What is the Difference Between PLA and ABS?
🆚 Go to Comparative Table 🆚PLA (Polylactic Acid) and ABS (Acrylonitrile Butadiene Styrene) are both thermoplastics used in 3D printing, but they have distinct differences and characteristics:
PLA:
- Stronger and stiffer than ABS, but with poor heat resistance properties.
- Derived from renewable sources and classified as a bioplastic.
- Easier to print and does not warp as easily as ABS.
- Low melting temperature and minimal warping.
- Brittle, leading to parts with poor durability and impact resistance.
- Ideal for quick prototyping and hobbyist applications.
- Provides a glossy finish when printed.
ABS:
- Weaker and less rigid than PLA, but tougher and lighter.
- More durable, with approximately 25% lower weight and four times higher impact resistance compared to PLA.
- Requires more effort to print due to its higher heat resistance and tendency to warp.
- Has better ductility than PLA, making it a better choice for applications involving physical forces.
- More resistant to corrosion compared to PLA.
- Suitable for prototyping, final part production, and applications involving moving parts.
- Provides a matte finish when printed.
In summary, PLA is an ideal choice for parts that will not encounter high amounts of physical force and do not require heat resistance. For parts that need to be stronger, more heat-resistant, and more flexible, ABS is preferable.
Comparative Table: PLA vs ABS
Here is a table comparing the differences between PLA and ABS:
| Property | PLA (Polylactic Acid) | ABS (Acrylonitrile Butadiene Styrene) |
|---|---|---|
| Origin | Derived from renewable sources, classified as a bioplastic | Made from petroleum products, not biodegradable |
| Strength | Has higher tensile strength | More brittle, less impact resistance |
| Flexibility | More brittle | Better impact resistance and elongation before breaking |
| Heat Resistance | Poor heat resistance, loses stiffness and strength at higher temperatures | Heat deflection temperature is superior to PLA and nylon, but still not heat resistant |
| Printing | Easier to print, less prone to warping | Requires higher temperatures and a heated bed for optimal printing |
| Temperature Sensitivity | Less sensitive to temperature changes, fewer problems with warping | More sensitive to temperature changes, requires a heated bed |
| Post-processing | Cannot be vapor smoothed like ABS, requires hand sanding for optimal surface finish | Can be vapor smoothed with solvents like acetone for a smooth and homogeneous finish |
| Toxicity | Safer and less toxic than ABS | Slightly more toxic than PLA |
| Uses | Ideal for quick prototypes, detailed models, and educational purposes | Better suited for applications that require impact resistance, durability, and long-term wear and tear |
In summary, PLA is more brittle and easier to print than ABS, but it has poor heat resistance and is mostly used for hobbyist and educational applications. ABS, on the other hand, is less brittle, more impact-resistant, and better suited for applications that require durability and long-term wear and tear.
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