Latest Articles
12 Best 3D Printers: How to Choose by Print Technology
Before comparing prices and popular models, deciding between FDM/FFF and resin printing based on what you actually want to make is the fastest way to avoid buyer's remorse. Functional parts and prototypes point to FDM/FFF; figurines and fine detail point to resin.
8 Best Home 3D Printers: Starting Under $200
You really can get into home 3D printing for under $200. But if you want to pick an entry point you won't regret, the key decision comes first: FDM for ease of use and low running costs, or resin for fine detail on figures and models.
8 Best Resin 3D Printers for Detail-Focused Projects
Picking a resin 3D printer by resolution numbers alone can be misleading. To find the right machine for figurines, scale models, jewelry prototyping, and small-part production, you need to weigh pixel size, Z-layer pitch, build volume, print speed, and the real burden of post-processing from washing to UV curing.
FDM vs SLA: Differences and How to Choose by Use Case
Torn between FDM and resin printing? Start with what you want to make. FDM wins on cost, functional parts, and larger builds. SLA-type resin printers excel at fine detail, smooth surfaces, and transparent components. This guide breaks down the real differences so you can pick the right technology.
How to Get Started with 3D Printing | Choosing Your First Printer and Making Your First Print
If you're buying your first home 3D printer, I recommend starting with a compact FDM/FFF machine and PLA filament. The ease of use, manageable safety considerations, balanced material costs, and a price range of roughly 20,000 to 100,000 yen (~$130-$670 USD) make it a practical entry point.
ELEGOO Comparison: How to Choose Between Mars, Saturn, and Neptune
If miniatures and fine detail matter most, go with Mars. For large resin prints or batch layouts, Saturn is the answer. And if you want practical parts printed fast and affordably, Neptune is where you land.
Best 3D Printers by Price Range | Comparing Options from $70 to $700
Sorting 3D printers by budget rather than print technology is the fastest way to figure out what you can realistically do and where you will need to compromise. This article compares four price tiers covering specific models like the Creality Ender-3, FLASHFORGE Finder, Adventurer3 lite, and
15 Things You Can Make with a 3D Printer | From Practical Items to Figures
Once you start researching what a 3D printer can actually make, the range from everyday tools to detailed figures can feel overwhelming when picking your first project. This article walks through 15 build examples for beginners, covering whether FDM or resin printing suits each one, which materials to choose, difficulty levels, common failure points, and the post-processing involved.
How to Choose 3D Printer Filament: Materials Compared by Use Case
Choosing the right 3D printer filament works best when you focus on what you're making and what your printer can handle, rather than memorizing material names. I started with PLA and had great early wins printing small items -- until a print warped in a hot car, and I realized practical parts demand a different approach.
10 Best PLA Filaments for Beginners: How to Choose Your First Spool
If you are buying PLA filament for the first time, starting with a standard PLA or a well-documented PLA+ is the fastest path to good prints. Confirm whether your printer uses 1.75mm or 2.85mm filament before ordering to avoid a costly mistake.
PLA vs ABS vs PETG — Comparing the Big Three Filaments
If you're stuck choosing between common 3D printing filaments, a simple rule works well: start with PLA, move to PETG for functional parts, and reach for ABS when heat resistance matters. This guide breaks down the real-world differences between PLA, PETG, and ABS for anyone picking their first filament or trying to stop reprinting parts made from the wrong material.
PETG Filament Guide: Properties, Settings, and Tips for Your First Roll
Outgrown PLA but not ready for the demands of ABS? PETG sits right in between -- tougher, more heat-resistant, and still approachable. After switching car-dashboard trinkets from PLA to PETG, the difference in rigidity at 70-80 C (~158-176 F) was immediately obvious.