CNC Manufacturing for New Energy
At Robotika, we provide precision-engineered components for the energy sector, offering rapid prototyping and on-demand production for renewable and traditional energy applications.
- 10+ years of CNC manufacturing experience in energy
- 3- to 5-axis CNC, high-speed EDM, and precision molding capabilities
- +0.01 mm tolerances on critical dimensions
- Advanced alloys and composite materials available
- 24/7 engineering support
Start Manufacturing Your CNC New Energy Parts !
STEP | STP | IGS | IGES | PRT | SLDPRT | SAT | X_T
Max. file size: ≤15MB
Reliable CNC Energy Part Supplier from China
Robotika specializes in CNC manufacturing for the new energy industry, delivering precision components that support applications such as electric vehicles, energy storage systems, solar equipment, and wind power solutions. With expertise in rapid prototyping and flexible low- to medium-volume production, we help companies accelerate product development while ensuring performance, reliability, and durability. Our capabilities allow us to manufacture both structural and functional parts with high accuracy, offering short lead times, DFM support, and material flexibility to meet the rigorous standards of the new energy sector.
Beyond machining, Robotika provides value-added services including material consultation, thermal management solutions through custom machining of heat sinks and cooling plates, and a variety of protective and conductive surface finishes to extend component life in demanding environments. With over 10 years of experience and more than 100,000 parts delivered annually, we proudly serve global EV manufacturers, battery system suppliers, solar technology companies, and renewable energy startups, helping them bring sustainable innovations to market faster.
What kind of energy parts can we make?
Robotika produces a variety of CNC-machined components for the new energy industry, including battery trays, cooling plates, busbar connectors, motor housings, inverter enclosures, structural brackets, and wind turbine fittings. These parts are manufactured from aluminum alloys for lightweight strength and excellent thermal conductivity, stainless steel for durability and corrosion resistance, copper for superior electrical performance, and engineering plastics such as PEEK, PPS, and PC for insulation and flame-retardant applications. To ensure both functionality and long service life, we offer surface finishing options including anodizing, passivation, powder coating, and electropolishing. All components are rigorously inspected using automated CMM and visual checks, enabling us to achieve tight tolerances of up to ±0.01 mm to meet the precision demands of the new energy sector.
- Battery trays
- Cooling plates
- Busbar connectors
- Inverter housings
- Motor housings
- Gearbox housings
- Bearing brackets
- Structural supports
- Power distribution enclosures
- Heat sinks
- Battery module end plates
- EV charging connector shells
- Rotor shafts
- Stator housings
- Wind turbine brackets
- Solar panel mounting brackets
- Junction boxes
- Cable clamps
- Sensor housings
- Hydraulic manifold blocks
- Generator covers
- Control unit casings
- Heat spreaders
- Pump housings
CNC Energy Parts Manufacturing Capabilities
Supported Materials
We specialize in machining new energy-grade materials such as aluminum alloys (6061, 7075), titanium (Ti-6Al-4V), stainless steel (304, 316L), and advanced plastics like PEEK and PTFE, suitable for demanding new energy applications.
Machining Accuracy
We maintain standard tolerance within ±0.01mm, ensuring high precision for new energy components, including structural parts and engine components.
Maximum Machining Size
Our maximum machining size is 1000mm × 600mm × 500mm, accommodating a wide range of new energy parts.
Surface Finishing Options
We offer anodizing, polishing, bead blasting, powder coating, and other finishes to enhance part durability and performance.
Delivery Time
Standard CNC machining lead time is 5-10 days, with expedited services for urgent new energy projects.
Experience the boundless possibilities of customization
Enhance your new energy components with advanced surface finishes and precision detailing. At Robotika, we tailor each part to meet your exact specifications—including material selection, geometry, and coating—ensuring performance, reliability, and full compliance with new energy standards.
| Name | Tolerance Range |
|---|---|
| Standard New Energy Parts | ±0.2 mm to ±0.5 mm |
| Precision New Energy Parts | ±0.05 mm to ±0.2 mm |
| Complex New Energy Parts | ±0.2 mm to ±0.5 mm |
- *Robotika accommodates part lengths of up to 48", depending on the process. For larger dimensions, please reach out to us for inquiries. The tolerances listed represent minimums under ideal conditions; however, looser tolerances may be necessary based on the process, material selection, or part geometry.
