Industry Sectors FAQ

1. Aerospace & Military 

Q: Do you work with aerospace-grade materials, and can you provide material test reports (MTRs)?

A:​ Yes. We work with a wide range of aerospace-grade materials, including Titanium (Grade 2/5/6Al-4V), Aluminum (7075-T6, 6061-T6), and high-strength stainless steels (17-4PH, 15-5PH). We provide full Material Test Reports (MTRs) and Certificate of Conformance (CoC) to ensure full traceability.

Q: What is the highest precision tolerance you can achieve for aerospace components?

A:​ For critical aerospace features, we can consistently hold tolerances as tight as ±0.0025mm (±0.0001″). We utilize advanced 5-axis CNC machines and rigorous CMM (Coordinate Measuring Machine) inspection processes to meet stringent aerospace quality control standards.

Q: Are your manufacturing facilities ITAR-compliant?

A:​ We strictly adhere to ITAR (International Traffic in Arms Regulations) and export control regulations. Our facilities operate under robust security protocols, and our team is well-versed in handling sensitive defense-related projects.

Q: Can you produce complex geometries like impellers, turbine blades, or thin-walled parts?

A:​ Absolutely. Our 5-axis machining centers are specifically designed to handle highly complex geometries with undercut features, deep cavities, and intricate contours. We excel at producing low-to-medium volume precision components such as impellers and custom mounts.

Q: What is your typical lead time for prototype machining in the aerospace sector?

A:​ Our standard lead time for aerospace prototypes typically ranges from 2 to 4 weeks, depending on the part complexity and material. For urgent requirements, we offer expedited services to shorten the lead time to 5-7 days.

 

 

2. Automotive & Transportation

Q: Are your manufacturing processes suitable for automotive mass production?

A:​ Yes. We are equipped to handle everything from low-volume prototyping to high-volume production runs (up to millions of units annually). We specialize in automotive-grade manufacturing for engine components, transmission parts, chassis systems, and EV battery components.

Q: Do you comply with automotive industry quality management standards like IATF 16949?

A:​ We are fully IATF 16949 certified. We implement rigorous quality control systems, including APQP (Advanced Product Quality Planning), PPAP (Production Part Approval Process), FMEA (Failure Mode and Effects Analysis), and SPC (Statistical Process Control) to ensure zero-defect delivery.

Q: What materials do you commonly use for automotive applications?

A:​ We commonly machine and mold materials such as Carbon Steel (S45C, S55C), Alloy Steel (4140, 4340), Aluminum (A380, ADC12, 6061-T6), and engineering plastics (PA66+GF30, POM, PEEK). These materials offer excellent strength-to-weight ratios and thermal resistance required for automotive use.

Q: Can you handle Just-In-Time (JIT) delivery and vendor-managed inventory (VMI)?

A:​ We understand the critical nature of automotive supply chains. We offer flexible production scheduling, JIT delivery, and VMI services to help reduce your inventory holding costs and prevent production line stoppages.

Q: Do you offer surface treatments suitable for automotive components?

A:​ Yes. We provide a full range of automotive-compliant surface treatments, including Electroless Nickel Plating, Zinc-Nickel Plating (for corrosion resistance), Anodizing (Type II/III for aluminum), and Powder Coating to meet both functional and aesthetic requirements.

 

 

3. Construction & Real Estate 

Q: What materials do you recommend for outdoor construction hardware?

A:​ For outdoor and harsh environments, we highly recommend materials like 304/316 Stainless Steel, Hot-Dip Galvanized Steel, Ductile Cast Iron (DCI), and Aluminum Bronze. These materials provide superior resistance to rust, corrosion, and extreme weather conditions.

Q: Can you manufacture custom cast iron components for heavy machinery used in construction?

A:​ Yes. We specialize in Sand Casting and Investment Casting of Ductile Iron (QT500-7, QT600-3) and Gray Iron (HT250). We can produce custom construction parts such as mounting brackets, hydraulic cylinders, gearbox housings, and track links.

Q: Do you provide galvanized or powder-coated finishes for construction parts?

A:​ We offer comprehensive surface protection solutions. This includes Hot-Dip Galvanizing (HDG) for maximum corrosion resistance, and Polyester Powder Coating in various RAL colors for enhanced durability and visual appeal on structural components.

