From rapid prototypes to high-volume production runs, XCD's die casting services have you covered. We work with aluminum, zinc, and magnesium, and handle everything from tooling to finishing.
Our network of certified die casters runs 60+ machines, supporting intricate geometries and tight timelines. Services include die cast tooling, machining, and a range of finishes.
XCD is a certified die casting manufacturer equipped with 60+ advanced die casting machines, serving global customers across automotive, industrial, robotics, and electronics industries. Our factory integrates die casting tooling, high pressure die casting production, CNC machining, and finishing under one coordinated system.
| Tolerance | High-precision die casted parts need secondary machining to meet tolerance requirements, achieving accuracy up to ±0.01mm |
| Minimum Wall Thickness | Aluminum alloy recommended 1.5mm, zinc alloy can go down to 0.8mm |
| Wall Thickness Ratio | Keep within 1:3 ratio to avoid uneven filling |
| Hole Diameter | Round holes smaller than 3mm diameter require secondary drilling. Threaded holes and external threads formed through secondary machining |
| Draft Angle | Minimum 0.5° to avoid demolding difficulties |
| Maximum Die Life | Zinc: 1,000,000 cycles | Magnesium, Aluminum: 100,000 cycles |
| MOQs | 500-1000 pieces |
| Lead Time | 20-25 days. Specific timing varies based on mold type and product structure complexity |
To support a wide range of project needs, XCD provides three types of die casting services, suited for different materials and design complexities.
Cold chamber die casting melts metal in a separate furnace before casting. The molten metal is poured into a cold chamber, where a piston pushes it into the die under high pressure. This process handles high melting point metals like aluminum. The separation prevents contamination and extends die life.
Applications: Car engine parts, aircraft components, and electronic housings where strength and precision matter.
Hot chamber, or gooseneck casting, connects the melting furnace directly to the casting machine. A piston pulls molten metal from the furnace and injects it straight into the die. This creates faster cycle times and reduces waste since the metal stays hot throughout the process.
Applications: Low melting point metals like zinc, magnesium alloys — toys, hardware, decorative items, and small mechanical parts.
Semi-solid die casting uses metal in a paste-like state between liquid and solid. The metal is heated to this semi-solid condition, then slowly pushed into the mold with less turbulence than liquid metal. This process reduces porosity and creates stronger parts with better surface finish.
Applications: Aluminum and magnesium alloys for automotive parts, aerospace components, and applications that need high strength and quality.
Die cast tooling uses hardened steel to withstand high temperatures and pressure. For die castings, non-ferrous metals are preferred for their fluidity and low melting points.
Strong at high heat. Tough and crack-resistant. Stays hard when hot. Good for aluminum and magnesium casting.
Handles heat changes well. Tougher than H13 steel. Conducts heat better and lasts longer. Good for heavy-duty casting work.
Strong at high heat. Resists cracking from heat cycles. Easy to machine and polish. European steel grade for detailed parts.
We use ADC12, A380, and more for high-performance aluminum casting parts: ADC10, A380, ADC12, Pure Aluminum, DM6, HA6, HA4, 6063.
High strength, good machinability, and EMI shielding. Often used in electronics, automotive components, and handheld device housings. AZ91D, AM60B, AM50A.
Flows well in molds and holds tight tolerances. A good choice for small, detailed parts. ZAMAK2, ZAMAK3, ZAMAK5.
Basic, functional finish with relatively smooth surfaces and minor tool marks, suitable for non-cosmetic applications.
Improves corrosion and wear resistance of aluminum cast parts, with color options that enhance durability and appearance.
Commonly used for aluminum and zinc die casted parts, improves corrosion resistance and prepares surface for painting.
Adds color and improves appearance while offering additional protection against corrosion and wear.
Abrasive blasting that removes surface impurities and gives a uniform, matte texture. Improves paint adhesion.
Die casting are widely used to manufacture structural and functional metal components that require dimensional stability, strength, and repeatability.
Precision housings and device enclosures requiring dimensional stability and clean surface finish.
Engine housings, transmission cases, motor brackets, and structural supports requiring high strength.
Precision brackets, gearbox housings, actuator components, and load-bearing structural parts.
Aluminum enclosures, LED heat sinks, internal frames, and protective housings for compact electronic devices.
At XCD, quality drives every step — from the tools we use to the standards we uphold. Our ISO 9001, ISO 14001, and IATF 16949 certifications guarantee consistent excellence.
We use professional testing equipment for precise measurement and verification. Spectrometers analyze metal composition, coordinate measuring machines inspect complex 3D shapes, 2.5D instruments verify detailed features, and height gauges handle basic dimensions.
Parts go through four main tests: material analysis, durability testing, corrosion testing, and functional testing. These check your parts meet composition specs, handle tough conditions, resist environmental damage, and seal properly when needed.
Over 90% of parts pass first article inspection. And if there's ever a quality issue, we'll remake it for free. Every part gets checked before it leaves our facility.
Get your quote today and experience the difference.
We reduce your die casting costs through expert mold design and free DFM analysis, ensuring the most efficient material usage.
Leveraging our in-house facilities and certified factory network, we deliver die casting samples in as little as 1 day with real-time project tracking.
ISO 9001:2015 certified. Strict quality checks at every step. We inspect parts pre-production, in-production, first article inspection, and pre-delivery. Tight tolerances down to ±0.01mm.
Die casting is a high-precision metal casting process where molten metal is injected into a mold cavity under high pressure. It's widely used to create complex metal parts with tight dimensional accuracy and smooth surfaces, especially in high-volume production.
The die casting process uses hardened steel dies cut by CNC machines. Molds can be single or multi-cavity, depending on production needs. Non-ferrous metals then get melted in furnaces, and machines push them into a ladle.
Based on what metal you're using, die casting manufacturers choose hot chamber or cold chamber machines. Semi-solid casting works better for complex parts like transmission cases, engine mounts, and electronic housings. Once cooled, die cast parts are ejected and may need light post-machining.