Wenn Sie 3D-Druck für Prototypen verwenden, Funktionsteile, oder Small-Batch-Produktion, understanding the cost per gram of 3D printing plastic is essential for budgeting. The cost isn’t fixed—it ranges from 0.01 RMB/gram for basic PLA Zu 5 RMB/gram for high-performance PEEK—shaped by material type, printing technology, and service choices. This guide breaks down core cost drivers, bietet praktische Hinweise, gibt Tipps zum Kostensparen, und beantwortet häufig gestellte Fragen, um Ihnen dabei zu helfen, fundierte Entscheidungen zu treffen.
1. Cost Per Gram of Common 3D Printing Plastics
Different plastics have distinct properties and price points, directly impacting the total cost of your 3D prints. Below is a detailed breakdown of the most widely used materials:
| Kunststofftyp | Kosten pro Gramm (RMB/Gramm) | Schlüsselmerkmale | Typische Anwendungen |
| PLA (Polylactsäure) | 0.01 ~ 0.05 | Umweltfreundlich, einfach zu drucken, niedriger Schrumpfung | Hobbymodelle, grundlegende Prototypen, Bildungsprojekte |
| ABS (Acrylnitril-Butadien-Styrol) | 0.03 ~ 0.10 | Hohe Stärke, good temperature resistance (bis zu 90 ° C.), aber anfällig für Verziehen | Funktionsteile (Z.B., Telefonkoffer, Spielzeugschalen) |
| Petg (Polyethylen -Terephthalatglykol) | 0.05 ~ 0.15 | Hohe Zähigkeit, chemischer Widerstand, Essenssicher | Medical accessories, Lebensmittelkontaktteile (Z.B., Speicherbehälter) |
| TPU (Thermoplastisches Polyurethan) | 0.10 ~ 0.30 | Hohe Elastizität, Tragenresistent, flexibel | Soft parts (Z.B., insoles, Telefongriffe, robot grippers) |
| SPÄHEN (Polyetherether Keton) | 1.0 ~ 5.0 | Ultra-high performance: hitzebeständig (bis zu 250 ° C.), korrosionsbeständig | Industrielle Komponenten, Luft- und Raumfahrtteile, Medizinische Implantate |
| Specialized Plastics | 0.5 ~ 20 | Includes conductive PLA, Kohlefaserverstärkte PLA, and flame-retardant ABS | Conductive sensors, high-strength structural parts, elektronische Gehäuse |
Beispiel: A 200g PLA prototype costs 2–10 RMB in material alone. The same-sized PEEK part costs 200–1,000 RMB—100–100x more—due to its industrial-grade performance.
2. 5 Kernfaktoren, die die Gesamtkosten pro Gramm beeinflussen
The cost per gram of 3D printing plastic isn’t just about the material itself—it also depends on printing technology, Arbeit, and other hidden expenses. Nachfolgend finden Sie eine Aufschlüsselung der einzelnen Faktoren:
(1) Drucktechnologie
Different technologies have varying equipment and operational costs, which add to the per-gram price:
| Technologieart | Additional Cost Per Gram (RMB/Gramm) | Schlüsselvorteile & Nachteile | Am besten für |
| FDM (Modellierung der Ablagerung) | 0.02 ~ 0.08 | Geringe Ausrüstungskosten, easy to maintain; but lower precision | PLA/ABS/PETG prints, Kostensensitive Projekte |
| Sls (Selektives Lasersintern) | 0.2 ~ 0.8 | Keine Unterstützung benötigt, hohe Details; but expensive equipment | TPU/nylon prints, Komplexe Geometrien |
| SLA/DLP (Lichthärtend) | 0.05 ~ 0.5 | Ultrahohe Präzision, glatte Oberflächen; but resin is costly | Hochdetailenteile (Z.B., Schmuck, Zahnmodelle) |
Schlüsselnotiz: FDM is the most cost-effective for plastic prints—adding just 0.02–0.08 RMB/gram to the material cost—while SLS can double or triple the total per-gram cost.
