# Ellis-SuperSlicer-Profiles

**Repository Path**: littlefishcode/Ellis-SuperSlicer-Profiles

## Basic Information

- **Project Name**: Ellis-SuperSlicer-Profiles
- **Description**: Ellis-SuperSlicer-Profiles中文版本
- **Primary Language**: Unknown
- **License**: Not specified
- **Default Branch**: master
- **Homepage**: None
- **GVP Project**: No

## Statistics

- **Stars**: 0
- **Forks**: 1
- **Created**: 2023-02-13
- **Last Updated**: 2024-05-28

## Categories & Tags

**Categories**: Uncategorized

**Tags**: None

## README


# Ellis的配置文件


Ellis是Voron官方推荐的一个网友，由于不同耗材、喷嘴的切片文件参数需要反复测试调整才能达到最好的效果，Ellis进行了反复的实验，并发布了他关于SupperSlicer的配置文件。这里翻译了他的文章，希望3D打印机里面的爱好者，也能根据自己的经验共同维护这个开源项目。

## 1、阅读指导



### 1.1 重要说明
⚠️ 所需的超级切片器版本： 📄2.4.58.5（最后更新： 2022-11-07）

* 您需要在更新之前备份 `%appdata%\SuperSlicer` 文件夹，以防万一。
  * 使用不同的 SS 版本，后果自负。
  * 较新的版本通常会引入新的错误或默认值，而较旧的版本可能与某些设置不兼容（或者只是在导入配置文件时出错）
  * 我将在测试较新版本时更新它。

⚠️此配置文件的速度/加速度针对线性导轨 CoreXY（特别是我的个人 V2）进行了调整。

* 您自己的打印机，尤其是其他类型的打印机，可能需要较低的速度和加速度。
* 但是，这些速度在任何精心打造的Voron V2/三叉戟/V0 上都是完全可以实现的。



### 1.2 介绍

可以提前看看[校准指南](/calibration/01-introduction)。

`SuperSlicer`可能很棘手，软件中有一些“雷”。这篇文章试图消除尽可能多的“坑”，希望能快速熟练`SuperSlicer`。我花了很多时间尝试不同的设置，希望其他人不必重复相同的故障排除。📌[更新日志](https://github.com/AndrewEllis93/Ellis-SuperSlicer-Profiles#profile-change-log)记录了相关历程。

这些配置文件可以在**任何打印机**上很好地工作，前提是您相应地调整速度、加速度、机器限制/尺寸和体积流量限制。我实际上在我的 Ender 3 上使用相同的配置文件。

这些配置文件在不断发展。请检查[📌更新日志](https://github.com/AndrewEllis93/Ellis-SuperSlicer-Profiles#profile-change-log)偶尔获取新的设置/结果，因此您不必重新导入整个配置文件。

如果你觉的有帮助，可以[赞助原作者](https://www.paypal.com/paypalme/AndrewEllis93)



## 2、导入配置文件



### 2.1 如何下载

**1）** 导航到.ini文件。

**2）**右键单击“Raw”，然后单击“将链接另存为”

如果不使用“Raw”按钮，导入时会出现错误。

![](./Images/Download.png)

或者，将整个存储库下载为.zip：

![](./Images/DownloadRepo.png)

- 或者，如果您安装了 git，只需从您选择的目录中即可。`git clone https://github.com/AndrewEllis93/Ellis-SuperSlicer-Profiles.git`



### 2.2 导入配置

如果您将整个存储库下载为.zip，请将其解压缩。

选择文件 -> 导入 **->导入配置**或按 ctrl+L。

![](./Images/Import.png)

选择要导入的配置文件的**.ini**文件。

打开每个选项卡，然后单击软盘图标以保存配置文件。您可能需要选择一个新名称。（您可以在弹出的框中输入！

![](./Images/Saving.png)



## 3、启动 G 代码

如果要将温度传递到PRINT_START宏，请确保适当地取消注释/修改起始 gcode。

请参阅的[📄“将切片器变量传递给`PRINT_START`"](https://github.com/AndrewEllis93/Print-Tuning-Guide/blob/main/articles/passing_slicer_variables.md)部分，以获取更多信息。

![](./Images/StartGcode.png)





## 4、打印体积速度限制

配置文件文件夹包含此设置为 11、15、24 和30立方毫米/秒。为您的特定前端选择适当的值（见下文）。

**如果对于热端来说，此值设置得太高，则可能会出现挤出机跳跃或者对耗材研磨的厉害。**

![](./Images/VolumetricSpeed.png)

