Water Jet Machines | CA Machine Tools - Metalworking Blog

An Affordable 5 Axis Water Jet

Through dedicated research and development, our waterjet cutting machines are playing an important role in processing metal, steel, titanium, marble, stone, granite, glass, ceramic, plastic and composite materials. With established reputation in quality, service, and unbeatable price, A&V products are enjoyed by our customers worldwide.

In this particular five-axis design, one CNC ultra-high pressure waterjet cutting head contains at least five axis (three linear coordinates and two rotating coordinates) with coordinated processing motion through CNC. Compared to an ordinary waterjet cutting machine, the biggest advantage of a five-axis waterjet design is that the cutting head can rotate in any direction, which can produce a pre-set cut bevel at any angle. According to material type and its thickness, different angle settings can be controlled through computer software, which gives you the ability to have no tapper on your finished cut edge.
five%20axis An Affordable 5 Axis Water Jet
The JETLINE high pressure pump combines all the advantages of KMT Waterjet Systems for waterjet cutting applications. For decades, KMT high-pressure technology has set the standard in this field, offering unrivalled efficiency, high continuous load capability and availability.

The CNC five axis ultra high-pressure water jet cutting machine(KMT intensifier) innovatively adapted the five axis control software in traditional high-pressure water jet control system.

The machine body and supporting table (water tank) have a separate structure. This design eliminates any negative impact to cutting accuracy as a result of any change in the supporting table. This highly stable structure is easy to be locally updated and maintained.

Two Types of Waterjets : Pure Waterjet vs Abrasive Waterjets

The two types of waterjets are the pure waterjet and the abrasive waterjet. Both have unique capabilities proven a benefit to industry.

Pure Waterjet

Pure waterjet is the original water cutting method. The first commercial applications were in the early to mid 1970s, and involved the cutting of corrugated cardboard. The largest uses for pure waterjet cutting are disposable diapers, tissue paper, and automotive interiors. In the cases of tissue paper and disposable diapers the waterjet process creates less moisture on the material than touching or breathing on it. Unplanned down time, common to other cutting processes, cost over $20,000 per hour (US dollar) in some diaper or tissue plants. The waterjet provides the 24 hour per day, 7 day per week, 360 day per year operation required by such applications – maintenance can be scheduled into production.

Pure waterjet attributes:

VERY THIN STREAM (0.004 TO 0.010 INCH IN DIAMETER IS THE COMMON RANGE)

EXTREMELY DETAILED GEOMOETRY

VERY LITLE MATERIAL LOSS DUE TO CUTTING

NON-HEAT CUTTING

CUT VERY THICK

CUT VERY THIN

USUALLY CUTS VERY QUICKLY

ABLE TO CUT SOFT, LIGHT MATERIALS (E.G., FIBERGLASS INSULATION UP TO 24”

THICK)

EXTREMELY LOW CUTTING FORCES

SIMPLE FIXTURING

24 HOUR PER DAY OPERATION

Pure Waterjet Cutting Heads

As you may recall from an earlier section of this document, the basic waterjet process involves water flowing from a pump, through plumbing, and out a cutting head.

In waterjet cutting, the material removal process can be described as a supersonic erosion process. It is not pressure, but stream velocity that tears away microscopic pieces or grains of material. Pressure and velocity are two distinct forms of energy. But how is the pump’s water pressure converted to this other form of energy, water velocity? The answer lies in a tiny jewel. A jewel is affixed to the end of the plumbing tubing. The jewel has a tiny hole in it. The pressurized water passes through this tiny opening changing the pressure to velocity. At approximately

40,000 psi the resulting stream that passes out of the orifice is traveling at Mach 2. And at 60,000 psi the speed is over Mach 3.

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Question: How hot is the water in a Mach 3 waterjet stream?

Answer: The water is warmed as it is accelerated to high speed. Frictional forces and other

factors warm the stream as it exits the orifice. In let water temperature provides the starting point.

Water temperature is then raised 2 to 3 degrees for each 1,000 psi. The quick answer is the

Mach 3 jet is approximately 170 to 180 degrees F.

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Pure waterjet orifice diameter ranges from 0.004 to 0.010 inch for typical cutting. When waterblasting concrete with a nozzle traversing back and forth on a tractor, a single large orifice of up to 1/10th of an inch is often used.

The three common types of orifice materials (sapphire, ruby, diamond) each have their own unique attributes. Sapphire is the most common orifice material used today. It is a man-made, single crystal jewel. It has a fairly good quality stream, and has a life, with good water quality, of approximately 50 to 100 cutting hours. In abrasive waterjet applications the sapphire’s life is ½ that of pure waterjet applications.

