Remote
Work location
3D print a micro-diffuser nozzle Anyone
About the job
Ecco la traduzione in inglese, ottimizzata per chiarezza tecnica e comunicazione con designer CAD o stampatori 3D:
---
**Good morning,**
I would like to 3D print a micro-diffuser nozzle designed to whip liquid cream using compressed air, compatible with a 500 ml Isi siphon. The design is optimized to generate internal turbulence and mixing, with the goal of producing a stable, well-aerated foam—equal to or better than that obtained with N₂O.
**Technical specifications:**
- Total length: 58.5 mm
- Outer diameter: 21 mm
- Thread: compatible with Isi (M18x1.5 or similar)
- Mixing chamber: 12 mm height, 10 mm diameter
- Micro-channels: 8 channels, 0.25 mm diameter, angled at 55°
- Internal turbulators within the chamber
- Final outlet: fan-shaped slit, 2.5 mm wide
**Required material:**
- PETG, Nylon PA12, or food-grade resin (SLA/DLP)
- Minimum resolution: 0.1 mm
- Recommended nozzle size: 0.2 mm for micro-channel fidelity
**Additional notes:**
- A technical drawing is available showing air and cream flow paths, internal geometry, and dimensions.
- It is essential that the micro-channels are printable and remain unobstructed after post-processing.
---
**Good morning,**
I would like to 3D print a micro-diffuser nozzle designed to whip liquid cream using compressed air, compatible with a 500 ml Isi siphon. The design is optimized to generate internal turbulence and mixing, with the goal of producing a stable, well-aerated foam—equal to or better than that obtained with N₂O.
**Technical specifications:**
- Total length: 58.5 mm
- Outer diameter: 21 mm
- Thread: compatible with Isi (M18x1.5 or similar)
- Mixing chamber: 12 mm height, 10 mm diameter
- Micro-channels: 8 channels, 0.25 mm diameter, angled at 55°
- Internal turbulators within the chamber
- Final outlet: fan-shaped slit, 2.5 mm wide
**Required material:**
- PETG, Nylon PA12, or food-grade resin (SLA/DLP)
- Minimum resolution: 0.1 mm
- Recommended nozzle size: 0.2 mm for micro-channel fidelity
**Additional notes:**
- A technical drawing is available showing air and cream flow paths, internal geometry, and dimensions.
- It is essential that the micro-channels are printable and remain unobstructed after post-processing.
Ecco la traduzione in inglese, ottimizzata per chiarezza tecnica e comunicazione con designer CAD o stampatori 3D:
---
**Good morning,**
I would like to 3D print a micro-diffuser nozzle designed to whip liquid cream using compressed air, compatible with a 500 ml Isi siphon. The design is optimized to generate internal turbulence and mixing, with the goal of producing a stable, well-aerated foam—equal to or better than that obtained with N₂O.
**Technical specifications:**
- Total length: 58.5 mm
- Outer diameter: 21 mm
- Thread: compatible with Isi (M18x1.5 or similar)
- Mixing chamber: 12 mm height, 10 mm diameter
- Micro-channels: 8 channels, 0.25 mm diameter, angled at 55°
- Internal turbulators within the chamber
- Final outlet: fan-shaped slit, 2.5 mm wide
**Required material:**
- PETG, Nylon PA12, or food-grade resin (SLA/DLP)
- Minimum resolution: 0.1 mm
- Recommended nozzle size: 0.2 mm for micro-channel fidelity
**Additional notes:**
- A technical drawing is available showing air and cream flow paths, internal geometry, and dimensions.
- It is essential that the micro-channels are printable and remain unobstructed after post-processing.
---
**Good morning,**
I would like to 3D print a micro-diffuser nozzle designed to whip liquid cream using compressed air, compatible with a 500 ml Isi siphon. The design is optimized to generate internal turbulence and mixing, with the goal of producing a stable, well-aerated foam—equal to or better than that obtained with N₂O.
