Filament Selection Guide
Complete comparison of FDM materials (PLA, PETG, ABS, TPU, ASA, Nylon): properties, recommended temperatures, common uses, and practical recommendations.
⏱ Estimated time: 10 min

Procedure
How to Choose the Right Filament the First Time
Beginners usually aren't looking for the best filament in the world, but rather a material that will reliably print their first usable objects. Choose based on the intended use, not on the marketing name on the spool.
🧭 The Fastest Decisions Based on Use
Above all, I want a simple and hassle-free start
Select PLA
PLA is the right choice for most first-time prints: boxes, organizers, decorations, school projects, or shape prototypes.
When is it ideal: When you learn the first layer, slicer and basic workflow. You want as few extra variables as possible.
I want functional parts that last longer than PLA
Choose PETG
PETG is the natural next step. It offers better toughness, chemical resistance, and higher heat resistance without being as demanding as ABS or ASA.
When to switch to it: Once you have a stable PLA print and want a holder, console or functional component for normal operation.
I need outdoor or heat-resistant parts
Choose ASA or ABS only if you have an enclosure and experience
These materials are excellent, but they are often unnecessarily hard for absolute beginners. The problem isn't just printing, but also the environment, storage, and ventilation.
Important rule: Use this recommendation while configuring your print.
⚡ A quick tip for beginners
Not sure where to start? Read this tip—it'll save you hours of frustration and unnecessary expenses.
💡 Recommendations for Your First Filament
Start with PLA—it's the easiest option
👉 We recommend: PLA in a neutral color (gray or white)
PLA is the most widely used filament in the world—and for good reason. It’s easy to print with, doesn’t require a heated bed or an enclosed chamber, and the results are great right from the very first print.
Why gray or white? Errors such as stringing, warping or a bad first layer are best visible on neutral colors. This will make it easier for you to discover what needs to be set.
When to switch to another material? Only after you have mastered stable PLA printing. Each material adds new challenges – drying, enclosure, different retraction profiles.
Price and availability: You can get PLA in any e-shop from 400 Kč /kg. We recommend brands such as Prusament, Bambu, Polymaker or Sunlu.
Storing and Drying Filament
Many problems that appear to be caused by incorrect printer settings are actually due to damp filament. This is especially true for PETG, TPU, ASA, and nylon, but it can occasionally happen with almost any filament.
📦 How to store filament so it doesn't behave erratically
Basic Storage Rules
Dry, closed box and as little unnecessary time in the air as possible
Filament isn't just a spool of plastic. It's a material that's sensitive to humidity, temperature, and time. The more carefully you store it, the more predictable the results will be.
A good standard for home: Sealable box or bag with zipper and silica gel. This is often enough for normal home use.
When to start dealing with the dryer: As soon as you print PETG, TPU, ASA or nylon often, or when you notice cracking, bubbling and a worse surface even on a previously reliable spool.
How to Tell if a Filament Is Damp
Cracking, stringing, rough surface and restless extrusion
Moisture doesn't manifest itself as just one problem. It often appears as a combination of stringing, a poor court surface, and random minor defects that are hard to explain away as being caused by a slicer.
Typical symptoms: Nozzle hissing or popping, dull or rough finish, excessive riveting and less consistent layers.
PLA – Polylactic Acid
The best choice for beginners. Easy to print, eco-friendly, and affordable—a biodegradable polymer made from cornstarch.
⚙️ Technical Specifications
Temperature Profile and Settings
Recommended values for PLA
Basic temperature settings for reliable PLA printing.
- Nozzle temperature
- 392 - 419 °F
- Pad Temperature
- 32 - 140 °F
- Cooling
- 100% (required)
- Print Speed
- 2.0 – 5.9 in/s
- Price
- 400 – 600 Kč /kg
- Enclosed chamber
- ❌ Does not require
- Drying Before Printing
- ❌ Usually not necessary
✅ Pros and ❌ Cons
Why Choose PLA
Difficulty: ⭐ (1/10) | Strength: ⭐⭐⭐⭐⭐
Biodegradable, odorless, and with sharp detail right out of the printer.
✅ Very easy printing: Minimal warping, no smell, prints even without a heated pad.
✅ Sharp detail: A beautiful finish right out of the printer - ideal for decorative objects and prototypes.
✅ Ecological: Biodegradable material from renewable sources.
