Post on 16-Dec-2015
ABRASIVE WATER JET MACHINING
MFET 4210
Topics for Today
1. Basic Principles 2. Hardware 3. Abrasives 4. Parameters 5. Capabilities 6. Advantages 7. Disadvantages
1. Basic Principles
How does it work? High pressure water with abrasive eroding
material Small diameter orifice or “jewel” to focus
energy Erosion of material Jet of abrasive and water
20,000 – 90,000 psi Up to 600 mph
2. Hardware
Intensifier Pump Nozzle Abrasive Delivery System Catcher CNC Control
Hardware
Intensifier Pump Components Hydraulic Pump Pistons Cylinders Check valves Attenuator
Hardware Delivery System
Nozzle Jewel Abrasive inlet Guard Mixing Tube
Hardware Delivery System
Nozzle Jewel
Diameter ranges from .005 - .020”
Usually sapphire, sometimes ruby or diamond
Hardware Delivery System
Nozzle Abrasive Inlet
Feeds from abrasive feed system
Venturi pulls in abrasive
Hardware Delivery System
Nozzle Mixing Tube
Abrasive and water mix evenly
Must be exactly in line Composite carbide
Hardware
Abrasive Delivery System Provide fixed delivery rate Gravity or air fed
Hardware
Catcher Slows jet of water down Reduces noise and dust Catches dust
Hardware CNC Controllers
Traditional control PCs
Cheaper Easier to update to newer and faster software
3. Abrasives
Usage ½ to 2 pounds per minute $0.15 to $0.40 per pound
Types Garnet Olivine
Abrasives
Garnet Most common at 80 mesh Naturally occurring mineral Less dusting Typical to reuse 2 or 3 times
Abrasives
Olivine Cheaper than garnet Softer than garnet
4. Parameters
Pressure Nozzle or jewel diameter Feed or traverse rate Nozzle standoff distance
Parameters
Pressure Ranges from 20-90,000 psi
Less than 60,000 psi most common Higher pressure for harder materials and
thicker cuts Harder on equipment
Parameters
Nozzle Diameter Large range depending on application Jet usually .020-.050”
Horsepower = 0.58*P*Q P = pressure in ksi Q = flow rate in gpm
Parameters
Feed Rate Varies greatly depending on
Type of material Thickness Hardness Quality of cut needed
Parameters
Standoff Usually .010 to 0.200”, up to 1” Higher distance causes frosting
Eliminated by cutting underwater
5. Capabilities
Tolerances Materials Geometries Examples of use
Capabilities
Tolerances +-.004 to +-.008” Vast majority of industry cuts at +-.010” or
more
Capabilities Materials
Cuts basically anything Diamond, some ceramics
6.5” Ti
Capabilities
Geometry Stacking parts 5-axis milling
Capabilities
Geometry Very thin to
very thick cuts Flat sheets of
material
10.25” Tool Steel
6. Avantages
No HAZ Temp may rise to 120 degrees F Catch tank and water absorb heat
Very small kerf .020-.050”
Avantages
Minimal cutting forces 5 pounds max down force Very low side forces Clamping forces are very low
Brittle or fragile work pieces
Avantages
Fast and accurate
Minimal fixturing
Omni-directional
Cuts any type of materials Nonhomogeneous
Avantages
No tools to sharpen, only “tool” is the nozzle
Environmentally friendly Garnet can be dumped in landfill Water can be filtered and reused
7. Disadvantages
Lag Only a factor if finish is important Very similar to cutting torch lag lines
Disadvantages Taper
Parts cut with taper Can be compensated for by software Increases with nozzle wear
Disadvantages
Less accurate than traditional machining Very hard materials not very practical
application Traverse rate is so slow, costs add up
Disadvantages
Can delaminate some materials Fiberglass, some composites Preventable with pilot hole from drill
Cost Setup ranges from $20,000-$300,000
Average machine runs $150,000 Thickness of cut
Price increases dramatically for >2” metal cuts
Disadvantages
Nozzle wear Consumable nozzle wears Causes stray cutting Increases kerf Decreases finish quality
Very loud Reduced if cut underwater
Applications
Machine shops Artists
Stone, glass, marble Aerospace
Titanium, Inconel, composites Rapid prototyping Universities Automotive industry Custom flooring work
Tiles
Summary
Very versatile, powerful technology Growing use and applications Constantly getting better and more
capable
Sources
Nontraditional Machining Processes, E. J. Weller
http://www.jetedge.com http://waterjets.org/ http://www.h2ocut.com/ http://www.universalminerals.com/ http://www.flowcorp.com/