Rapid Prototyping Service

Star Future is dedicated to delivering speed, precision, and quality, supporting clients from initial concept through to functional prototypes and pre-production samples.

Rapid Prototyping

At Star Future, our Rapid Prototyping services provide an efficient and effective way to turn your concepts into tangible products quickly. Utilizing advanced manufacturing techniques, we help you validate designs, test functionality, and accelerate product development. Whether you need functional prototypes for testing or visually accurate models for presentations, Star Future is here to support your innovation journey.

Our Rapid Prototpying Processes

We use advanced 3D printing technologies, including Binder Jetting(BJ), Stereolithography (SLA), and Selective Laser Sintering (SLS), to create high-quality prototypes quickly and efficiently.

Our CNC machining services allow for the production of precision prototypes from various materials, offering exceptional accuracy and surface finishes that are essential for functional testing. Utilizing advanced 5-axis CNC (Computer Numerical Control) technology, we offering manufacturing solutions that cater to the most complex and demanding projects for a wide range of industries, including aerospace, automotive, medical equipment, robotics, and industrial machinery.

By combining 3D printing with CNC machining, we can optimize prototypes for both speed and precision, ensuring you receive the best possible representation of your design.

Our Material

Overview: A lightweight, corrosion-resistant metal with excellent thermal conductivity. It’s widely used in industries like aerospace, automotive, and electronics.

Key Properties: Lightweight, strong, corrosion-resistant, easy to machine.

Applications: Aerospace components, automotive parts, and electronics housings. Aluminum is commonly used for CNC machining, and sheet metal fabrication due to its ease of machining and thermal properties.

Overview: Known for its strength, durability, and excellent corrosion resistance, stainless steel is versatile across many industries.

Applications: Industrial equipment, medical devices, and structural components. Stainless steel is ideal for CNC machining and sheet metal fabrication, particularly in environments requiring chemical resistance.

Overview: A copper-zinc alloy with excellent machinability and corrosion resistance, often used in precision parts.

Applications: Electrical connectors, plumbing components, and decorative parts. Brass is commonly machined and used in Low-volume production due to its ease of fabrication and good electrical conductivity.

Overview: Known for its superior electrical and thermal conductivity, copper is widely used in electrical and heat-exchange systems.

Applications: Electrical wiring, heat sinks, and plumbing components. Copper’s machinability and conductivity make it ideal for precision CNC machining.

Overview: A strong, lightweight, and corrosion-resistant metal used in high-performance applications.

Applications: Aerospace parts, medical implants, and automotive components. Titanium is often used for CNC machining and 3D printing, especially in industries where strength and low weight are critical.

Overview: One of the lightest structural metals, known for its excellent strength-to-weight ratio and machinability.

Applications: Aerospace and automotive components. Magnesium is ideal for CNC machining and sheet metal applications where reducing weight is essential.

Overview: A tough, impact-resistant plastic often used in consumer products.

Applications: Automotive parts, electronic housings, and prototypes. ABS is commonly used for rapid prototyping and Low-volume production due to its ease of molding.

Overview: A strong, impact-resistant, and transparent plastic often used as a glass substitute.

Applications: Lenses, safety equipment, and electronics casings. PC is ideal for injection molding and rapid prototyping due to its strength and clarity.

Overview: A durable, flexible plastic known for its wear resistance and high mechanical strength.

Applications: Gears, bearings, and mechanical parts. Nylon is suitable for CNC machining, injection molding, and Low-volume production.

Overview: Also known as acrylic, PMMA is a transparent plastic with good UV resistance.

Applications: Display windows, light fixtures, and lenses. PMMA is commonly used in CNC machining and rapid prototyping for transparent parts.

Overview: Known for its high stiffness, low friction, and excellent dimensional stability.

Applications: Precision gears, bearings, and other mechanical parts. POM is often machined for precision components in Low-volume production.

Overview: A high-performance thermoplastic with excellent chemical resistance and mechanical properties.

Applications: Aerospace, medical devices, and high-performance engineering components. PEEK is commonly used in CNC machining and 3D printing for demanding applications.

Overview: A versatile, chemical-resistant plastic commonly used in lightweight applications.

Applications: Automotive parts, packaging, and consumer goods. PP is used in injection molding and Low-volume production due to its flexibility and ease of processing.

Overview: Known for its exceptional chemical resistance, low friction, and high temperature resistance.

Applications: Seals, gaskets, and non-stick surfaces. PTFE is often used in CNC machining and Low-volume production for applications requiring extreme chemical resistance.