❌ Low heat resistance: It already softens at ~131 - 140 °F - not suitable for cars or hot environments.
❌ More fragile during impacts: Compared to PETG or ABS, it is more prone to cracking when dropped.
🎯 Typical Uses
Ideal for these applications
Decorations · Prototypes · Figurines · Models
PLA performs exceptionally well in any environment where it is not exposed to heat or impact.
Decorations and figurines The most popular material for collectibles, sculptures and ornaments.
Prototypes and presentation models: Quick validation of shape and design without manufacturing costs.
School projects: Safe, simple, affordable - ideal for education.
Small extras: Holders, organizers, key rings and everything that stays in the interior.
PETG – Polyethylene Terephthalate Glycol
A versatile and durable compromise between PLA and ABS. Resistant to chemicals, moisture, and temperatures up to 176 °F.
⚙️ Technical Specifications
Temperature Profile and Settings
Recommended values for PETG
PETG requires higher temperatures and proper retraction settings.
- Nozzle temperature
- 446 - 473 °F
- Pad Temperature
- 158 - 185 °F
- Cooling
- 30-50% (less than PLA)
- Print Speed
- 1.6 – 3.9 in/s
- Price
- 500 – 700 Kč /kg
- Enclosed chamber
- ❌ Does not require
- Drying Before Printing
- ⚠️ Recommended (162 °F / 6-8 h)
✅ Pros and ❌ Cons
Why Choose PETG
Difficulty: ⭐⭐⭐⭐ (4/10) | Strength: ⭐⭐⭐⭐⭐⭐⭐
More durable than PLA, but still relatively easy to print.
✅ Higher heat resistance: Safe up to ~176 °F - also suitable for car interiors in summer.
✅ Chemical resistance: It resists moisture, weak acids and oils well.
✅ Firmer and tougher: Better impact resistance than PLA – suitable for functional parts.
❌ Stringing: Tendency to form cobwebs - retraction and temperature must be set correctly.
❌ Bad gluing without settings: Without the correct Z-offset, the first layer does not stick or is too compressed.
🎯 Typical Uses
Ideal for these applications
Functional parts · Containers · Outdoor use in shade
PETG is the go-to material for functional printing when PLA isn't enough.
Functional mechanical parts: Clamps, mountings, brackets - everything that has to withstand the load.
Vessels and containers: Food-safe versions are suitable for contact with food.
External components: Moisture resistance - suitable for shaded outdoor use.
Electronic enclosures: Slightly flexible, impact resistant - protects electronics.
ABS – Acrylonitrile Butadiene Styrene
An industry classic with high heat resistance. Demanding to print—requires a closed chamber and good ventilation.
⚙️ Technical Specifications
Temperature Profile and Settings
Recommended values for ABS
ABS requires the highest temperatures and a closed printing chamber.
- Nozzle temperature
- 464 - 500 °F
- Pad Temperature
- 212 - 230 °F
- Cooling
- 0% (no part cooling)
- Print Speed
- 1.6 – 3.1 in/s
- Price
- 450 – 700 Kč /kg
- Enclosed chamber
- ✅ Necessary (enclosure)
- Drying Before Printing
- ❌ Usually not necessary
✅ Pros and ❌ Cons
Why Choose ABS
Difficulty: ⭐⭐⭐⭐⭐⭐⭐⭐ (8/10) | Heat: ⭐⭐⭐⭐⭐⭐⭐⭐
An industry standard with heat resistance up to 212 °F and the option of acetone smoothing.
✅ High heat resistance: Safe up to ~212 °F - the only choice for parts inside the car in the sun.
✅ Acetone smoothing: A few minutes in acetone vapors will create a perfectly smooth, shiny surface.
✅ Tenacity: Good mechanical properties - withstands impacts better than PLA.
❌ Strong warping: Without a closed chamber and a heated chamber, the corners of the model lift and crack.
❌ Styrene smell: It emits unpleasant and harmful vapors - ventilation or a filter is necessary.
🎯 Typical Uses
Ideal for these applications
Auto · Electronics · Hot environment
Use ABS only when PLA or PETG do not have the necessary properties.
Automotive parts: Interior mounts, brackets and parts near the engine.
Electronic enclosures: Hard boxes for Arduino, Raspberry Pi and industrial electronics.
Spare parts: Original material for LEGO and many household appliances.
Functional prototypes: For environments with temperatures above 140 °F where PETG is not enough.
