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Medical Housings CNC Machining for Medical Industry

Medical housings are precision-engineered enclosures for sensitive medical electronics, instruments, and diagnostic equipment. At Zintilon, we use advanced multi-axis CNC machining to enclose medical housings for devices, achieving exceptional dimensional accuracy, hermetic sealing, and finishing to ISO 10993 standards, making it reliable for surgical environments.
  • Complex internal geometries for housings and sealing interfaces.
  • Machined to ±0.001 in placing tolerances.
  • Milling, boring, and surface finishing to pre-defined standards.
  • Integration for sequential full production.
  • ISO 13485 compliant medical device fabrication.
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Trusted by 15,000+ businesses

Why Medical Companies
Choose Zintilon

prductivity

Fast Delivery

A professional engineering team that can respond quickly to customer needs and provide one-stop services from design to production in a short period of time to ensure fast delivery.

10x

High Precision

We are equipped with automated equipment and sophisticated measuring tools to achieve high accuracy and consistency, ensuring that every part meets the most stringent quality standards.

world

ISO13485 Certified

As a ISO13485 certified precision manufacturer, our products and services have met the most stringent quality standards in the automotive industry.

From Prototyping to Mass Production

Zintilon provides CNC machining services to hospitals, surgical centers, and medical device manufacturers globally to create protective enclosures for medical devices.

Prototype Medical Housings

Medical housings that are high-precision prototypes, and mirror your final design are available. Verify sealing integrity, assembly fits, and sterilization compatibility for full medical production.

Key Points:

  • Develop designs for rapid precision prototyping.

  • Minimally placed tolerances of ±0.001 in.

  • Evaluate design and material biocompatibility in early stages.

3 Axis CNC Machined Stainless Steel Passivation

EVT – Engineering Validation Test

Using engineering validation, complete series medical housing prototypes to identify all regulatory and operational concerns. This will allow the medical device manufacturing process to transition smoothly into full operational capacity.

Key Points:

  • Check the working functions of the prototype.

  • Design many times in a row, fast.

  • finalize everything to go to production.
Anodized Aluminum 1024x536

DVT – Design Validation Test

Ensure the appropriate design and protective cabinet functions in the specified dimensions and contains adequate protective sealing, utilizing the different design and surface finishing materials. Also, check the design while varying protective case design and surface finish materials.

Key Points:

  • Check design sealing and protective case functions.

  • Protective seal design dimensions and surface finish materials.

  • Check production capabilities and oversize dimensions.
design aluminium

PVT – Production Validation Test

Explore the production scale of the medical housing. Analyze potential technical and design challenges to the production of the housing to ensure the production of the housing is consistent and facilitatively integrated.

Key Points:

  • Check production scale capabilities.

  • Identify and solve design and process challenges and issues.

  • Maintain uniform parts.
Anodized Titanium Fastener

Mass Production

Produce high-grade protective medical housings and deliver them to designated medical clients and healthcare suppliers in the scheduled time.

Key Points:

  • Consistent, high-volume production

  • Precision machining for medical-grade quality

  • Fast turnaround with strict quality control
production

Simplified Sourcing for
the Medical Industry

Our precision manufacturing capabilities are widely used in the medical industry. CNC machining, sheet metal fabrication and other technologies ensure high precision and heat resistance in the application of medical grade materials such as titanium alloy and PEEK.

Explore Other Medical Components

Browse our extensive selection of CNC machined medical parts, engineered to meet the highest quality and hygiene standards. From implant-grade components and instrument handles to housings for imaging systems and lab automation equipment, we deliver precision solutions for the evolving needs of the medical industry.

Medical Device Housings Machining Capabilities

For the Medical Industry, Medical Device Machinists give CNC Machining for Medical Housings. With germ-free certified CNC MACHINING centers and certified for machining along with hermetic sealed integrated patient monitoring waste signal cases, diagnostic equipment enclosures, and portable diagnostic equipment, and housings patient monitoring case with integrated hermetic sealed case. All the parts are designed for packed user ergonomics, sanitized, and visually confirmed for durable sterilization to the case.

