Quality Equipment
+ Expertise & Experience
= Precision Results
Our state-of-the-art equipment, paired with extensive industry expertise, ensures precision results for every project. Our advanced facilities handle complex challenges with ease, consistently delivering to your exact specifications.
50+
High Performance Production Machines
110+
Expert technicians and designers ready to serve you
Solutions to Meet Your Needs
Learn About Our
Manufacturing Capabilities
Precision, Speed, Quality
CNC Machining Equipment
With a sophisticated array of CNC machines ranging from CNC Lathe/Turning to 3 and 5 axis machines, our facilities are geared to meet the most demanding precision requirements across a diverse spectrum of industries. Our CNC capabilities are designed to deliver exceptionally high precision with tolerances as fine as 0.0008 inches (0.02 mm), ensuring utmost accuracy in every dimension.
From complex metal components to intricate plastic parts, our state-of-the-art CNC technology empowers us to execute precise cuts and shapes, resulting in high-quality outcomes tailored to the specific needs of our clients. Whether it’s small-scale prototypes or small-volume production runs, our advanced CNC solutions are capable of handling maximum part dimensions up to 2000mm x 1000mm x 600mm, making them versatile enough to accommodate nearly any manufacturing requirement.
CNC Services
- 3-5 Axis CNC
- CNC Lathe/Turning
- Surface Finishing
Tolerances & Dimensions
Size: 0 – 12″ (0 – 30.5 mm)
Tolerance: 0.0004″ (0.01 mm)
Angularity: +/- 1/2 degree
Size: <12″- 24″ (30.5 mm – 61.0 mm)
Tolerance: 0.0004″ (0.01 mm)
Angularity: +/- 1 degree
Size: <24″- 36″ (61.0 mm – 91.5 mm)
Tolerance: 0.0004″ (0.01 mm)
Min. Tolerances: 0.0008” (0.02mm)
Angularity: +/- 1 degree
CNC Machines
- (3) 5-Axis CNC Machines
- (9) 4-Axis CNC Machines
- (40) 3-Axis CNC Machines
- (3) Milling Machine
- (5) Digitally Controlled Lathe
Quality Control Equipment
- (2) Serein 2.5D Projection Measurement Machine
- (2) Serein CMM Detector
- (3) 0-100mm Height Gauge
- (12) Mituyoto Digimatic Micrometer
- (6) Mituyoto Caliper
Precision & Cost Efficiency
3D Printing Equipment
Leveraging over 15 years of expertise in additive manufacturing (3D Printing), our state-of-the-art 3D printing services are equipped to handle diverse project demands with precision and innovation. With a robust fleet of over 400 industrial-grade 3D printers from leading manufacturers such as HP, Stratasys, and EOS, we offer unparalleled capacity in producing prototypes and parts across a broad spectrum of materials including resin, nylon, metal, and full-color composites.
Our capabilities extend to more than 40 types of materials, enabling us to deliver tailor-made solutions that meet the exacting standards of industries ranging from aerospace and automotive to medical and art. Whether it’s creating intricate medical devices, robust automotive components, or detailed architectural models, our advanced 3D printing technology ensures high-quality results with efficient turnaround times. This makes our facility a powerhouse for transforming conceptual designs into tangible products, perfectly aligning with the dynamic needs of modern manufacturing landscapes.
3d Printing Materials
- ABS (Acrylonitrile Butadiene Styrene): Known for its toughness and impact resistance, ideal for automotive, consumer goods, and enclosures for electronic devices.
- Nylon: Offers excellent wear resistance and high mechanical strength, commonly used for mechanical components such as gears and bearings.
- Polycarbonate: Extremely durable and transparent, used in applications requiring high impact resistance and optical clarity, like protective covers and eyewear.
- POM (Polyoxymethylene or Acetal): High stiffness, low friction, and excellent dimensional stability, suitable for precision parts in mechanical assemblies.
- PTFE (Polytetrafluoroethylene or Teflon): Exceptionally chemically resistant and can withstand high temperatures, often used in applications involving corrosive chemicals or extreme conditions.
- PEEK (Polyether Ether Ketone): Offers a unique combination of high heat resistance, mechanical strength, and chemical resistance, used in aerospace, automotive, and medical industries.
- PVC (Polyvinyl Chloride): Good mechanical strength and resistance to chemicals and weathering, used in construction and medical devices.
- HDPE (High-Density Polyethylene): Known for its high strength-to-density ratio, used in making fuel tanks, water pipes, and plastic lumber.
- SLM Metals (Stainless Steel, Titanium, Aluminum, Inconel): Utilized for their ability to form strong, dense, and complex structures; these metals are critical in demanding sectors like aerospace, automotive, and medical industries due to their high performance under extreme conditions.
Comprehensive Metalworking Solutions
Sheet Metal Fabrication Equipment
Leveraging sophisticated sheet metal fabrication technologies, our facility is equipped with an array of advanced equipment tailored for precise bending, cutting, and welding processes. From high-precision laser cutting machines capable of intricate work to robust bending and pressing machinery designed for both small-scale production projects or prototypes, our capabilities ensure top-tier production quality.