### 什么是最大体积速度限制？

Volumetric Speed Limit：限制热端挤出的最大速率。无论您如何调整速度、层高或线宽，它都永远不会让机器超越您热端的能力。

即使不追求速度，我也强烈建议您为您的热端设置适当的值。这是一个很好的故障保护。

我将填充速度设置为 **300mm/s**。这是我希望我的填充打印的绝对最大值 - 但实际上，由于此限制，它通常会打印得更慢。这基本上可以以**热端允许的速度打印填充物，最高可达 300mm/s。**

有关测试您自己的最大流速的更多阅读、公式和方法，请参阅[确定最大体积流量](https://github.com/AndrewEllis93/Print-Tuning-Guide/blob/main/articles/determining_max_volumetric_flow_rate.md).

## 5、加速度

这些加速是用我个人的 V2 调整的。与往常一样，您的结果可能会有所不同。

![](./Images/AccelControls.png)



### Without Input Shaper

选择“Without Input Shaper”文件夹的配置文件。

### With Input Shaper

选择“With Input Shaper”文件夹的配置文件。

从共振图的右上角找到建议的最大加速度。

如果配置文件的任何加速度（*不包括*行驶加速度*）超过最大值，请将其降低到该最大值。

* 通常travel(非打印速度)可以设置成超过最大速度，看 [📄here](https://github.com/AndrewEllis93/Print-Tuning-Guide/blob/main/articles/determining_max_speeds_accels.md) 确定你的最大非打印速度加速度。
* 



我个人仍然建议对轮廓等保持低加速度。您的 IS 校准会随着皮带张力的松弛而漂移。我在提高轮廓加速度时也遇到了一些凸起的问题。设置它并忘记它。



## 6、挤出乘数

`Extrusion Multiplier`

挤出乘数（EM）针对我的特定耗材品牌/批次进行了调整。您必须针对您的特定耗材调整您的耗材。

看[📄这里](https://github.com/AndrewEllis93/Print-Tuning-Guide/blob/main/articles/extrusion_multiplier.md)用于调整说明。

![](./Images/em.png)





## 7、冷却

此配置文件使用**静态风扇速度**。社区发现，不同的风扇速度，特别是对于高收缩材料，会导致层不一致。

⚠️您的最佳风扇速度将根据您的风扇、材料、层时间和腔室温度而有所不同。

**我的风扇速度对你来说可能太高了，特别是如果你的腔室比我的低（~65C）。**

看到我的[📄“冷却和层数”](https://github.com/AndrewEllis93/Print-Tuning-Guide/blob/main/articles/cooling_and_layer_times.md)部分。

我使用 Stealthburner 与 Sunon 5015 风扇.

![](./Images/FanSpeeds.png)



## 8、喷嘴扁平

⚠️我的配置文件使用一些激进的线宽，这可能不适用于某些较尖的喷嘴。

**只有当您的喷嘴扁平足够宽以支撑所需的线宽时**，您才能获得良好的结果。您可以使用卡尺粗略测量喷嘴平面。

这可能会导致较厚的挤出生产线（如填充物）在喷嘴周围卷曲 - 如果它足够尖，甚至偶尔会导致较薄的周边出现间隙问题。

**可能会导致问题。**

![](./Images/nozzle-pointy.png)

**更好**

![](./Images/nozzle-flat.png)



## 9、“45 度”配置文件与标准配置文件

我的主要配置是“45度”。我将 STL 定向为 45 度角。

![](./Images/45DegreePlate.png)

### 优点

**我这样做的主要原因**只是为了使用“后”接缝更轻松地放置大量零件的接缝。

- 将所需的接缝边缘朝向板的后部（最好是最锋利的边缘）。
- 另一种方法是“基于成本”，它可以很好地将接缝放置在角落，但至关重要的是它不会对齐它们。它们往往分散在印刷品的不同角落。
- 强制对齐接缝有助于提高层的一致性。其他选项都可以允许接缝跳来跳去。
- 使用 CoreXY，45 度运动仅使用一个电机。
- *有时*会导致更好的悬垂。气流似乎有时更喜欢 45 度打印。

### 缺点

- 有时以这种方式安装尽可能多的零件可能更难。
- 有时接缝仍然可以奇怪地放置。打印前快速查看 gcode 预览。

手动接缝放置将**始终**获得最佳效果。这种方法是一种折衷方案，可以节省大量零件的板材的大量手动工作。



### 如何设置

切片器允许您在打印机配置文件中导入模型时设置自动旋转：

![](./Images/auto-rotation.png)

