Anycubic printers are becoming firm favorites of 3D-printing fans around the world. Their resin-based methods offer superior levels of finish, durability, and speed. If you’re new to this method, though, there’s a learning curve involved; Anycubic resin settings can take a little trial and error to get right.
That’s where we come in. This page is dedicated to the different settings you might like to tweak when working with your Anycubic printer. We’ll explore the main advantages of using a resin-based printer and discuss how to find resin that works well for you.
Anycubic Resin Settings – Some Starting Points
Right – let’s get into it. This section contains some recommended Anycubic resin settings. Remember that these suggestions work best as a ‘jumping off point’. They’re a great ballpark figure for good results, but some trial and error will be necessary to account for your specific printer, environment, and resin.
If you’re looking for more insight after reading this page, check out this online pdf here – the PDF has been pulled but was replaced by Adam Bute from Makertrainer. It’s a bit overwhelming at first, but it should have all the info you’re looking for. Getting in touch with Anycubic directly can also be a great way to go.
Black
Layer: 0,025
Exposure time: 7,5
Off time: 3,5
Bottom exposure: 90
Bottom layers: 3
oC temp for room: 22
Clear
Layer: 0,02
Exposure time: 30
Off time: 6,5
Bottom exposure: 110
Bottom layers: 8
oC temp for room: 20
Grey
Layer: 0,02
Exposure time: 12
Off time: 6,5
Bottom exposure: 95
Bottom layers: 8
oC temp for room: 20
Green
Layer: 0,02
Exposure time: 7,5
Off time: 1,5
Bottom exposure: 40
Bottom layers: 8
oC temp for room: 21
Orange
Layer: 0,05
Exposure time: 15
Off time: 1
Bottom exposure: 100
Bottom layers: 7
oC temp for room: 20
Translucent Yellow
Layer: 0,05
Exposure time: 8
Off time: 6,5
Bottom exposure: 50
Bottom layers: 8
oC temp for room: 22
Maroon
Layer: 0,035
Exposure time: 14
Off time: 1
Bottom exposure: 60
Bottom layers: 8
oC temp for room: 21
Red
Layer: 0,05
Exposure time: 16
Off time: 1
Bottom exposure: 60
Bottom layers: 8
oC temp for room: 18
Skin
Layer: 0,05
Exposure time: 10
Off time: 1
Bottom exposure: 65
Bottom layers: 8
oC temp for room: 20
White
Layer: 0,05
Exposure time: 15
Off time: 1
Bottom exposure: 50
Bottom layers: 8
oC temp for room: 20
Anycubic Printers – What’s the Difference?
As you may already be aware, a typical 3D printer uses something called filament to print your creations. This is a material that melts when heated. This melted liquid is layered gradually, forming your builds as it cools down.
So how is an Anycubic printer different? As mentioned above, these machines take advantage of resins to print objects for you. The main difference here is that resins start in liquid form. They later solidify when exposed to UV light.
3D printers like those in the Anycubic lineup use tanks of liquid resin, not filament. Each layer of your design (that has been created with 3D printing software) is solidified with specially designed UV lasers that form your builds piece by piece.
The result is usually far superior to most filament-based solutions. The resolution, finish, and durability of your prints are likely to improve once you start using an Anycubic product. Just keep in mind that the costs associated with resin printers are usually higher.
Benefits of Anycubic Printers
People around the world are beginning to rely on resin printers for their more ambitious builds. There are a number of factors that keep them coming back for more. We outline some of the key advantages below.
Speed
One of the first things you’ll notice with this kind of printer is how much time they can save. A more old-school filament printer has to constantly move and reposition a nozzle to painstakingly print in gradual layers.
The UV laser systems used by Anycubic products aren’t bottlenecked by this kind of issue. Your prints should be ready much sooner than you’re used to.
Appearance and Quality
Remember buying a brand new TV and noticing how much better the images looked compared to your model from years ago? A similar change happens when you make the switch to resin-based printing.
While some recent developments in filament printers have begun to close the gap, they still don’t come close when it comes to appearance, fit, and finish. Your prints will likely just look much better.
You’ll be able to design models with significantly more detail without having to worry about lines or edges getting lost in the final result. If you can afford the investment, these printers are worth well considering.
Tougher, More Durable, Better Results
The issue with printing gradually in layers in that layer-to-layer adhesion can suffer. This is especially noticeable with less premium filament printers. The curing process used with resin printers means that the layers of your prints will adhere to each other much more firmly.
The result is creations that look better, last longer, and are more forgiving when making tweaks or adjustments.
Related: How long to cure resin
How to Find the Right Resin for Your Anycubic Printer
We’ll get into Anycubic resin settings in just a moment. In the meantime, we wanted to explore how to find the right resin for your machine in the first place. If you’re a newbie, it can be fairly easy to waste money on something that won’t actually work for your machine.
Curing Process
Different resin-based printers need different curing times for optimal results. Most Anycubic machines need timings between 5-10 seconds. Any resin you consider should clearly communicate how long it will take to finish curing your builds.
If you can’t find the relevant information online or on the packaging, it’s probably not right for your machine.
Price
While this kind of 3D printing usually costs more than filament methods, that doesn’t mean you have to break the bank. Don’t be afraid to shop around before pulling the trigger. Searching listings on sites like Amazon and eBay can save you a fair bit of money if you’re patient.
Is The Wavelength Right?
The whole process of resin-based printing relies on UV light sensitivity. For this reason, you should make sure that the resin you buy works with the 405-nm wavelength. Otherwise, you won’t have much luck when printing!
Anycubic Resin Settings – Conclusion
3D printing can be a phenomenal hobby, but tweaking your settings can be a big hassle if you don’t know where to start. We hope the suggestions on this page prove useful. Remember that some trial and error is inevitable.
Ask your machine’s and resin’s manufacturer if you’re unsure.