Q: What is the maximum weight capacity for your custom-forged construction parts?

A:​ Our closed-die forging capabilities allow us to produce parts weighing from a few kilograms up to 500kg. We use high-strength alloys (such as alloy steels and carbon steels) that can withstand massive structural loads and impact forces.

Q: Can you assist with the design and optimization of construction fasteners?

A:​ Our engineering team offers DFM (Design for Manufacturing) services for construction fasteners (bolts, nuts, washers, anchors). We help optimize thread engagement, tensile strength, and head shapes to ensure compatibility with concrete, steel, or wood structures.

 

 

4. Consumer Electronics & Smart Hardware 

Q: Can you produce micro-sized precision parts with tight tolerances for electronics?

A:​ Yes. Using high-speed CNC machining and micro-machining technology, we can achieve tolerances of ±0.002mm​ on parts with wall thicknesses as thin as 0.3mm. Ideal for connectors, sensor housings, and semiconductor components.

Q: What plastic materials do you use for injection-molded consumer products?

A:​ We work with high-performance engineering plastics perfect for electronics, including PC (Polycarbonate), ABS, PC/ABS blends, Nylon (PA66), PBT, and high-temperature materials like PEEK​ and LCP. These materials offer excellent flame retardancy (UL94 V-0) and insulation properties.

Q: How quickly can you complete a new mold build for a smartphone accessory?

A:​ Our experienced mold-making team can typically deliver a standard 2-plate or 3-plate mold within 25 to 35 days. For complex multi-cavity molds, the timeline is around 40-50 days. We also offer rapid prototyping molds for quick testing.

Q: Can you achieve smooth glossy or matte surfaces for aesthetic electronic casings?

A:​ We offer advanced surface finishing services tailored for consumer electronics, including High-Gloss Polishing, Texture Etching (such as leather grains), UV coating, silk-screen printing, and laser engraving to meet premium aesthetic and haptic requirements.

Q: Do you support small-batch customization for smart home devices?

A:​ Yes. Besides mass production, we provide Low-Volume Injection Molding (using aluminum molds) which is perfect for market testing, crowdfunding campaigns, or small-batch production runs ranging from 100 to 10,000 units.

 

 

5. Industrial Automation & Robotics

Q: Can you manufacture custom robot end-effectors and grippers?

A:​ Absolutely. We design and manufacture high-precision end-effectors, adaptive grippers, and tool changers using materials like Aluminum 7075 and hardened tool steels. We ensure perfect repeatability and payload capacity for collaborative and industrial robots.

Q: What materials are best suited for high-friction mechanical components?

A:​ For gears, bearings, shafts, and slides, we recommend materials like Hardened Tool Steel (HRC 58-62), Bronze (ZCuAl10Fe3), and 工程塑料 (如 POM 和尼龙加玻纤). These materials offer excellent wear resistance, low friction coefficients, and self-lubricating properties.

Q: Do you provide precision-machined linear guide components?

A:​ We manufacture custom linear motion components, including linear rails, ball screws, and guide blocks. These parts undergo precision grinding and heat treatment to ensure ultra-smooth movement and high load-bearing capabilities in CNC machines and robotic arms.

Q: Can you produce explosion-proof and corrosion-resistant parts for industrial control cabinets?

A:​ Yes. We can manufacture industrial switchgear components and junction box parts using materials like 316L Stainless Steel and special aluminum alloys. We apply anti-corrosion coatings and sealing gaskets to meet ATEX and IP65/IP67 protection ratings.

Q: What is the typical lead time for custom automation parts?

A:​ Standard lead times for custom CNC machined automation parts range from 10 to 20 days. For urgent projects, we offer an expedited service that can deliver prototypes in as fast as 3-5 days to keep your production lines running without delays.

 

 

6. Medical Equipment & Life Sciences 

Q: Do you manufacture parts that meet medical device regulatory standards?

A:​ Yes. We strictly follow ISO 13485 quality management system standards. Our facility is equipped for producing Class I, II, and III medical device components with full traceability from raw material to final inspection.

Q: What materials do you use for surgical instruments and implants?