| Name | Description | Can Be Applied with | |
|---|---|---|---|
|
Anodizing | Improves corrosion resistance, surface hardness, and aesthetic finish. | Battery housings, motor brackets, inverter frames |
|
Powder Coating | Provides a durable coating that protects against wear, chemicals, and environmental factors. | Electric motor casings, solar panel frames, charging station components |
|
Bead Blasting | Creates a uniform matte surface, reduces friction, and improves assembly fit. | Gear housings, structural supports, heat sinks |
|
Polishing | Enhances surface smoothness and precision, suitable for aesthetic or functional parts. | Rotor shafts, connector housings, busbar components |
|
Electroplating | Adds a protective metal layer to improve corrosion resistance, wear resistance, and conductivity. | Copper busbars, contact terminals, conductive components |
|
Passivation | Strengthens corrosion resistance by forming a protective oxide layer on stainless steel surfaces. | Stainless steel fasteners, battery enclosure panels, structural brackets |
|
Chem Film | Chemical conversion coating that improves corrosion resistance and paint adhesion for lightweight metals. | Aluminum motor mounts, lightweight frames, inverter panels |
- *We offer a range of additional finishing options, including chromic acid anodizing, cadmium plating, copper plating, titanium anodizing (blue anodizing), gold plating, silver plating, and more. If you require finishes for materials not mentioned here, please reach out to us directly.
Aluminum Alloys (6061, 7075)
Aluminum alloys (6061, 7075) are lightweight yet strong, making them ideal for CNC machining of consumer products. They offer excellent machinability, corrosion resistance, and thermal conductivity, supporting precision parts that require both structural integrity and aesthetic appeal. Common applications include electronic housings, heat sinks, mounting brackets, and structural frames. CNC machining ensures tight tolerances, smooth surface finishes, and consistent part quality, enabling reliable performance in consumer electronics, home appliances, and robotics components. Their combination of strength, lightweight, and finishability makes them a top choice for functional and decorative parts.
- Mill Lead Time: 3–5 days
- Finishes: Raw, anodized, bead blasted, polished
Stainless Steel (304, 316L)
Stainless steel provides high strength, corrosion resistance, and long-term durability, making it suitable for consumer product components exposed to wear, moisture, or harsh environments. Typical applications include structural frames, mounting brackets, fasteners, and decorative panels. CNC machining allows precise tolerances, polished finishes, and consistent surface quality, ensuring both functionality and visual appeal. Its toughness and ability to maintain shape under stress make it ideal for high-end electronics, wearable devices, and mechanical assemblies in consumer products, combining reliability with a premium finish.
- Mill Lead Time: 3–5 days
- Finishes: Raw, polished, passivated, bead blasted
Titanium (Ti-6Al-4V)
Titanium offers an exceptional strength-to-weight ratio, corrosion resistance, and biocompatibility, making it perfect for premium consumer product parts. It is commonly used in high-performance wearables, structural frames, fasteners, and connectors that require both strength and lightweight design. CNC machining ensures precise geometries, smooth finishes, and consistent mechanical performance. Despite its machining challenges, titanium delivers long-lasting, high-quality components that enhance durability and functionality, making it ideal for consumer electronics, robotics, and specialized industrial devices where reliability and lightweight performance are critical.
- Mill Lead Time: 5–7 days
- Finishes: Raw, anodized, polished, bead blasted
Copper Alloys
Copper alloys are widely used in consumer products for their excellent electrical and thermal conductivity, as well as machinability. They are ideal for connectors, heat sinks, RF shielding components, and electronic housings. CNC machining ensures precise tolerances, consistent surface quality, and repeatable performance, essential for electrical components and heat-dissipating parts. Their ability to combine functional performance with high-quality finishing options makes copper alloys suitable for both technical and aesthetic applications in electronics, appliances, and communication devices.
- Mill Lead Time: 3–5 days
- Finishes: Raw, polished, electroplated
ABS
ABS is a highly versatile plastic with excellent mechanical properties, impact resistance, and low processing temperature, making it ideal for CNC machining of consumer product housings, panels, and enclosures. It allows for complex geometries, smooth surfaces, and consistent part quality, suitable for both prototyping and mass production. ABS is widely used in electronics, home appliances, robotics, and automotive interiors. CNC machining ensures accurate dimensions, tight tolerances, and high repeatability, making ABS a cost-effective solution for durable, functional, and visually appealing consumer product components.
- Mill Lead Time: 3 days
- Color: Black, neutral matte finish
PC
PC is a durable, high-impact, and heat-resistant plastic ideal for protective housings, display windows, and transparent components in consumer products. CNC machining enables precise tolerances, clean edges, and accurate geometries, ensuring functional and aesthetic quality. PC is commonly applied in electronic devices, wearables, and safety equipment, where durability, clarity, and thermal stability are critical. Its excellent strength-to-weight ratio, combined with ease of machining, allows manufacturers to produce reliable parts that can endure daily use and occasional impact, while maintaining a premium appearance.