Excellent corrosion resistanceHigh ductility and weldabilityIdeal for: Medical devices, marine applications, chemical processing equipmentIngredient listElementFeCMnSiCrContent (wt%)Bal.≤0.032.00～3.00≤1.0016.00～18.00ElementNiNbSP Content (wt%)10.00～14.000.15～0.45≤0.03≤0.03

High hardness and wear resistanceGood corrosion resistanceIdeal for: Surgical instruments, injection molds, cutting tools

High strength and hardnessGood corrosion resistanceIdeal for: Aerospace components, chemical processing equipment, surgical tools

Ultra-high strength and toughnessGood machinability and weldabilityIdeal for: Aerospace structures, tooling applications, high-performance racing parts

Lightweight with good strength-to-weight ratioExcellent thermal propertiesIdeal for: Aerospace components, automotive parts, heat exchangers

High strength-to-weight ratioExcellent biocompatibility and corrosion resistanceIdeal for: Medical implants, aerospace structures, chemical processing equipment

High strength at elevated temperaturesExcellent corrosion resistanceIdeal for: Gas turbine components, rocket engines, nuclear reactors

Superior corrosion resistanceHigh strength and toughnessIdeal for: Chemical processing equipment, marine applications, aerospace

Excellent high-temperature strength and oxidation resistanceGood fabricabilityIdeal for: Gas turbine engines, industrial furnaces, nuclear reactors

One-stop Manufacturing Solutions

Whether you require a single prototype for design verification or mass manufacturing of final products, we have the solutions for you.

Why Us

At Star Future, we don’t just manufacture parts—we accelerate innovation. Our capabilities in CNC machining, 3D printing, sand casting and more allow us to use the best process for every single part of your project. Here’s why industry leaders trust us as their end-to-end prototyping and precision manufacturing partner.

End-to-End Capabilities

Simplify your supply chain. We combine sand casting, multi-axis CNC machining, industrial 3D printing under one roof. No juggling vendors. No compatibility gaps.

Fast Turnaround

Get functional prototypes and pre-production samples fast. Our integrated processes slash lead times while maintaining rigorous quality standards.

Flexible On-demand Production

Whether you need 1 prototype or 500 bridge-production units, our flexible capacity grows with your project—without sacrificing speed or precision.

Cost-Effective

By eliminating the need for physical patterns and tooling, we significantly reduce upfront costs, making it economically viable to produce single prototypes or small batches of parts.

When you need experience, we have it covered.

Our streamlined process ensures precision, efficiency, and complete satisfaction at every step.

Consultation what you need.

Our engineering team carefully reviews your CAD files, technical drawings, and specifications, engaging in detailed discussions about material choices, tolerance requirements, and surface finish needs.

Quote and order confirmation

You’ll receive a comprehensive quote that includes all specifications, deliverables, quality standards. Upon your approval, we move into the confirmation phase where all project details are thoroughly reviewed and finalized.

Manufacturing & quality control

During production, we maintain rigorous quality control through continuous monitoring and inspection processes. Our state-of-the-art CMM equipment verifies critical dimensions, while expert technicians conduct thorough surface finish inspections.

What they say about us

Welcome to leave any suggestions or comments about our services. Here are some comments from other customers

"Working with Star Future is absolutely a right choice for our business. Their precision CNC machining and attention to detail are unmatched. They consistently deliver high-quality components that meet our exact specifications"

"Star Future has exceeded our expectations on every project. From prototyping to production, their team’s dedication to quality and on-time delivery has made them an integral part of our supply chain."

"We were impressed by Star Future’s ability to handle our highly intricate designs. Their 5-axis machining capabilities and engineering expertise brought our vision to life with incredible precision."

Ready for Manufacturing? Get a Free Quote & Expert Advice.

Have a CAD file or project specs? Our manufacturing engineers are ready to review your requirements and provide a fast, competitive quote for CNC machining, sand casting, 3D printing, or gear manufacturing.

Frequently Asked Questions.

What file formats do you accept for quoting and manufacturing?

We support all major CAD formats:
STEP, IGES, STL, SLDPRT, X_T, PARASOLID (and more).
Our engineers will review your design for manufacturability (DFM) and provide optimization suggestions before production begins.

What materials do you work with?

We offer a wide range of materials for various manufacturing processes, including:

Metals (Aluminum, Steel, Titanium, etc.)
Plastics (ABS, Nylon, Polycarbonate, etc.)
Composites and specialized materials depending on the application. We also provide material consultation to help you select the most suitable materials for your project.

Can you handle complex geometries or tight-tolerance parts?

Absolutely. Our 5-axis CNC machining centers (±0.01mm) and industrial 3D printers excel at:

Intricate designs, thin walls, and internal features
Tolerances down to ±0.025mm for critical dimensions
Challenging materials (e.g., Inconel, PEEK, tool steels)

Can I request a custom finish or post-processing for my parts?

Absolutely! We offer a wide range of surface finishes and post-processing options to enhance both the appearance and functionality of your parts. Whether you need polishing, anodizing, painting, or another specific finish, we can accommodate your requirements.

What is the lead time for your services?

Lead times vary depending on the service and project complexity. Rapid prototyping can typically be completed within a few days, while more complex manufacturing projects such as Low-volume production or tooling may take longer. Once we receive your project specifications, we’ll provide a detailed timeline.

Rapid Prototyping Service