Our sheet metal fabrication tools, including state-of-the-art AMADA bending machines and powerful laser cutters, are pivotal in transforming raw materials into finely crafted metal parts. These technologies, combined with our expert handling, allow us to produce everything from simple brackets to complex assemblies with precision up to 0.05 mm. Whether it’s custom automotive components, durable industrial machinery parts, or delicate electronics enclosures, our facility is adept at meeting diverse manufacturing needs with precision and efficiency.
Common Sheet Metal Fabrication Materials
- Aluminum:
- AL5052: Known for its good strength, corrosion resistance, and formability. Used in marine and automotive applications.
- AL5083: Highly resistant to seawater and industrial chemicals, often used in shipbuilding and rail cars.
- AL6061: A versatile alloy with great strength-to-weight ratio, weldability, and corrosion resistance, suitable for structural applications.
- AL6063: Commonly used in architectural applications for its good appearance, easy anodizing, and satisfactory corrosion resistance.
- Stainless Steel:
- 304: The most common stainless steel, known for its excellent corrosion resistance and formability, used in everything from kitchen equipment to automotive bodies.
- 316: Superior corrosion resistance, making it ideal for use in marine and pharmaceutical equipment.
- 410: Heat treatable and offers good strength and mild corrosion resistance, suitable for applications like cutlery.
- 430: Lower cost with good corrosion resistance, used in applications where high conductivity is not necessary.
- Mild Steel:
- A36: A standard structural steel that is affordable and has good welding properties.
- 1018: Known for its good welding and case hardening properties, used in parts requiring welding, grinding, or machining.
- 1045: Higher strength carbon steel, used for bolts, studs, and shafts.
- Copper:
- C11000: Also known as Electrolytic Tough Pitch (ETP), this is the most common type of copper, with high electrical and thermal conductivity.
- C10100: Also known as Oxygen-Free Electronic (OFE). This grade is used in electronic applications where high conductivity is required.
- Brass:
- 360: Known for its strength and machinability, often used for decorative objects and fittings.
- 260: Also known as cartridge brass, has a good mix of strength and ductility, making it suitable for ammunition casings and decorative items.
- Bronze:
- C93200: Also known as bearing bronze, used in bearings and bushings due to its high strength and resistance to wear.
- C95400: Aluminum bronze, known for its high strength and excellent corrosion resistance, used in heavy-duty applications.
Cost Efficiency at Scale
Vacuum Casting (Urethane Casting)
Our state-of-the-art urethane casting facilities are equipped with cutting-edge vacuum casting technology, designed to deliver superior part quality and precision. We utilize advanced silicone molds and a variety of high-performance urethane resins that can replicate the properties of injection molded plastics, ensuring durability and aesthetic appeal. Our dedicated casting stations are optimized for efficient and consistent production, allowing us to handle everything from simple to highly complex part geometries with ease.
Leveraging decades of expertise in urethane casting, our skilled technicians apply meticulous attention to detail throughout the casting process, from initial mold design to final part curing. This expertise ensures that each component meets stringent quality standards, with excellent dimensional stability and fine surface finishes. By integrating sophisticated post-processing capabilities, including painting, texturing, and machining, we enhance the functionality and appearance of the finished products, making them ready for market or further assembly.
Whether you need a handful of prototypes or a small-scale production run, our facilities are prepared to meet your requirements with speed and precision, reaffirming our commitment to providing top-tier urethane casting services tailored to the needs of innovators and industry leaders alike.
Common Materials Used in Urethane Casting
- PU Rigid Resins: Ideal for durable, high-impact applications; mimics ABS and polycarbonate.
- PU Flexible Resins: Offers varying degrees of flexibility, similar to rubber; used for gaskets, seals, and shock absorbers.
- PU Clear Resins: Provides clarity and can be used for lenses, covers, and prototypes requiring transparency.
- PU High-Temperature Resins: Suitable for applications requiring resistance to high temperatures, such as under-hood automotive components or industrial machinery parts.
- PU Foam Resins: Light and durable, used for creating model prototypes or lightweight components.
Typical Applications and Industries Served:
- Consumer Electronics: Casings, buttons, and fixtures for devices like smartphones, tablets, and remote controls.
- Automotive: Components such as dashboards, bumpers, and trim pieces, as well as functional parts for limited production runs.
- Medical Devices: Custom casings for medical instruments, models for anatomical teaching, and protective gear.
- Industrial Machinery: Prototypes and functional parts for machinery, including impact-resistant covers and flexible seals.
- Entertainment and Consumer Products: Detailed models, toys, and collectibles that require fine finishes and durability.
Advanced Molding for Precise Applications
Injection Molding
Our modern injection molding facilities combine precision molding technology with advanced process control to deliver high-quality, complex components across various industries. Equipped with the latest in high-performance injection molding machines, we offer tight tolerance capabilities and a wide array of engineering and commodity plastics. This technology enables us to produce durable, highly detailed parts efficiently and consistently.
