Customized 3D printer nozzle for medical equipment High temperature resistant stainless steel CNC machining parts
Place of Origin:Fujian, China
Type:Broaching, DRILLING, Etching / Chemical Machining, Laser Machining, Milling, Other Machining Services, Rapid Prototyping, Turning, Wire EDM
Micro Machining or Not:Micro Machining
Model Number:CMP-56
Brand Name:JSD
Product name:Custom 3D printer nozzles
Service:Customized OEM
Material:Stainless Steel
Process:Cnc Machining+deburrs
Application:Industrial Equipment
Surface treatment:Plating
Keyword:CNC Macining Parts
Equipment:CNC Machining Centres
Name:Customized Machined CNC Machining
Item:CNC Precision Machining Part
Description
Bro, these medical 3D printer nozzles are CLOG-PROOF!
We make nozzles that print perfect medical parts, no clogs, no failed prints—check it out!
Our Insane Medical Nozzles
This is our 316L stainless steel nozzle—CNC machined to ±0.005mm tolerance. I’ve used these in medical 3D printing, they never clog even after 100 hours of printing biocompatible materials.
This is our CNC machining process for these nozzles—we use high-pressure coolant to keep the tool from wearing out. I’ve watched our machinists make these, they’re total pros, no sloppy cuts, every nozzle is perfect.
This is our nozzle printing a medical bone model—we tested this with biocompatible PLA, the print is so smooth you can’t even see the layer lines. Perfect for surgical planning models.
Process & Materials (No Boring Jargon)
Bro, making these medical nozzles is no joke—we use top-tier materials and CNC machining to nail every detail. Let’s break it down:
Machining Process
- CNC Milling: We carve these nozzles from solid 316L stainless steel blocks, no casting—so they’re way stronger, no pores that can trap material and cause clogs.
- CNC Drilling: We drill the tiny nozzle opening with a micro drill, no burrs, perfect inner surface—so material flows smoothly, no jams.
- Passivation: We treat every nozzle with nitric acid to form a protective oxide layer—so they’re corrosion-resistant, easy to sterilize, perfect for medical environments.
Materials We Use
- 316L Stainless Steel: Medical-grade, super corrosion-resistant, biocompatible—we use this because it’s safe for medical use, no leaching, no rust even after repeated sterilization.
- 17-4PH Stainless Steel: For high-temperature printing, can handle up to 500°C—perfect for printing high-temperature medical materials like PEEK.
We Don’t Cut Corners On Standards
Yo, these aren’t just random rules—they’re what keeps your medical prints safe, no sketchy parts here. We follow:
- ISO 13485: Medical device quality management, we track every nozzle from raw material to finish—so we know exactly where every part came from, no mystery parts.
- ASTM F3604: Additive manufacturing process validation for medical devices, every nozzle passes these strict tests—no nozzles that don’t work or fail mid-print.
- ISO 10993: Biocompatibility testing, our nozzles are safe for contact with medical materials, no harmful chemicals leaching into your prints.
- FDA Guidelines: We follow FDA’s additive manufacturing guidelines for medical devices, so you know these nozzles are safe for medical use.
Test Stats (For Reference Only, Okay?)
Check out these numbers we got from our tests—don’t quote us on exact numbers, but this gives you an idea how good these nozzles are:
316L Nozzle Performance
- Nozzle diameter tolerance: ±0.005mm
- Shear stress: <10 kPa (great for cell viability)
- Cell viability: >90% when printing bioprinters
High-Temp Nozzle Performance
- Max temperature: 500°C
- Print time for 10cm bone model: 2 hours 15 mins
- Clog rate: 0% after 100 hours of printing
Sterilization Test
- Autoclave cycles: 100+ cycles no corrosion
- Chemical sterilization: No damage after 50 cycles
- Surface roughness: Ra 0.2μm after sterilization
*These are test results, actual performance may vary based on printing conditions—just fyi!
Hit Us Up RIGHT NOW!
Get a free custom quote, we’ll also send you a free sterilization test report if you order 10+ nozzles. No strings attached!