要手动旋转，请按 **ctrl+a** 选择所有对象。
在右下角的“Z”框中输入旋转量：

![](./Images/Rotation.png)



## 10、填充线宽度

Infill Line Widths，我的填充线宽度设置为较高的值（160%），以节省一些打印时间，并有助于提高填充层的粘合强度。

**这将按比例减少要打印的行数。**整体覆盖面积仍为40%。

如果您需要更大的顶层支撑，或者正在打印装饰/低填充零件，则可能需要减小此值以获得更大的线密度。

### 40% 填充 @ 180% 线宽

![](./Images/infill-180.png)

### 40% 填充 @ 110% 线宽

![](./Images/infill-110.png)



## 11、针对 PLA 的建议



### 打印设置

* 如果使用支撑，则*可能需要*更大的**支撑 z 偏移**。(`support_material_contact_distance`/`support_material_bottom_contact_distance`)
  * PLA比ABS具有更好的层附着力，因此支撑物更难去除。
  * 然而，据报道，对于某些人来说，目前的0.1mm值仍然适用于PLA。您只需要在自己的机器上打印一些支持测试。



### 耗材设置

您只需复制提供的 ABS 配置文件并对其进行以下更改

- 将**风扇速度**提高到 100% （`min_fan_speed`)
- 将**图层时间目标**设置为 5-10 秒 （`slowdown_below_layer_time`)
- 将**腔室温度**设置为 0
  - 这实际上只在你的情况下做任何事情[📄将其传递给您的PRINT_START宏](https://github.com/AndrewEllis93/Print-Tuning-Guide/blob/main/articles/passing_slicer_variables.md).
- 您可能需要设置灯丝配置文件的[📄**最大容积速度**](https://github.com/AndrewEllis93/Print-Tuning-Guide/blob/main/articles/determining_max_volumetric_flow_rate.md)(`filament_max_volumetric_speed`） 低一点。
  - PLA并不总是能达到与ABS相同的流速。
  - 耗材配置文件设置**优先于打印设置配置文件**。
    - 这意味着您可以在打印设置配置文件中设置“默认”，然后在此处针对单个细丝进行调整。
- 设置/校准通常的灯丝特定参数：
  - **温度**
  - [📄**压力提前**](https://github.com/AndrewEllis93/Print-Tuning-Guide/blob/main/articles/pressure_advance.md)
    - 实际上不是SS中的设置，必须在打印机中设置.cfg或使用自定义灯丝g代码完成
  - [📄**PA校准**](https://github.com/AndrewEllis93/Print-Tuning-Guide/blob/main/articles/extrusion_multiplier.md)



## 12、其他校准

### 根据喷嘴尺寸更改 PA

您可以将以下代码片段添加到灯丝的**自定义 g 代码**部分，以便为不同的喷嘴尺寸提供不同的 PA 值。更宽的喷嘴需要更低的 PA。

```
; Set pressure advance per-filament for different nozzle sizes
{if nozzle_diameter[0]==0.4}SET_PRESSURE_ADVANCE ADVANCE=0.0x
{elsif nozzle_diameter[0]==0.6}SET_PRESSURE_ADVANCE ADVANCE=0.0x
{endif}
```

宏语法：https://help.prusa3d.com/article/macros_1775



### 打印件间距

右键单击“排列”按钮以更改零件间距。

![](./Images/Spacing.png)

然后点按排列按钮（或按下 A）以自动排列所有内容。

靠得太近可能会引入冷却问题。我倾向于尽可能分散零件。



### Advanced Bridging Over Holes

*本节由[📄阿卡马尔](https://github.com/akhamar).谢谢！*

为避免需要在埋头孔上添加锥形螺钉孔，可以改用 SuperSlicer 中的设置，该设置允许在孔上桥接。

它不是灵丹妙药，仍然需要在外壳基础上使用，但通常适用于螺钉的埋头孔。

#### 超级切片器选项

超级切片器选项称为 ，位于“外围和外壳”的高级部分。`"No perimeters on bridge areas"`

- 内部设置名称为 。`no_perimeter_unsupported_algo`

![](./Images/void_with_bridges_04.png)



#### 结果

- 以前，此示例部件**没有桥接**层，这可能会导致空隙/孔上的层尝试在空中打印。
  - 周长圆圈（黄色/橙色）将在半空中打印并落下。
  - 孔周围的填充线（紫色）的末端将部分打印在半空中并下降。
- 使用此设置，将打印一个牺牲桥作为支撑，然后可以用螺钉将其突破。

![](./Images/void_with_bridges_02.png)

![](./Images/void_with_bridges_01.png)

![](./Images/void_with_bridges_03.png)





## 13、变更记录

Rather than having to re-import the profiles when updates are made, please check the change log occasionally to grab important settings changes / bug fixes.