We also do CNC milling, boring, and seal groove machining and, in addition, surface finishing for component protective and biocompatible component protection, finishing leak testing and verifying the dimensions. Every medical housing are machined out of aluminum alloys (6061-T6), medical-grade stainless steel (316L), titanium (Ti-6Al-4V), and medical-grade plastics (PEEK, Ultem) which are biocompatible, corrosion resistant, and able to withstand several cycles of sterilization and clinical use.
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Aerospace
Materials & Finishes

Materials
We provide a wide range of materials, including metals, plastics, and composites.
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Finishes
We offer superior surface finishes that enhance part durability and aesthetics for applications requiring smooth or textured surfaces.
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Specialist Industries

you are welcome to emphasize it in the drawings or communicate with the sales.

Aerospace

Source custom aerospace & aviation Parts

Automotive

Automotive custom quality parts

Medical

Custom parts for medical industry

Robotics

Custom CNC Machining Service for Robotics Parts

Automation

Automation custom parts from Zintilon

Consumer Goods

Consumer goods, custom parts by Zintilon

New Energy

Custom parts for new and renewable energy

Semi Conductor

Source custom semi-conductor parts

Materials for Medical Housings Components

Our CNC machine shop offers a wide range of materials for Medical Housings Machining for Medical Industry. With 25+ medical-grade metals, biocompatible plastics, and specialty alloys, we support rapid prototyping and precision enclosure manufacturing with consistent quality and FDA-compliant material standards.

Aluminum

Aluminum Image

High machinability and ductility. Aluminum alloys have good strength-to-weight ratio, high thermal and electrical conductivity, low density and natural corrosion resistance.

Price
$ $ $
Lead Time
< 7 days
Tolerances
Down to ±0.003 mm
Max part size
3000*2200*1100 mm
Min part size
2*2*2 mm
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Stainless steel

Stainless steel Image

Stainless steel alloys have high strength, ductility, wear and corrosion resistance. They can be easily welded, machined and polished. The hardness and the cost of stainless steel is higher than that of aluminum alloy.

Price
$ $ $
Lead Time
< 7 days
Tolerances
Down to ±0.005 mm
Max part size
3000*2200*1100 mm
Min part size
2*2*2 mm
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Steel

Steel Image

Steel is a strong, versatile, and durable alloy of iron and carbon. Steel is strong and durable. High tensile strength, corrosion resistance heat and fire resistance, easily molded and formed. Its applications range from construction materials and structural components to automotive and aerospace components.

Price
$ $ $ $ $
Lead Time
< 10 days
Tolerances
Down to ±0.001 mm (routing)
Max part size
3000*2200*1100 mm
Min part size
2*2*2 mm
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Titanium

Titanium Image

Titanium is an advanced material with excellent corrosion resistance, biocompatibility, and strength-to-weight characteristics. This unique range of properties makes it an ideal choice for many of the engineering challenges faced by the medical, energy, chemical processing, and aerospace industries.

Price
$$$
Lead Time
< 10 days
Tolerances
Down to ±0.005 mm
Max part size
3000*2200*1100 mm
Min part size
2*2*2 mm
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Bronze

Bronze Image

Highly resistant to seawater corrosion. The material’s mechanical properties are inferior to many other machinable metals, making it best for low-stress components produced by CNC machining.

Price
$ $ $ $ $
Lead Time
< 10 days
Tolerances
Down to ±0.005 mm
Max part size
3000*2200*1100 mm
Min part size
2*2*2 mm
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Brass

Brass Image

Brass is mechanically stronger and lower-friction metal properties make CNC machining brass ideal for mechanical applications that also require corrosion resistance such as those encountered in the marine industry.

Price
$$$
Lead Time
< 10 days
Tolerances
Down to ±0.005mm
Max part size
3000*2200*1100 mm
Min part size
2*2*2 mm
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Copper

Copper Image

Few metals have the electric conductivity that copper has when it comes to CNC milling materials. The material’s high corrosion resistance aids in preventing rust, and its thermal conductivity features facilitate CNC machining shaping.

Price
$$$
Lead Time
< 10 days
Tolerances
Down to ±0.005 mm
Max part size
3000*2200*1100 mm
Min part size
2*2*2 mm
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Zinc

Zinc Image

Zinc is a slightly brittle metal at room temperature and has a shiny-greyish appearance when oxidation is removed.

Price
$ $ $ $ $
Lead Time
< 10 days
Tolerances
Down to ±0.005 mm
Max part size
3000*2200*1100 mm
Min part size
2*2*2 mm
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Iron

Iron Image

Iron is an indispensable metal in the industrial sector. Iron is alloyed with a small amount of carbon – steel, which is not easily demagnetized after magnetization and is an excellent hard magnetic material, as well as an important industrial material, and is also used as the main raw material for artificial magnetism.