Ruby can also be used in abrasive waterjet applications. The stream characteristics are well suited for abrasivejet, but are not well suited for pure waterjet cutting. The cost is approximately the same as the sapphire.

Diamond has considerably longer run life (800 to 2,000 hours) but is 10 to 20 times more costly.

Diamond is especially useful where 24 hour per day operation is required. Diamonds, unlike the other orifice types, can sometimes be ultrasonically cleaned and reused.

Abrasive Waterjets

The abrasive waterjet differs from the pure waterjet in just a few ways. In pure waterjet, the supersonic stream erodes the material. In the abrasive waterjet, the waterjet stream accelerates abrasive particles and those particles, not the water, erode the material. The abrasive waterjet is hundreds, if not thousands of times more powerful than a pure Waterjet. Both the waterjet and the abrasive waterjet have their place. Where the pure waterjet cuts soft materials, the abrasive waterjet cuts hard materials, such as metals, stone, composites and ceramics. Abrasive waterjets using standard parameters can cut materials with hardness up to and slightly beyond aluminum oxide ceramic (often called Alumina, AD 99.9). In the next section we will explore abrasive waterjet attributes and how the abrasive waterjet cutting head works.

Abrasive Waterjet attributes:

EXTREMELY VERSATILE PROCESS

NO HEAT AFFECTED ZONES

NO MECHANICAL STRESSES

EASY TO PROGRAM

THIN STREAM (0.020TO 0.050 INCH IN DIAMETER)

EXTREMELY DETAILED GEOMETRY

THIN MATERIAL CUTTING

10 INCH THICK CUTTING

STACK CUTTING

LITTLE MATERIAL LOSS DUE TO CUTTING

SIMPLE TO FIXTURE

LOW CUTTING FORCES (UNDER 1 LB. WHILE CUTTING)

ONE JET SETUP FOR NEARLY ALL ABRASIVEJET JOBS

EASILY SWITCHED FROM SINGLE TO MULTI-HEAD USE

QUICKLY SWITCH FROM PURE WATERJET TO ABRASVIE WATERJET

REDUCED SECONDARY OPERATIONS

LITTLE OR NO BURR

Abrasive Waterjet Cutting Heads

Within every abrasive waterjet is a pure waterjet. abrasive is added after the pure Waterjet stream is created. Then the abrasive particles are accelerated, like a bullet in a rifle, down the mixing tube.

The abrasive used in abrasive waterjet cutting is hard sand that is specially screened and sized.

The most common abrasive is garnet. Garnet is hard, tough and inexpensive. Like the pink colored sandpaper found at the hardware store, different mesh sizes are used for different jobs.

120 Mesh – produces smooth surface

80 Mesh – most common, general purpose

50 Mesh – cuts a little faster than 80, with slightly rougher surface.

The mixing tube acts like a rifle barrel to accelerate the abrasive particles. They, like the orifice, come in many different sizes and replacement life. Mixing tubes are approximately 3 inches long,

¼ inch in diameter, and have internal diameters ranging from 0.020 to 0.060 inch, with the most common being 0.040 inch.

Although the abrasive waterjet machine typically is considered simple to operate and ‘bullet proof,’ the mixing tube does require operator attention. A major technological advancement in Waterjet was the invention of truly long-life mixing tubes. Unfortunately, the longer life tubes are far more brittle than their predecessors, tungsten carbide tubes. If the cutting head comes in contact with clamps, weights, or the target material the tube may be broken. Broken tubes cannot be repaired. Today’s most advanced systems incorporate collision detection to spare the mixing tube.

The standoff distance between the mixing tube and the target material is typically 0.010 to 0.150 inch. Larger standoff (greater than 0.080 inch) can cause a frosting to appear atop the cut edge of the part. Many Waterjet systems reduce or eliminate this frosting by cutting under water or using other techniques.

The consumable items in an abrasive Waterjet are the water, abrasive, orifice (usually Ruby) and mixing tube. The abrasive and mixing tube are exclusive to the abrasive waterjet. The other consumables are also found in the pure waterjet.

Have you considered 4 axis Water Jet Cutting?

The main benefit of a four-axis cutting head is to compensate taper, and to make the finished edge completely vertical through the fourth axis – a rotational axis. The four-axis cutting head actually has the structure of a five axis, which purposely has one axis under manual control b the angle axis. Together with the original three-axis (X Y Z), we label them as a four-axis cutting head. Since it has the fifth angle axis under manual control, it can also perform cutting with the entire five axis.

four Have you considered 4 axis Water Jet Cutting?

This specially engineered cutting head has performed remarkably in many cutting fields in reducing the processing cost due to increased operating efficiency.