Use **ctrl + f** in SuperSlicer to find these settings by their internal names below.

- **2022-11-09** (flip flopping edition!)
  - ***ensure_vertical_shell_thickness*** - disable.
    - Just saving some print time / material. 
  - ***retract_lift_top*** and ***retract_before_travel*** - revert to defaults *(from the 2022-11-07 changes)*.
    - These brought an additional minor improvement to small infill areas, but I eventually decided that the potential top surface scarring wasn't worth it. 
    - If you are having small infill overextrusion issues, it may be worth trying still.
    - Again, more reading on this subject is documented [:page_facing_up:here](https://github.com/AndrewEllis93/Print-Tuning-Guide/blob/main/articles/troubleshooting/small_infill_areas_overextruded.md#not-connected-top-infill-superslicer).
  - ***support_material_interface_layers*** - set to 2 (standard) - was 3 (heavy)
    - The new default of 3 interface layers is a bit excessive in most cases.
  - Minor rewording of comments in custom g-code sections
- **2022-11-08**
  - Add "Decorative Standard" profiles
  - Rename .ini files
  - ***wall_thickness_lines*** - set to 0.
    - This was in my profiles but this setting apparently doesn't always export properly. It just disables the feature that tries to automatically change line thicknesses to match your desired overall line width.
    - This setting is an oddball. For some reason it saves to `print_custom_variables` instead (paste `wall_thickness_lines = 0`)
  - Decorative profiles:
    - ***fill_pattern*** - set to monotonic
    - ***fill_density*** - set to 10%
  - ***resolution_internal*** - set to default (0.1mm)
    - Cleanup, just resetting to new default. Shouldn't make any major difference
- **2022-11-07**
  - **Update profiles for SuperSlicer version 2.4.58.5.**
  - These settings all come as a group. They were found to have a fairly significant improvement in small solid infill areas. Explanation [:page_facing_up:here](https://github.com/AndrewEllis93/Print-Tuning-Guide/blob/main/articles/troubleshooting/small_infill_areas_overextruded.md#not-connected-top-infill-superslicer) and demonstration [:page_facing_up:here](https://github.com/AndrewEllis93/Print-Tuning-Guide/blob/main/articles/troubleshooting/small_infill_areas_overextruded.md#demonstration).\
    They may also have a positive effect on bulging perimeters around external features, but I am still testing this theory.
      - ***infill_connection_solid*** - set to "not connected"
      - ***infill_connection_top*** - set to "not connected"
      - ***infill_connection_bottom*** - set to "not connected"
      - ***infill_overlap*** - set to 25%
      - ~~***retract_lift_top*** - set to "Not on top"~~ *(Reverted in 2022-11-09's flip-flopping editon, sorry)*
      - ~~***retract_before_travel*** - set to 0 (was default / 2)~~ *(Reverted in 2022-11-09's flip-flopping editon, sorry)*
  - New defaults modified:
    - ***enforce_retract_first_layer*** - set to 0
      - Stops Z hopping on first layer (this was the previous behavior)
    - ~~***wipe_inside_end*** - set to 0~~
      - Reverted. Was causing some seam gaps.
- **2022-11-01**
  - ***bridged_infill_margin*** - set to 300%.
    - This can help prevent some bridges detaching at the ends. The previous value of 5mm was too high and causing excessive bridging.
- **2022-10-06**
  - ***extrusion_width*** to 115% (was 125%)
    - This sets the default extrusion width. Any other widths set to 0 will use this default.
    - Some people had perimeter gapping issues at 125%.
  - ~~***bridged_infill_margin*** to 5mm (was 200%)~~
    - ~~Can help edge pillowing in features floating on infill, especially with lower infill densities.~~
  - ***external_infill_margin*** to 4mm (was 150%)
    - Can help edge pillowing in features floating on infill, especially with lower infill densities.
  - ***first_layer_extrusion_width*** to 125% (was 0 / equal to default)
    - Still the same width as before, but the default width changed so I had to make it static.
  - ***infill_extrusion_width*** to 160% (was 180%)
    - Some people were having layer shifting and infill gouging issues at 180%.
  - ***support_material_speed*** to 120 (was 150)
    - Less likely to knock over supports in PIF profiles if enabled. It was already 120 in the decorative profile.
  - ***skirts*** to 1 (was 0)
    - For those without a nozzle brush and/or purge line.
  - ***filament gcode*** 