(2) Brand & Quality of Materials
Material brand and quality significantly affect the price. Importiert, high-quality materials often cost more than domestic, standard options:
- Domestic Materials: PLA from brands like eSUN or Creality costs 0.01–0.03 RMB/gram—affordable for most users.
- Imported Materials: Premium brands like ColorFabb (Niederlande) or Taulman (USA) charge 0.03–0.08 RMB/gram for PLA—2–3x more—due to stricter quality control and consistent performance.
(3) Arbeit & Servicegebühren
If you outsource printing to a service provider (instead of using your own machine), labor and service fees can account for 50%+ of the total cost:
| Servicetyp | Additional Cost Per Gram (RMB/Gramm) | What It Includes |
| Basic Service | 0.05 ~ 0.20 | 3D Druck + grundlegende Nachbearbeitung (Z.B., removing supports) |
| Premium Service | 0.2 ~ 1.0 | Custom programming + fine post-processing (Z.B., Schleifen, Polieren) + Qualitätsinspektion |
Beispiel: A 100g ABS part printed via basic service costs 0.08 (Material) + 0.15 (Service) = 0.23 RMB/Gramm (gesamt 23 RMB). The same part via premium service costs 0.08 + 0.5 = 0.58 RMB/Gramm (gesamt 58 RMB).
(4) Nachbearbeitungsanforderungen
Many plastic parts need post-processing to meet quality standards, and each step adds to the per-gram cost:
| Nachbearbeitungsschritt | Kosten pro Gramm (RMB/Gramm) | Zweck |
| Unterstützungsentfernung | 0.01 ~ 0.05 | Remove excess material from the print |
| Schleifen/Polieren | 0.05 ~ 0.20 | Smooth surface roughness (Z.B., from Ra 1.6μm to Ra 0.8μm) |
| Malerei/Beschichtung | 0.1 ~ 0.5 | Farbe hinzufügen, Schutz, or a matte/glossy finish |
| Chemische Behandlung | 0.2 ~ 1.0 | Für abs: vapor smoothing to eliminate layer lines |
Beispiel: A 150g ABS part needing sanding and painting costs 0.08 (Material) + 0.1 (Schleifen) + 0.3 (Malerei) = 0.48 RMB/Gramm (gesamt 72 RMB).
(5) Bestellvolumen & Mindestbestellmenge (Mindestbestellmenge)
Service providers often offer discounts for large batches, while small orders may incur a “minimum fee” Das erhöht die Kosten pro Gramm:
| Bestellvolumen | Rabatt vs. Kleine Chargen | Beispiel: 100g ABS Part (Original Cost: 0.23 RMB/Gramm) |
| Kleine Charge (<100G) | 0% (May have MOQ fee) | 0.23 RMB/Gramm + 50 RMB MOQ fee (gesamt 73 RMB for 100g) |
| Mittlere Charge (100g ~ 1kg) | 10 ~ 20% | 0.18 ~ 0.21 RMB/Gramm (gesamt 18 ~ 21 RMB for 100g) |
| Große Charge (>1kg) | 20 ~ 40% | 0.14 ~ 0.18 RMB/Gramm (gesamt 14 ~ 18 RMB for 100g) |
3. Gesamtkosten pro Gramm: Szenariobasierte Aufschlüsselung
To see how all these factors come together, below are three common printing scenarios—from low-cost hobbies to high-end industrial parts:
| Szenario | Kunststofftyp | Technologie | Gesamtkosten pro Gramm (RMB/Gramm) | Beispiel (300g Part Total Cost) |
| Low-Cost Hobby (Self-Printed) | PLA | FDM | 0.01 ~ 0.05 (Material) + 0.02 ~ 0.08 (Ausrüstung) = 0.03 ~ 0.13 | 9 ~ 39 RMB |
| Mid-Range Functional Part (Service Provider) | Petg | FDM | 0.05 ~ 0.15 (Material) + 0.05 ~ 0.20 (Service) + 0.05 ~ 0.20 (Nachbearbeitung) = 0.15 ~ 0.55 | 45 ~ 165 RMB |
| High-End Industrial Part | SPÄHEN | Sls | 1.0 ~ 5.0 (Material) + 0.2 ~ 0.8 (Technologie) + 0.2 ~ 1.0 (Nachbearbeitung) = 1.4 ~ 6.8 | 420 ~ 2,040 RMB |
4. 4 Praktische Tipps zur Reduzierung der Kosten pro Gramm
You don’t have to compromise on quality to save money. Probieren Sie diese Strategien aus:
(1) Choose the Right Material for Your Needs
- Use PLA for non-functional prototypes instead of ABS or PETG—saves 30–80% on material costs.
