In der Produktentwicklung, plastic prototypes stand out for their cost-effectiveness—often 30-70% cheaper than metal alternatives like aluminum or stainless steel. This affordability, combined with versatility in design and processing, makes them the first choice for many teams, especially for appearance verification, functional testing of non-load-bearing parts, and small-batch iterations. This article explains why plastic prototypes are cheaper, compares their costs with other materials, and shares practical strategies to further reduce expenses, with clear tables and examples to guide decision-making.
1. Core Reasons Why Plastic Prototype Is Cheaper
Plastic prototypes’ lower cost stems from four interrelated factors, from raw materials to processing efficiency. Understanding these helps you better leverage their cost advantages.
1.1 Factor Breakdown with Cost Impact
Faktor | Detailed Explanation | Cost-Saving Impact | Praktisches Beispiel |
Lower Raw Material Costs | Common plastic materials (ABS, Pp, PC) have significantly lower base prices than metals. Zum Beispiel: – ABS: ~15-25 CNY/kg – Pp: ~10-20 CNY/kg – Aluminiumlegierung (6061): ~20-30 CNY/kg – Edelstahl (304): ~80-100 CNY/kg | Reduces material cost by 40-80% compared to metal prototypes. | A 500g prototype: – ABS material cost: 500g × 0.02 CNY/g = 10 CNY – Aluminium (6061) Materialkosten: 500g × 0.025 CNY/g = 12.5 CNY – Edelstahl (304) Materialkosten: 500g × 0.09 CNY/g = 45 CNY |
Schneller, More Efficient Processing | Plastics are softer and easier to machine than metals, reducing processing time and tool wear: – CNC -Bearbeitung: Plastic parts take 30-50% less time (Z.B., 1 hour for a simple ABS part vs. 2 hours for aluminum). – 3D Druck: Resin/plastic filaments have faster printing speeds and lower energy consumption than metal 3D printing. – Tool Longevity: CNC tools for plastics last 2-3x longer than those for metals (no frequent tool changes). | Lowers labor and tool replacement costs by 30-60%. | A complex curved prototype: – ABS CNC machining: 2 hours × 80 CNY/hour = 160 CNY – Aluminum CNC machining: 4 hours × 100 CNY/hour = 400 CNY |
Simpler Surface Treatment | Most plastic prototypes require basic surface treatment (or none), avoiding high-cost metal processes: – Basic options: Schleifen (50-100 CNY/piece), Ölsprühen (100-200 CNY/piece). – No need for metal-specific treatments: Eloxierung (500-1,500 CNY/piece), elektroplierend (500-2,000 CNY/piece). | Cuts surface treatment costs by 50-90% vs. metal prototypes. | An external shell prototype: – ABS with oil spraying: 150 CNY – Aluminum with anodization: 600 CNY |
Flexible Batch Options for Small Quantities | Plastic prototypes support cost-effective small-batch production without expensive molds: – 3D Druck: Ideal für 1-5 Stücke (Keine Einrichtungsgebühren). – Silicone Duplicate: Für 5-50 Stücke, make a master prototype first, then copy with silicone (unit cost drops to 1/3 of CNC). – Metals often need die casting (Schimmelgebühr: 2,000-8,000 CNY) für kleine Chargen, increasing upfront costs. | Reduces small-batch production costs by 40-70% vs. Metalle. | 10 pieces of a simple shell: – ABS silicone duplicate: 10 × 50 CNY = 500 CNY – Aluminum die casting: 8,000 CNY (Schimmel) + 10 × 80 CNY = 8,800 CNY |
2. Kostenvergleich: Plastic Prototypes vs. Metal Prototypes
To clearly show plastic prototypes’ cost advantages, below is a side-by-side comparison of common prototype types and scenarios.