    - Added example logic for nozzle-dependent PA.
  - ***z_step*** to 0.01 (was 0.04).
    - This setting rounds layer heights to even multiples of this value.
    - Setting it to 0.01 allows for finer layer height control.
    - The *actual* "full step distance" is **0.04mm** on a V2 w/ 1.8 degree Z motors. 0.01 still keeps it at quarter-stepping, which is more than good enough. 
      - In reality, though, a number of factors keep the motors from actually sitting at perfect full/half/quarter steps (QGL, Z offset, mesh, etc). This setting is of arguable importance for most printers. There's an argument to be made for stopping at the same position WITHIN each full step, but I haven't tested this and haven't noticed much difference.
  - Decorative profile: ***bottom_solid_layers*** to 3 (was 5)
- **2022-08-16:**
  - ***solid_over_perimeters*** to 0 (was 2 / default)
    - This could cause pillowing issues on internal slopes, particularly with small layer heights.
- **2022-08-09:**
  - Set default line width to ~~125%~~  *115% (see 2022-10-06)* and change all 120% values to 0 so that they use default (just for rounder numbers, e.g. 0.5mm widths instead of 0.48)
- **2022-08-08:**
  - Add decorative 45 degree profile.
- **2022-07-25:**
  - ***support_material_contact_distance*** set to 0.1mm (was 0.2mm).
    - I found the default of 0.2mm was giving really messy surfaces when supports are used. 
  - ***support_material_bottom_contact_distance*** set to "same as top" (was 0.2mm)
- **2022-07-18:**
  - ***extra_perimeters_overhangs*** enabled.
    - This being disabled could cause gapping issues when this profile is used for decorative parts with fewer walls (or extreme overhangs). It should not kick in for most Voron parts.
- **2022-05-25:**
  - ~~***perimeter_extrusion_width*** to ~~120%~~ 125%~~
    - ~~For more strength.~~
  - ***bridge_speed_internal*** to 100% (was 180mm/s)
    - This will match your normal bridge speed. 180mm/s was causing the internal bridges to not always attach.
  - ***curve_smoothing_angle_convex*** and ***curve_smoothing_angle_concaver*** to default.
    - These were just a leftover from an old SS upgrade.
- **2022-04-27:**
  - ***thin_perimeters*** to 80% (default)
  - ***thin_perimeters_all*** to 20% (default)
    - Both of these settings are new defaults that got didn't come over properly with the update (came over as 100% / 0%)
  - Fixed my maximum speeds in the machine limits. For some reason I thought they were in mm/min rather than mm/s... surprised nobody caught this before now.
- **2022-04-14:**
  - ***use_relative_e_distances*** back to **enabled**.
    - Some people had `M83` in their PRINT_START macros which didn't agree with this. 
- **2022-04-11:**
  - Profiles updated for new beta SuperSlicer version 2.4.58.2.
  - Acceleration controls were moved to the *print settings > speed* tab and ***feature_gcode*** and ***post_process*** were **cleared**. Some accelerations were tweaked.
    - Fine-grained acceleration controls are now natively supported. The old custom g-code method and python scripts are no longer needed! :tada::tada::tada:
  - ***first_layer_size_compensation_layers*** to **3** (was 2)
    - Greater fade distance for elephant's foot compensation, to help prevent some perimeter separation on chamfered parts.
  - ***first_layer_height*** to **0.25** (was 0.24)
    - Just reverting a previous change where I set it to 0.24 to fix a weird bug.
  - ***max_print_speed*** to **300** (was default/80)
    - This doesn't actually do anything since "auto speed" is no longer used (only volumetric speed limiting), but the default value of 80 was confusing people.
  - ***thin_walls_speed*** to **80** (was 30)
  - ***support_material_contact_distance_type*** to "**from filament**" (default) (was "from plane")
    - Cleaning up. I had changed this at one point and don't really know what it does, so default is probably better.
  - ***z_step*** to **0.04** (was default) 
    - This doesn't actually do much except affect the number of decimal places in Z moves. But some people were driving themselves nuts trying to find the "correct" value to put here, so... here.
  - ***duplicate_distance*** to **6** (default)
    - Just affects default part spacing when you auto-arrange your plate.
  - ***support_material_angle*** to **45** (only on 45 degree profile)
  - ***support_material_interface_speed*** to **100** (was 150)
    - These fast speeds could occasionally knock over supports.