Price
$ $ $ $ $
Lead Time
< 10 days
Tolerances
Down to ±0.005 mm
Max part size
3000*2200*1100 mm
Min part size
2*2*2 mm
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Magnesium

Magnesium Image

Due to the low mechanical strength of pure magnesium, magnesium alloys are mainly used. Magnesium alloy has low density but high strength and good rigidity. Good toughness and strong shock absorption. Low heat capacity, fast solidification speed, and good die-casting performance.

Price
$ $ $ $
Lead Time
< 7 days
Tolerances
Down to ±0.005 mm
Max part size
3000*2200*1100 mm
Min part size
2*2*2 mm
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FAQs: Medical Housings for Healthcare Applications

Medical housings are precision enclosures, protecting, and housings for the medical devices which are…. sutures, precision enclosures for medical devices, medical diagnostics, and other medical housings, sutures, precision enclosures for medical devices, and medical diagnostics, and other medical housings, sutures, and housing interventional, medical devices, precision enclosures for medical devices, and other medical housings.

Aluminum 6061-T6 is lightweight, easy to machine, strong enough, and corrosion resistant enough for housings for non-implantable devices. For reusable surgical instruments, medical grade stainless steel 316L has proven biocompatibility and corrosion resistance to sterilization chemicals and also has enough structural strength. Biocompatibility for devices that contact tissue and strength for non-implantable devices makes titanium exactly desirable. Strength, electrical insulation, design versatility for ergonomic handheld devices, and compatibility with autoclave sterilization for medical plastics like PEEK and Ultem add to the overall value.

Creating complex three-dimensional enclosures that integrate ergonomic contours and mounting features is also an enabler of multi-axis CNC milling. Precision boring machines control and seal the dimensions of interface and O-ring grooves. Closure threads and mounting interfaces are produced from thread milling. Internal cavity pocket milling and battery compartment pocket milling create electronically compartmented housings. Smooth biocompatible surfaces are created from surface milling. Engraving and laser marking provide model and serial number permanent identification and regulatory marking resistance to sterilizatio

For O-ring compression and hermetic sealing, we reach seal groove dimensions of ± 0.002 inches we achieve thread tolerances of ± 0.003 inches for secure closures, ± 0.005 inches on mounting hole positions for assembly alignment, ± 0.010 inches for overall housing dimensions, and surface flatness of 0.005 inches on mating surfaces we achieve reliable environmental protection and a precise fit of interlocking components.

Yes. We offer flexible manufacturing capabilities including:
Rapid prototyping for design validation
Low-volume production for specialized applications
High-volume production with consistent quality control
Full structural and dimensional verification at every stage

As-is components, all manufacturing takes place under ISO 13485 certified quality management systems specifically for medical devices, ensuring full compliance with FDA regulations for Class I, II, and III devices, European Medical Device Regulation (MDR) requirements, material biocompatibility per ISO 10993, traceability from raw material to final product, and adherence to Good Manufacturing Practices. This ensures patient safety and regulatory compliance.

We provide comprehensive finishing solutions tailored to aerospace requirements:
Anodizing (Type II and Type III)
Passivation for corrosion resistance
Precision polishing for aerodynamic surfaces
Custom protective coatings and thermal barriers

Standard medical housings are completed on a time frame of 10-15 business days. This duration encapsulates the steps for machined housing, surface treatment and quality verification. Complex medicolegal sealed enclosures in contrast are completed on a timeline of 3-4 weeks. Prototype runs for design verification and regulatory testing can be expedited within 7-10 days based on the availability of the material and the finishing requested.

Having a proper dimensioned seal groove allows for the O-ring to seal correctly allowing for a fully IP67 or hermetically sealed enclosure to block electronics from bodily fluids and moisture during sterilization. Right-dimensioned threads ensure closure prevents accidental opening during procedures. Surfaces that are biocompatible, smooth, and with a roughness average below 1.6 microns are easily cleaned and hinder bacterial colonization. The spacing of wall thicknesses and the described encased machinery drop protection to IEC 60601 mandated structural integrity. Assembly and layering guidance tolerances are aimed to reduce defects forming in manufacture. The ability to endure autoclave sterilization cycles: 500+ for reusable devices; and to maintain integrity of appearance, thickness, and dimension stability, along with quality of the material all encapsulates the requirement for repeated sterilization.
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