- Reserve PEEK or specialized plastics only for parts that need their unique properties (Z.B., heat resistance for industrial use).
(2) Drucken Sie vor Ort für kleine Auflagen
If you print regularly, investing in a basic FDM printer (1,000–5,000 RMB) eliminates service fees. Zum Beispiel, a 1kg PLA roll printed in-house costs 10–50 RMB vs. 50–150 RMB from a service—saving 80% im Laufe der Zeit.
(3) Optimize Print Design to Cut Waste
- Reduce infill: Für Zierteile 10–20 % Füllung verwenden (vs. 50% für funktionale Teile) Reduzierung des Materialeinsatzes um 30–80 %.
- Avoid unnecessary supports: Design self-supporting angles (≥45° for most plastics) to reduce post-processing time and material waste.
(4) Batch Print to Get Discounts
Group small orders into a single batch to qualify for service provider discounts. Zum Beispiel, Drucken 5 small PLA parts (total 300g) at once costs 0.03–0.13 RMB/gram vs. 0.03–0.13 + MOQ fees for individual prints.
Yigu Technology’s Perspective on 3D Printing Plastic Costs
Bei Yigu Technology, Wir glauben matching material and technology to project needs is the key to cost-effective 3D printing. Many clients overspend by using high-cost materials (Z.B., SPÄHEN) for simple prototypes or outsourcing small prints that could be done in-house. Our team helps clients select the right plastic: für grundlegende Prototypen, we recommend PLA (0.01–0,05 RMB/Gramm) with FDM technology; für funktionale Teile, Petg (0.05–0.15 RMB/gram) bringt Kosten und Leistung in Einklang. We also offer batch printing discounts (20–40% for >1kg orders) and optimize designs to reduce waste by 30–50%. Our goal is to help clients get high-quality 3D prints at the lowest possible cost per gram.
FAQ
- Why is PEEK so much more expensive than PLA?
PEEK is an ultra-high-performance plastic designed for extreme conditions (Z.B., hohe Temperaturen, Korrosion). Its production process is complex and requires specialized raw materials, making it 200–500x more expensive than PLA. It’s only used for critical applications like aerospace or medical implants where cheaper plastics can’t meet performance needs.
- Can I use recycled 3D printing plastic to save money?
Yes—recycled PLA or ABS costs 0.005–0.03 RMB/gram (50–50% cheaper than new material) and works well for non-critical projects (Z.B., draft prototypes). Jedoch, recycled plastic may have inconsistent quality (Z.B., varying diameter for filaments) that can cause print defects, so it’s not recommended for functional parts.
- How much does post-processing add to the total cost per gram?
Post-processing typically adds 0.01–1.0 RMB/gram, abhängig von den Schritten. Basic support removal adds just 0.01–0.05 RMB/gram, while complex steps like chemical treatment for ABS can add 0.2–1.0 RMB/gram. For most mid-range parts, post-processing accounts for 10–30% of the total cost per gram.