2.1 Cost Comparison by Prototype Type & Szenario
Prototype Scenario | Plastic Prototype (ABS/PP/PC) | Metal Prototype (Aluminum/Stainless Steel) | Cost Difference (Plastic vs. Metall) |
Simple Appearance Prototype (1 piece, 10cm×8cm×5cm) | – Verfahren: CNC -Bearbeitung + Schleifen – Kosten: 300-500 CNY | – Verfahren: CNC -Bearbeitung + Schleifen – Kosten: 800-1,200 CNY | Plastic is 50-60% billiger. |
Complex Structural Prototype (5 Stücke, with internal holes) | – Verfahren: 3D Druck (Harz) – Kosten: 5 × 200 CNY = 1,000 CNY | – Verfahren: CNC -Bearbeitung (Aluminium) – Kosten: 5 × 500 CNY = 2,500 CNY | Plastic is 60% billiger. |
Small-Batch Functional Prototype (20 Stücke, nicht beladen) | – Verfahren: Silicone Duplicate (ABS master) – Kosten: 500 CNY (master) + 20 × 40 CNY = 1,300 CNY | – Verfahren: Sterben (Aluminium) – Kosten: 5,000 CNY (Schimmel) + 20 × 70 CNY = 6,400 CNY | Plastic is 80% billiger. |
High-Precision Prototype (1 piece, ± 0,05 mm Toleranz) | – Verfahren: CNC -Bearbeitung (PC) – Kosten: 800-1,200 CNY | – Verfahren: CNC -Bearbeitung (Edelstahl) – Kosten: 2,000-3,000 CNY | Plastic is 60-65% billiger. |
3. Practical Strategies to Further Reduce Plastic Prototype Costs
While plastic prototypes are already cheap, strategic adjustments to design, Verfahren, and supplier selection can lower costs even more—without sacrificing quality.
3.1 Design Optimization Tips
- Simplify Geometries: Remove non-functional features like complex curved surfaces, dünne Wände (≤0.5mm), oder tiefe Hohlräume (>8mm). Zum Beispiel, a prototype with a single curved surface costs 300 CNY; simplifying to a flat surface reduces it to 200 CNY (33% Ersparnisse).
- Relax Tolerances: Verwenden Sie Standard -Toleranzen (± 0,1-0,2 mm) for non-critical dimensions. A prototype with ±0.05mm tolerance costs 500 CNY; relaxing to ±0.1mm cuts it to 350 CNY (30% Ersparnisse).
- Avoid Over-Design: Skip unnecessary details like decorative grooves or custom logos for initial tests. Adding a logo via laser engraving adds 50-100 CNY—save this for final prototypes.
3.2 Verfahren & Materialauswahl
Ziel | Recommended Process/Material | Cost-Saving Reason | Example Cost |
Lowest Cost for Appearance Tests | 3D Druck (PLA) | PLA is the cheapest plastic filament (~10 CNY/100g); fast printing speed. | 100g PLA prototype: 80-120 CNY |
Balance of Cost & Haltbarkeit | CNC -Bearbeitung (ABS) | ABS is more durable than PLA; cheaper than PC or engineering plastics. | Simple ABS prototype: 200-400 CNY |
Small-Batch Cost Reduction (5+ Stücke) | Silicone Duplicate (ABS master) | No need for repeated CNC programming; unit cost drops with quantity. | 5 Stücke: 500 CNY (vs. 5 × 300 CNY = 1,500 CNY for CNC) |
Complex Structures on a Budget | 3D Druck (SLA -Harz) | Resin prints complex geometries (innere Hohlräume) ohne zusätzliche Kosten; cheaper than CNC for intricate parts. | Complex resin prototype: 300-500 CNY (vs. 800+ CNY for CNC) |
3.3 Lieferantenauswahl & Bargaining Skills
- Choose Cluster Suppliers: Work with suppliers in Shenzhen, Dongguan, or Suzhou—these regions have dense plastic prototype factories, fierce competition, and lower prices (10-20% cheaper than non-cluster areas). Zum Beispiel, a CNC ABS prototype costs 300 CNY in Shenzhen vs. 360 CNY in other cities.
