Swiss Machining Service
Discover the precision and excellence of Swiss machining at Ultirapid. We specialize in high-quality manufacturing, ensuring each component meets stringent standards. Our state-of-the-art facilities and skilled technicians deliver superior results with remarkable accuracy. Committed to fast delivery, we provide reliable solutions tailored to your needs. Trust us for unparalleled craftsmanship and efficiency in every project. Your satisfaction is our priority.
- Multi-Axis Machining: Up to 8-axis capability for handling complex geometries seamlessly.
- Tool Capacity: Up to 32 tools available, ensuring efficiency and versatility in machining operations.
- Size and Precision: Supports 8-inch length and 1.25-inch diameter parts with 0.0005 in tolerances.
Fast Delivery
3-5 Days
Low MOQ
Start From MOQ=1
Quality Assurance
ISO 9001:2015
Materials
Offer Wide Range Of Materials
What Is Swiss Machining?
Swiss machining is a highly precise manufacturing technique renowned for its accuracy and efficiency. Utilizing Swiss-style lathes, which feature a sliding headstock and multiple axes, this process allows for the intricate machining of small to medium-sized components. The machines are capable of producing parts with tight tolerances, making them ideal for industries that demand exceptional precision. Swiss machining is commonly used to create high-quality components such as surgical instruments, aerospace fittings, and precision shafts. Its ability to handle complex geometries and deliver consistent results with minimal waste makes Swiss machining a preferred choice for manufacturing detailed and reliable parts across various high-tech industries.
Benefits Of Swiss Machining
Swiss machining excels in producing intricate and smaller parts with high length-to-diameter ratios in a single pass. This advanced technique is particularly effective for components that require exceptional precision and complex geometries. Additionally, Swiss machines are designed for lights-out operations, allowing for continuous, automated production with minimal supervision. This capability significantly reduces manufacturing costs by optimizing efficiency and minimizing labor expenses, making Swiss machining a cost-effective solution for high-precision, high-volume manufacturing needs.
Metal Materials of Swiss Machining
Aluminum
Aluminum is a lightweight, corrosion-resistant metal known for its excellent strength-to-weight ratio and versatility. It is easy to machine and is often used in applications requiring high durability with minimal weight. Commonly found in structural components, aerospace parts, and consumer electronics, aluminum is favored for its workability and resistance to environmental degradation.
Common Applications: Aerospace, automotive, construction, electronics
Usual Type: 6061, 7075, 2024
Stainless Steel
Stainless steel is a group of corrosion-resistant alloys characterized by their strength and durability. It combines iron with chromium and sometimes nickel, making it resistant to rust and staining. This material is often used in environments where hygiene and longevity are critical, such as in medical instruments, kitchen equipment, and industrial applications.
Common Applications: Medical instruments, kitchenware, structural components
Usual Type: 304, 316, 430
Mild Steel
Mild steel, or low-carbon steel, is a popular and cost-effective choice for various manufacturing applications due to its excellent machinability and weldability. It has a relatively low tensile strength compared to other steels but is favored for its ease of use and flexibility. Commonly used in construction, automotive parts, and general manufacturing, mild steel provides a balance between performance and cost.
Common Applications: Construction, automotive, manufacturing
Usual Type: A36, S275, S355
Brass
Brass is an alloy of copper and zinc, known for its machinability, strength, and corrosion resistance. It is often used in applications where both durability and aesthetic appeal are important. Brass components are commonly found in plumbing fixtures, electrical connectors, and decorative items, where its low friction and resistance to corrosion offer significant benefits.
Common Applications: Plumbing fittings, electrical connectors, decorative items
Usual Type: C360, C377, C464
Copper
Copper is a highly conductive metal with excellent thermal and electrical properties. It is used extensively in electrical wiring, heat exchangers, and plumbing systems due to its ability to conduct heat and electricity efficiently. Copper’s corrosion resistance and ductility also make it a versatile material for various industrial and consumer applications.
Common Applications: Electrical wiring, heat exchangers, plumbing
Usual Type: C110, C102, C145
Titanium
Titanium is known for its high strength-to-weight ratio and exceptional corrosion resistance. It is often used in demanding applications where both durability and lightweight properties are essential. Titanium is common in aerospace components, medical implants, and marine environments, where its strength and resistance to extreme conditions provide significant advantages.
Common Applications: Aerospace, medical implants, marine applications
Usual Type: Grade 2, Grade 5, Grade 9
FAQs
CNC machining is a broad term for automated machine tools controlled by computers, while Swiss machining refers to a specific type of CNC lathe designed for high-precision, small-diameter parts with a sliding headstock.
Swiss machining uses a Swiss-style lathe with a sliding headstock to perform precise turning, drilling, and milling on small, complex parts, providing high accuracy and tight tolerances.
Swiss machining is ideal for small, precise parts such as miniature screws, valves, connectors, and medical implants, commonly used in aerospace, medical, automotive, and electronics industries.
Swiss machining can be more expensive compared to standard CNC turning due to its focus on high-precision and complex parts. The advanced technology and intricate setup involved in Swiss machining contribute to higher production costs. While Swiss machining excels in producing small, detailed components with tight tolerances, making it cost-effective for small to medium production runs, standard CNC turning may be more economical for larger volumes of simpler parts. Thus, Swiss machining is generally pricier but offers superior precision and capability for intricate components.
Settle Your Core Parts Now!
Get 3-day standard lead times on simple parts between 10 mm and 200 mm. Upload your part to see if it’s eligible.
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Perform Design Analysis
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Confirm Quote & Production
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Shipping & Delivery
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