- Mill Lead Time: 3–5 days
- Color: Transparent, smoke, or custom
PEEK
PEEK is a high-performance engineering plastic with outstanding thermal stability, chemical resistance, and mechanical strength, suitable for precision consumer product parts. It is widely used in insulating components, structural elements, gears, and high-load connectors. CNC machining of PEEK allows complex shapes, tight tolerances, and smooth surfaces, ensuring functional reliability and long-term performance. Its stability under high temperatures and chemical exposure makes it ideal for demanding applications such as robotics components, high-end electronics, and specialized appliances. PEEK parts offer both durability and precision, supporting premium consumer product designs.
- Mill Lead Time: 3–5 days
- Color: Natural, black matte finish
Nylon (PA) & Nylon Blends
Nylon is valued for its strength, wear resistance, and flexibility, making it suitable for gears, sliding components, mechanical connectors, and functional assemblies in consumer products. CNC machining ensures precise tolerances, consistent mechanical performance, and smooth finishes. Nylon blends, such as PA + glass or PA + carbon fiber, enhance stiffness, dimensional stability, and load-bearing capacity. These materials are widely used in robotics parts, appliances, and automotive components where durability and reliable mechanical function are essential. Their versatility allows cost-effective and high-performance solutions for complex consumer product assemblies.
- Mill Lead Time: 3–5 days
- Color: Natural, black
Polycarbonate Blends (PC/ABS, PC/ASA)
Polycarbonate blends combine toughness, impact resistance, and dimensional stability, making them ideal for housings, protective panels, and structural components in consumer products. CNC machining ensures precise dimensions, clean finishes, and consistent quality. PC/ABS and PC/ASA blends are widely applied in electronics, automotive parts, and consumer devices that require durability, aesthetic appeal, and functional performance. Their balance of strength, flexibility, and machinability allows complex designs while maintaining structural integrity and high-quality finishes suitable for mass production and premium consumer applications.
- Mill Lead Time: 3–5 days
- Color: Black, gray, or custom
PTFE
PTFE offers excellent chemical resistance, low friction, thermal stability, and electrical insulation, making it ideal for bushings, sliding parts, and insulating components in consumer products. CNC machining ensures tight tolerances, smooth finishes, and consistent performance. PTFE parts are commonly used in electronics, robotics, appliances, and mechanical assemblies where low friction, durability, and chemical resistance are critical. Its non-stick and high-performance properties allow precision functional components while maintaining reliability and longevity under repeated use or high-stress conditions.
- Mill Lead Time: 3–5 days
- Color: Natural, white
Carbon Fiber Reinforced Plastics
CFRP offers a lightweight, high-strength, and stiff solution for structural supports, frames, and precision brackets in consumer products. CNC machining maintains high dimensional accuracy, surface quality, and consistent mechanical performance. It is widely used in robotics, wearables, drones, and high-performance consumer devices where strength-to-weight ratio is critical. CFRP parts provide rigidity without excess weight, enabling durable, precise, and visually premium components. Its advanced material properties make it suitable for both functional and aesthetic applications in modern consumer products.
- Mill Lead Time: 5–7 days
- Color: Black, matte finish
Glass Fiber Reinforced Plastics
GFRP is strong, stiff, and corrosion-resistant, suitable for enclosures, internal supports, and protective panels in consumer products. CNC machining allows complex geometries, precise tolerances, and consistent part quality. Common applications include robotics housings, electronic devices, and appliance components. GFRP provides a cost-effective solution for high-strength parts where durability, stability, and functional integrity are critical. Its machinability and material consistency make it ideal for large or small-scale production runs of consumer product components.
- Mill Lead Time: 5–7 days
- Color: Gray, black
Hybrid Composites (CFRP + GFRP)
Hybrid composites combine the lightweight strength of CFRP with the rigidity and durability of GFRP, creating parts suitable for high-performance consumer products. CNC machining ensures precise dimensions, smooth finishes, and structural reliability. Applications include robotics frames, precision brackets, high-end electronic enclosures, and structural supports. Hybrid composites deliver both stiffness and reduced weight, supporting functional, aesthetic, and performance requirements in demanding consumer product designs. Their versatility allows designers to optimize parts for strength, durability, and long-term reliability.
- Mill Lead Time: 5–7 days
- Color: Black/Gray
CNC Energy Part Supplier FAQs
The lead time for CNC energy parts generally ranges from 2 to 6 weeks, depending on the complexity of the design, materials required, and current production capacity. Please consult with us directly for more specific timelines based on your project needs.
Yes, we handle aluminum alloys, stainless steel, titanium, PEEK, ABS, PC, and various composites. Just specify your material requirements.
Absolutely. Send us your CAD or 3D files, and we can provide a detailed quotation with lead time and options.
Yes, we can supply Certificates of Conformance (CoC) and material traceability on request.
We need your 3D file, material preference, quantity, surface finish, and any special requirements.
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