  - ~~***use_relative_e_distances*** to **disabled**.~~
    - ~~Absolute mode is theoretically more accurate, but it's probably negligible.~~
  - ***time_estimation_compensation*** to **100%** (default) (was 133%)
    - This was a bodge compensating for the old custom accel controls messing with time estimates, and is no longer needed.
  - ***retract_lift_above[0]*** to **0.25mm** (was 0.2mm).
    - Set to match first layer height.
- **2022-02-19:**  
  - ~~Set accel_to_decel values to half of accel values in ***feature_gcode***.~~
    - ~~Previously accel and accel_to_decel were the same value.~~
    - ~~(Sorry, changed this multiple times now, keep flip-flopping on it)~~
  - Disable ***external_perimeter_cut_corners***
    - This could contribute VERY minorly to gapping between perimeters on corners. You would probably never notice without a magnifying glass.
- **2022-02-10:** 
  - Change ***infill_speed*** to **300** ~~and set **max_print_speed** back to default.~~
    - ***infill_speed*** was previously **0**. 
      - This was not always reaching maximum volumetric speed, due to a misunderstanding on my part of [:page_facing_up:how auto-speed works](https://github.com/supermerill/SuperSlicer/issues/1629#issuecomment-1013791149). 
      - Setting it to a maximum speed value (instead of 0) better accomplishes my intended goal (maxing out the hotend's capability for infill). 
        - See the [:pushpin:Volumetric Speed / Auto Speed](#volumetric-speed--auto-speed) section for an updated (corrected) explanation.
    - ~~**max_print_speed** was previously 300.~~
      - ~~This setting does not universally limit in the same way that the volumetric speed limit does (for some reason), so it's redundant and confusing to leave it on.~~
  - Change ***support_material_speed*** to **150**.
    - Was previously **240**. This could cause supports to not adhere properly or get knocked over (though supports are disabled by default in this profile).
- ~~**2022-01-02:**~~
  - ~~Change ***first_layer_height*** to **0.24**.~~
    - ~~SuperSlicer currently has a weird bug causing slicing to give up part way through. Setting first layer height to something that's not 0.25 fixes it for me. ¯\\\_(ツ)_/¯~~
- **2021-12-29:** 
  - Change ***resolution*** to **0.0125** (new SS default) and update formatting of ***feature_gcode***
    - Some have reported "move out of range" errors with the old resolution setting of 0.002, likely a bug in SS.
    - The feature_gcode change is purely stylistic. 
- **2021-12-01:** 
  - Enable ***ensure_vertical_shell_thickess*** and revert ***solid_over_perimeters*** to default (2)
    - This can prevent occasional perimeter gapping on steep angles.
- **2021-11-19:** 
  - Set new ***bridge_overlap_min*** setting to **50%**
    - Fixes 50% bridge density in new SuperSlicer version (2.3.57.6).
- **2021-11-11:** 
  - Change ***fill_pattern*** to **grid**.
    - Previously adaptive cubic. Caused occasional pillowing.
  - Change ***max_layer_height[0]*** to **75%**.
    - Previously 0.3mm. Support for nozzle size based percentages was added.
  - Reduce **seam_gap** to **0.**
    - Previously 15% internally. A new SS update now allows control over it. This should prevent seam gaps that occasionally cropped up previously.
- **2021-11-07:** 
  - Fix various support material settings.
    - Supports are disabled in this profile, but the disabled settings had some unnecessary leftovers.
  - ~~Added quotes around ***post_process*** paths.~~
    - ~~This fixes an issue where it would error if trying to use a path with a space.~~
- **2021-10-31:** 
  - Reduce ***retract_length[0]*** to **0.5mm**
    - Previously set to 1mm, which was a bit too aggressive to start with.
  - Change ***overhangs_width_speed*** to **0**.
    - This completely disables applying bridge settings to overhangs.
    - This setting was causing issues for some people, essentially setting overhangs to use 85% flow and high speeds.
- **2021-10-24:** 
  - Disable ***only_one_perimeter_first_layer***.
    - This was causing SS to crash when slicing first layer test patches.
    - I also just changed my mind about the aesthetics.
  - ~~Change ***time_estimation_compensation*** to  **133%.**~~
    - ~~Previously set to 87%.~~
    - ~~This should make the time estimates a *bit* closer to reality, at least with Voron parts. As mentioned above, they will still only be so accurate with the custom acceleration controls, however.~~