TPU – Thermoplastic Polyurethane
A flexible and resilient material. Where other materials crack, TPU gives way and holds up. Requires a direct-drive extruder.
⚙️ Technical Specifications
Temperature Profile and Settings
Recommended values for TPU
TPU requires very slow printing and a direct extruder for the best results.
- Nozzle temperature
- 428 - 464 °F
- Pad Temperature
- 86 - 140 °F
- Cooling
- 50 – 100 %
- Print Speed
- 0.6–1.6 in/s (slow!)
- Price
- 600 – 1,000 Kč /kg
- Enclosed chamber
- ❌ Does not require
- Drying Before Printing
- ✅ Recommended (140 °F / 4–6 h)
✅ Pros and ❌ Cons
Why Choose TPU
Difficulty: ⭐⭐⭐⭐⭐⭐⭐ (7/10) | Flexibility: ⭐⭐⭐⭐⭐⭐⭐⭐⭐⭐
A flexible material with exceptional resistance to abrasion, oil, and impact.
✅ Flexibility and elasticity: It bends, compresses and returns to its original shape - ideal for seals and protectors.
✅ Abrasion resistance: It withstands intense friction better than any other common filament.
✅ Chemical resistance: Resistant to oil, petrol and many industrial fluids.
❌ Very slow printing: Maximum 0.6-1.6 in/s - the model takes several times longer than from PLA.
❌ Bowden extruder = problems: A flexible filament twists in a Bowden tube. Direct drive is almost a must.
🎯 Typical Uses
Ideal for these applications
Cases · Seals · Shoes · Protectors
TPU is indispensable whenever flexibility is required.
Phone cases Protective covers that absorb shocks and are pleasant to the touch.
Seals and vibration dampers: Ideal for industrial seals and vibration damping in machinery.
Footwear and insoles: Custom ergonomic pads and tailor-made soles.
Protector Parts: Furniture corners, protective wheel covers, safety features.
ASA – Acrylonitrile-Styrene-Acrylate
ABS for outdoor use. Excellent UV stability and weather resistance—the color won't fade even after months in the sun.
⚙️ Technical Specifications
Temperature Profile and Settings
Recommended values for ASA
ASA prints similarly to ABS—it requires an enclosure.
- Nozzle temperature
- 464 - 500 °F
- Pad Temperature
- 194 - 230 °F
- Cooling
- 0 – 20 %
- Print Speed
- 1.6 – 3.1 in/s
- Price
- 550 – 800 Kč /kg
- Enclosed chamber
- ✅ Necessary (enclosure)
- Drying Before Printing
- ✅ Recommended (149 °F / 4–6 h)
✅ Pros and ❌ Cons
Why Choose ASA
Difficulty: ⭐⭐⭐⭐⭐⭐⭐⭐ (8/10) | UV resistance: ⭐⭐⭐⭐⭐⭐⭐⭐⭐
A modern alternative to ABS with significantly better UV stability for outdoor applications.
UV stability The color does not fade, the material does not crack even after months in direct sunlight.
✅ Weather resistance: It resists rain, frost and UV radiation – ideal for permanent outdoor installations.
✅ Heat resistance: Similar properties to ABS – safe up to ~212 °F.
❌ Enclosure required: Without a closed chamber, the same warping as with ABS is at risk.
❌ Less availability: Fewer brands and colors than ABS or PLA, higher price per kg.
🎯 Typical Uses
Ideal for these applications
Garden · Car exterior · Meteorology · Signaling
ASA is the only sensible choice for parts that are constantly exposed to the sun.
Outdoor signs and signaling: Tables, name tags, house numbers - colors last for years.
Garden holders: Attachment for pipes, cables, flower beds - durable even in winter.
Car exterior: Spoilers, covers, accessories - UV radiation will not cause degradation.
Weather stations: Covers for sensors and electronics in the exterior.
Nylon (PA) – Polyamide
The King of Mechanical Strength. Exceptional toughness and wear resistance—but extremely demanding to prepare.
⚙️ Technical Specifications
Temperature Profile and Settings
Recommended values for Nylon
Nylon requires the most preparation—drying is absolutely essential.