**Technical specifications:**
- Total length: 58.5 mm
- Outer diameter: 21 mm
- Thread: compatible with Isi (M18x1.5 or similar)
- Mixing chamber: 12 mm height, 10 mm diameter
- Micro-channels: 8 channels, 0.25 mm diameter, angled at 55°
- Internal turbulators within the chamber
- Final outlet: fan-shaped slit, 2.5 mm wide
**Required material:**
- PETG, Nylon PA12, or food-grade resin (SLA/DLP)
- Minimum resolution: 0.1 mm
- Recommended nozzle size: 0.2 mm for micro-channel fidelity
**Additional notes:**
- A technical drawing is available showing air and cream flow paths, internal geometry, and dimensions.
- It is essential that the micro-channels are printable and remain unobstructed after post-processing.
Ecco la traduzione in inglese, ottimizzata per chiarezza tecnica e comunicazione con designer CAD o stampatori 3D:
---
**Good morning,**
I would like to 3D print a micro-diffuser nozzle designed to whip liquid cream using compressed air, compatible with a 500 ml Isi siphon. The design is optimized to generate internal turbulence and mixing, with the goal of producing a stable, well-aerate... read more
---
**Good morning,**
I would like to 3D print a micro-diffuser nozzle designed to whip liquid cream using compressed air, compatible with a 500 ml Isi siphon. The design is optimized to generate internal turbulence and mixing, with the goal of producing a stable, well-aerate... read more
Ecco la traduzione in inglese, ottimizzata per chiarezza tecnica e comunicazione con designer CAD o stampatori 3D:
---
**Good morning,**
I would like to 3D print a micro-diffuser nozzle designed to whip liquid cream using compressed air, compatible with a 500 ml Isi siphon. The design is optimized to generate internal turbulence and mixing, with the goal of producing a stable, well-aerated foam—equal to or better than that obtained with N₂O.
**Technical specifications:**
- Total length: 58.5 mm
- Outer diameter: 21 mm
- Thread: compatible with Isi (M18x1.5 or similar)
- Mixing chamber: 12 mm height, 10 mm diameter
- Micro-channels: 8 channels, 0.25 mm diameter, angled at 55°
- Internal turbulators within the chamber
- Final outlet: fan-shaped slit, 2.5 mm wide
**Required material:**
- PETG, Nylon PA12, or food-grade resin (SLA/DLP)
- Minimum resolution: 0.1 mm
- Recommended nozzle size: 0.2 mm for micro-channel fidelity
**Additional notes:**
- A technical drawing is available showing air and cream flow paths, internal geometry, and dimensions.
- It is essential that the micro-channels are printable and remain unobstructed after post-processing. read less
---
**Good morning,**
I would like to 3D print a micro-diffuser nozzle designed to whip liquid cream using compressed air, compatible with a 500 ml Isi siphon. The design is optimized to generate internal turbulence and mixing, with the goal of producing a stable, well-aerated foam—equal to or better than that obtained with N₂O.
**Technical specifications:**
- Total length: 58.5 mm
- Outer diameter: 21 mm
- Thread: compatible with Isi (M18x1.5 or similar)
- Mixing chamber: 12 mm height, 10 mm diameter
- Micro-channels: 8 channels, 0.25 mm diameter, angled at 55°
- Internal turbulators within the chamber
- Final outlet: fan-shaped slit, 2.5 mm wide
**Required material:**
- PETG, Nylon PA12, or food-grade resin (SLA/DLP)
- Minimum resolution: 0.1 mm
- Recommended nozzle size: 0.2 mm for micro-channel fidelity
**Additional notes:**
- A technical drawing is available showing air and cream flow paths, internal geometry, and dimensions.
- It is essential that the micro-channels are printable and remain unobstructed after post-processing. read less
Things to know
Expert
Skill Level
$10 - $100/hr
Hourly (USD)
Part-time
Job type
Under 1-month
Job duration
Areas of expertise
3D CAD Design
3D Printing
STEP File Creation
Job categories
Rapid Prototyping Services
3D Printing Design
3D Product Rendering and Design
3D Product Modeling
+1 more
About the client
Payment ready
Italy (11:33 pm)
Posted
Active
Job activity
27 Applicants
7 interviews in progress
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