A:​ For surgical tools and external medical devices, we use 316L / 17-4Ph / 15-5Ph Stainless Steel, Titanium (Ti-6Al-4V), and Cobalt-Chromium (CoCr)​ alloys. All materials come with full Material Test Reports (MTRs) and are certified biocompatible.

Q: Can you achieve the ultra-high cleanliness standards required for medical equipment?

A:​ Our facility maintains a Class 8 Cleanroom environment for assembly and packaging. We offer specialized cleaning processes, including ultrasonic cleaning and passivation, to remove machining residues and ensure parts meet USP <797> or other medical cleanliness standards.

Q: Do you offer precision machining for diagnostic equipment components?

A:​ We specialize in machining complex components for medical diagnostics, such as MRI machine parts, CT scanner components, microscope housings, and laboratory automation equipment. We handle delicate features and require zero contamination during the process.

Q: What surface treatments are available for medical instruments?

A:​ We provide Passivation (to maximize corrosion resistance of stainless steel), Electropolishing (for a super-smooth, bacteria-resistant surface), and PVD Coating (for enhanced hardness and biocompatibility) to ensure the safety and longevity of medical instruments

 

 

7. New Energy & Power 

Q: What materials do you use for electric vehicle (EV) battery components?

A:​ For EV battery systems, we utilize Aluminum 6061/7075​ (for lightweight heat sinks), Copper 110/101​ (for high-current busbars), and high-temperature insulating plastics (PEEK, PPS, LCP)​ for terminal connectors and protective housings.

Q: Can you manufacture precision busbars and high-voltage connectors?

A:​ Yes. Our power metal stamping and CNC machining capabilities allow us to produce custom busbars with cross-sections up to 100x10mm. We ensure excellent electrical conductivity and precise fitting for high-voltage battery packs and charging modules.

Q: Do you provide components for wind turbine or solar energy systems?

A:​ We manufacture precision-machined components for renewable energy, including wind turbine pitch system gears, hydraulic fittings, solar panel mounting brackets, and inverter heat sinks. We focus on high fatigue resistance and corrosion resistance.

Q: What is the IP rating standard for your waterproof enclosures for power equipment?

A:​ We design and manufacture waterproof enclosures for BMS (Battery Management Systems) and charging piles. Through precise CNC machining, proper O-ring groove design, and rigorous assembly testing, we guarantee an IP67 or IP68​ protection rating against dust and water ingress.

Q: Can you produce lightweight structural parts for hydrogen fuel cell stacks?

A:​ Yes. We use high-strength Aluminum alloys and Titanium to manufacture lightweight bipolar plates and end plates for hydrogen fuel cells. We ensure high dimensional accuracy and excellent corrosion resistance in acidic or alkaline environments.

 

 

8. Ocean Engineering 

Q: What materials are used for marine hardware and underwater equipment?

A:​ For marine environments, we primarily use 316L / 2205 / 2507 Duplex Stainless Steel, Nickel-Aluminum Bronze (NAB), Titanium (Grades 1 & 2), and UHMWPE (Ultra-High Molecular Weight Polyethylene). These materials offer exceptional resistance to saltwater corrosion.

Q: Can you manufacture deep-sea submersible connectors and pressure vessels?

A:​ Yes. We have extensive experience in machining high-integrity connectors, cable seals, and pressure-resistant housings for ROVs (Remotely Operated Vehicles) and underwater sensors. Parts are rigorously tested to withstand extreme hydrostatic pressures.

Q: Do you provide sacrificial anode components for corrosion protection?

A:​ We produce high-purity Zinc, Aluminum, and Magnesium alloy anodes. These sacrificial anodes are used to protect ship hulls, offshore platforms, and underwater pipelines from galvanic corrosion by corroding preferentially to the protected metal.

Q: Can you achieve NAVSEA or military-spec standards for naval components?

A:​ Our facility is capable of meeting stringent naval and military specifications (such as NAVSEA and MIL-SPEC). We perform salt spray testing (ASTM B117) for hundreds of hours to validate the long-term durability of marine parts in harsh ocean conditions.

Q: What anti-fouling or sealing solutions do you offer for marine applications?

A:​ While we do not apply anti-fouling paints directly, we precision-machine components that integrate with them, such as propeller shafts and intake gratings. Additionally, we offer high-performance rubber sealing gaskets (like EPDM and Viton) to prevent water leakage in marine vessels.