- Combine Orders: If you need multiple prototypes (Z.B., 3 different shell designs), package them into one order. Suppliers often offer 10-15% discounts for combined orders (Z.B., 3 Prototypen für 800 CNY vs. 3 × 300 CNY = 900 CNY).
- Specify Budget Upfront: Tell suppliers your target price (Z.B., “I need this prototype under 300 CNY”)—they may suggest material substitutions (Z.B., ABS instead of PC) or process adjustments (Z.B., sanding instead of polishing) to meet your budget.
4. Key Precautions to Avoid Quality Risks
Low cost should not come at the expense of prototype usability. Keep these precautions in mind to ensure quality while saving money.
4.1 Material Selection Pitfalls to Avoid
- Don’t Sacrifice Key Properties: Für funktionelle Prototypen (Z.B., hitzebeständige Teile), avoid using cheap PLA (heat-resistant ≤60°C) if you need to test at 80°C—choose PC (heat-resistant up to 120°C) stattdessen. Using the wrong material leads to invalid test results and rework costs.
- Verify Material Authenticity: Some suppliers use recycled plastics (cheaper but brittle) instead of new materials. Ask for material certificates or test samples (Z.B., check ABS flexibility by bending—recycled ABS breaks easily).
4.2 Process Quality Checks
- CNC -Bearbeitung: Ensure no burrs on edges (can affect assembly) and consistent wall thickness (avoid thin spots that break during testing).
- 3D Druck: Überprüfen Sie die Ebene der Ebene (no gaps between layers) und Oberflächenglätte (critical for appearance prototypes).
- Oberflächenbehandlung: For oil-sprayed prototypes, inspect for even coverage (no drips) und Adhäsion (scratch lightly with a fingernail—paint should not peel).
Standpunkt der Yigu -Technologie
Plastic prototypes’ cost advantage lies in material affordability and processing efficiency, making them ideal for early-stage design verification and non-load-bearing parts. Yigu Technology suggests businesses prioritize plastic prototypes for appearance tests, simple functional iterations, und kleine Chargen (1-50 Stücke)—this cuts development costs by 40-70% vs. Metalle. Bei der Auswahl von Materialien, match them to test goals: PLA for cheap appearance mockups, ABS for balanced durability, and PC for heat-resistant needs. For suppliers, cluster areas like Shenzhen offer the best cost-quality balance—their mature supply chains reduce lead times and rework risks. Endlich, avoid over-optimizing for cost: using recycled plastics or skipping quality checks may save 50-100 CNY upfront but leads to costly rework later.
FAQ
- Can plastic prototypes replace metal prototypes for all scenarios?
NEIN. Plastic prototypes are not suitable for load-bearing, Hochtemperatur, or corrosion-resistant scenarios (Z.B., auto engine parts, Industrieklammern). Für diese, metal prototypes (Aluminium, Edelstahl) are necessary—their strength and durability justify the higher cost. Plastic is best for appearance tests, non-load-bearing functional parts, und Anwendungen mit geringer Stress.
- How much can I save by using silicone duplicate instead of CNC machining for 10 Kunststoffprototypen?
Silicone duplicate saves 60-70% durchschnittlich. Zum Beispiel: – CNC machining for 10 ABS -Prototypen: 10 × 300 CNY = 3,000 CNY – Silicone duplicate: 500 CNY (ABS master) + 10 × 40 CNY = 900 CNY – Gesamteinsparungen: 2,100 CNY (70% billiger). This advantage grows with larger batches (Z.B., 50 pieces save 80%+).
- Is 3D printing always cheaper than CNC machining for plastic prototypes?
No— it depends on complexity and size. Für einfach, Große Teile (Z.B., a 20cm×15cm×5cm flat shell), CNC machining is cheaper (300-500 CNY vs. 500-800 CNY for 3D printing). For complex parts with internal cavities or lattices (Z.B., a prototype with small holes and curved channels), 3D Druck ist billiger (300-500 CNY vs. 800+ CNY for CNC, Dies erfordert mehrere Setups).]]>