Expertise in precision molding allows us to handle demanding specifications that require intricate geometries and consistent repeatability. From small components to large assemblies, our capabilities extend to all stages of product development—from prototype to full-scale production. We specialize in low-volume manufacturing, leveraging automation and rigorous quality control systems to ensure each part meets the highest standards of precision and performance. Whether you’re in automotive, medical, consumer goods, or electronics, our injection molding services are designed to accelerate product development and drive innovation.
Types of Injection Molding Projects
- High-Precision Molding:Utilizes advanced CNC machining of the molds to achieve tight tolerances, ideal for creating intricate parts that require exact specifications.
- Overmolding:Involves molding a second material over a previously molded part, enhancing the product’s functionality and aesthetics, suitable for creating composite parts with ergonomic features or soft-grip surfaces.
- Insert Molding:Integrates different components into the plastic mold, such as metal screws or electrical connectors, to form a single, cohesive assembly, reducing secondary processing and assembly costs.
- Micro Molding:Specializes in producing extremely small and precise plastic parts, used in medical devices, electronics, and micro assemblies, where precision is critical.
Precision Process Controls in Injection Molding
Our injection molding facilities are equipped with state-of-the-art process controls that ensure the highest level of precision and consistency for every part we produce. Advanced control systems manage every aspect of the injection molding process, from the initial material feed to the final ejection of components, ensuring optimal conditions are maintained throughout the production cycle.
- Real-Time Monitoring: Utilizing sensors and feedback mechanisms, our machines continuously monitor critical parameters such as temperature, pressure, and injection speed. This real-time data allows for immediate adjustments, ensuring that each cycle is executed with maximum accuracy.
- Automated Adjustments: Our systems are programmed to automatically adjust processing parameters in response to variations in material characteristics or environmental conditions. This adaptive approach minimizes defects, enhances part quality, and reduces waste.
- Consistency and Reproducibility: By precisely controlling every step of the injection process, we achieve remarkable consistency across production runs. This is crucial for projects requiring high repeatability, such as those in the medical, automotive, and aerospace industries.
- Predictive Maintenance: Leveraging data from the control systems, we can predict and preempt equipment failures before they occur. This proactive maintenance ensures uninterrupted operations and long-term reliability of our molding equipment.
Precision and Durability
Die Casting
Our die casting facilities are equipped with advanced machines designed to deliver high-precision metal parts efficiently and consistently. Specializing in aluminum, zinc, and magnesium, we produce components with complex geometries and excellent surface finishes, ideal for high-volume production.
Leveraging automated process controls and state-of-the-art injection technology, we ensure each part meets stringent quality standards while optimizing production speed and cost-effectiveness. Our integrated approach includes comprehensive finishing options, preparing parts for immediate application in industries such as automotive, aerospace, and electronics.
Advanced Die Casting Equipment:
- High-Pressure Die Casting Machines: Capable of injecting molten metal with high precision to ensure consistent part quality and detail.
- Automated Handling Systems: Increase production efficiency and ensure safety by automating the movement and cooling of casts.
- Precision Molds: Engineered for multiple uses with exacting tolerances, reducing the need for secondary machining.
Expertise and Technical Knowledge:
- Experienced Technicians: Skilled professionals who understand the nuances of metal properties and mold design.
- Material Science Proficiency: In-depth knowledge of different metals and their behaviors under various conditions to advise on the best choices for specific applications.
- Continuous Training and Development: Ongoing education to keep staff up-to-date on the latest die casting technologies and techniques.
Quality Assurance in Die Casting:
- Real-Time Monitoring Systems: Continuously check parameters like temperature and pressure to maintain optimal conditions.
- Rigorous Testing Protocols: Include X-ray inspections, metallography, and dimensional accuracy tests to ensure each batch meets specifications.
- Post-Casting Analysis: Regular audits of finished products to refine processes and reduce defects.
Benefits of Die Casting:
- Rapid Production Turnaround: Ideal for large-scale manufacturing runs with shorter lead times.
- High Part Integrity and Strength: Products are durable and dimensionally stable, suitable for critical applications.
- Cost-Effectiveness: Reduces waste and minimizes material costs through efficient design and automated processes.
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Our full team of project managers, engineers, and designers are ready to help make your concepts reality.
Product Size Capabilities
Our advanced manufacturing facilities are equipped to handle a broad range of product sizes, ensuring versatility across numerous applications. From small, intricate components to large, complex assemblies, our facilities support precise production for practically any dimension. This capability allows us to meet diverse manufacturing needs, making us an ideal partner for industries requiring high precision and scalability in part production.
3D Printing (SLA & SLS)
maximum size : 600 x 600 x 400mm
CNC Machining
maximum size :2000 x 1200 x 700mm
Vacuum Casting
maximum size : 1000 x 1000 x 1000mm
Steel Mold
maximum size :1500 x 1200 x 800mm
Sheet Metal Production
maximum size : 3000 x 3000 x 500mm
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Precision & Accuracy Are Our Goals
To demonstrate our commitment to precision and accuracy, we invite you to view our certificates of quality conformance and example quality control reports. Please click on the thumbnail images below to explore detailed documentation that reflects our stringent quality standards.
Certificate of Conformance
Rohs Statement
Finishing Certificate
Material Certificate
Standard Dimension Inspection Report
CMM Inspection Report
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