem ao menos se registrar.

  22. Temperature Tower With Shapes by mikeneron

    Wanted a temperature tower with some shapes built in so designed this one in Fusion 360. Has some simple shapes such as ellipse, circle, triangle, and squares along with a cone and pipe shape. The base is 2mm, so keep that in mind for changing the temperature through your slicer. For example, the PLA tower starts at 220C so you would print at that temperature until the layer height reaches 12 ...