- Nozzle temperature
- 464 - 518 °F
- Pad Temperature
- 158 - 194 °F
- Cooling
- 20 – 50 %
- Print Speed
- 1.2 – 2.8 in/s
- Price
- 700 – 1,200 Kč /kg
- Enclosed chamber
- ✅ Necessary (enclosure)
- Drying Before Printing
- ✅ Absolutely necessary (176 °F / 8–12 h)
✅ Pros and ❌ Cons
Why Choose Nylon
Difficulty: ⭐⭐⭐⭐⭐⭐⭐⭐⭐ (9/10) | Strength: ⭐⭐⭐⭐⭐⭐⭐⭐⭐⭐
The highest strength, toughness, and wear resistance of any commonly available material.
✅ Highest strength: The best tensile strength and toughness of any common filament.
✅ Wear resistance: Ideal for gears and components exposed to intense friction.
✅ Heat resistance: PA12 safe up to 248 °F – the highest of the materials listed here.
❌ Extremely hygroscopic: Absorbs air moisture in 12-24 hours. Must be stored in a dry box.
❌ Drying even during printing: Ideally, print directly from the dryer. Damp Nylon bubbles, cracks and loses strength.
🎯 Typical Uses
Ideal for these applications
Gears · Industry · Sports · Wear
Nylon is the choice for professionals who won't compromise on strength.
Gears and gears: Nylon combines strength, toughness and low friction - ideal for mechanics.
Industrial jigs and fixtures: Preparations and tools for production that must survive intensive operation.
Sports equipment: Light and strong parts for cycling, mountain climbing, skiing.
Wear parts: Slide guides, inserts and bushings where other materials fail.
📊 Material Comparison Chart
A quick overview of all 6 materials in one place. Ratings on a scale of 1–10.
🏆 Feature Ratings (1–10)
PLA – Property Score
Difficulty: 2 | Strength: 5 | Heat: 3 | UV: 3
The easiest material to print with—the perfect start for anyone.
- Printing Difficulty
- 2 / 10 ⭐ (easiest)
- Mechanical Strength
- 5 / 10
- Heat resistance
- 3 / 10 (~131 °F)
- UV resistance
- 3 / 10
- Price (availability)
- 💚 The lowest (400 – 600 Kč /kg)
PETG – Property Rating
Difficulty: 4 | Strength: 7 | Heat: 6 | UV: 5
A great compromise—stronger than PLA, easier to work with than ABS.
- Printing Difficulty
- 4 / 10
- Mechanical Strength
- 7 / 10
- Heat resistance
- 6 / 10 (~176 °F)
- UV resistance
- 5 / 10
- Price (availability)
- 💛 Medium (500 – 700 Kč /kg)
ABS – Feature Score
Difficulty: 8 | Strength: 7 | Heat: 8 | UV: 4
Industry standard – high heat resistance, demanding printing.
- Printing Difficulty
- 8 / 10 (enclosure required)
- Mechanical Strength
- 7 / 10
- Heat resistance
- 8 / 10 (~212 °F)
- UV resistance
- 4 / 10 (degrades)
- Price (availability)
- 💛 Medium (450 – 700 Kč /kg)
TPU – Feature Score
Difficulty: 7 | Strength: 6 | Heat: 5 | UV: 6
A unique, flexible material—in a class of its own.
- Printing Difficulty
- 7 / 10 (direct drive required)
- Mechanical Strength
- 6 / 10 (different character - flexibility)
- Heat resistance
- 5 / 10
- UV resistance
- 6 / 10
- Price (availability)
- 🟠 Higher (600 – 1,000 Kč /kg)
ASA – Trait Score
Difficulty: 8 | Strength: 7 | Heat: 8 | UV: 9
Best UV resistance – for all outdoor applications.
- Printing Difficulty
- 8 / 10 (enclosure required)
- Mechanical Strength
- 7 / 10
- Heat resistance
- 8 / 10 (~212 °F)
- UV resistance
- 9 / 10 ⭐ (the best)
- Price (availability)
- 🟠 Higher (550 – 800 Kč /kg)
Nylon – Properties Score
Difficulty: 9 | Strength: 10 | Heat: 8 | UV: 5
Maximum strength – for professional and industrial use.
- Printing Difficulty
- 9 / 10 (drying + enclosure)
- Mechanical Strength
- 10 / 10 ⭐ (the best)
- Heat resistance
- 8 / 10 (up to 248 °F)
- UV resistance
- 5 / 10
- Price (availability)
- 🔴 Highest (700 – 1,200 Kč /kg)