Compared with our five-axis cutting head design, it has a maximum limit of a 4 degree angle with a rotational accuracy of 0.01 degrees.

For taper compensation, the distance between the cutting head and the surface of the work piece must be maintained with high accuracy. The height positioning accuracy of the four-axis is 0.01mm and the cutting accuracy is 0.1mm, which can easily meet various cutting requirements.

In the marble matching process, waterjet cutting with a four-axis cutting head design is simply amazing. When the angle of the cutting head reaches 4 degrees, the finished edge shows tremendous improvement. As can be seen from this picture, there is no gap between the two joined surface. Hence, a secondary polishing procedure is no longer required. Thereby, it increases working efficiency and reduces the production cost.

stone Have you considered 4 axis Water Jet Cutting?

With this improved four-axis dynamic cutting head design, it is no longer a difficult technique in marble matching. It made traditionally complex marble matching an easy job.

The same methodology is also applicable in glass straight-hole drilling. As an example, when piercing holes in glass, it is not necessary to decrease the cutting speed in order to get straight holes. The ideal effect can be achieved without changing cutting speed, and that is highly beneficial!

Novel Use For a Water Jet

Water jets are great for processing metals for food-related uses. But what about food itself? Paprima’s Ultra-High Pressure water jet is a great method for cutting food for several reasons. Water jets are much more hygenic than traditional methods because they don’t involve blades which have been known to transfer bacteria and pathogens onto food products. And this particular water jet uses a continuous stream of drinking water rather than mixing water with an abrasive. The UHP water jet has an opening of about .004″ which is small enough to cut delicate foods producing a clean cut with no bruising.

The nozzle on the UHP moves water at 3 times the speed of sound providing extreme cutting power. The diamond nozzle should be able to last approximately 3 months being used continuously.

APPLE HALF CIMG0998 300x246 Novel Use For a Water Jet — UHP Water Jet cutting apples

Advantages of Waterjets

When fabricating metal products, waterjets offer many advantages over other cutting machines. One benefit is their ability to make precise cuts without heat. When cutting machines expel heat during the cutting process, the chance of altering or damaging the material’s intrinsic properties increases. With waterjets, heat-sensitive materials can be processed without worrying about incidental damage.

Another benefit of waterjets is their capability of cutting complex and intricate designs. The width of the cut can easily be altered by adjusting the type/size of abrasive used as well as the nozzle. This allows the machinist to make very detailed cuts with an accuracy of about 0.13mm.

Advantages of Waterjets

Waterjet cutting complex pattern

Also beneficial is the efficiency of waterjets. They maximize efficiency in a number of ways. Considered a “green” technology”, waterjets do not create any hazardous waste. Additionally, they can save more material than other, less precise cutting methods because they are so precise. This allows them to cut only what is needed, keeping the width to a minimum. They are also efficient because they don’t need much water to operate. And the water used can be recycled with a closed-looped system. The garnet abrasive used is non-toxic and can also be recycled.

Another advantage is the lack of airborne chemicals that are common to other cutting methods. With waterjets, there are no fumes or contaminants from cutting potentially hazardous materials such as fiberglass.

Water Jet: Over Flow to Drain System

Overflow to Drain System

150 Micron Nylon Bag Pre Filter
50 Gallon Stainless Steel Settling Weir with Removal Baffles
Stainless Steel 07A Size 1 Bag Vessel
5 Micron, Size 1, Polyester Felt “ Posi-Seal ” Final Filter
.5” Cast Iron Heavy Duty Sandpiper AOD Pump
Adjustable Air Regulator with Gauge
Pre Plumbed and Mounted on an 18” x 42” Steel Base with Casters

Comparison of major cutting processes:

Waterjet machines — fast speed, able to cut thick material, good accuracy and finishing surface. Cuts virtually anything with no heat affected zone(HAZ). Some burr occurs near cut. Waterjet is widely used as metal cutting machine, glass cutting machine, ceramic tile cutting machine, marble cutting machine, and granite cutting machine. Waterjet cutting machine typically can cut as much as 4″ thick of steel (100mm).

Wire EDM — slow cutting speed, but able to cut very thick material. EDM has very high accuracy and excellent surface finish. No burr, a little HAZ. Only electrically conductive materials can be cut with EDM. Also there must be a way to drill a hole for putting through the wire for cutting.

Laser — good speed and precise cut when cutting thin material. Laser yields little burr, a little HAZ. Laser is suitable to cut non-reflective mild steel. A 6kw laster machine can cut as much as 25mm (1 inch) steel. Laser cutting machine is also very expensive.

Plasma — cuts at high speeds and generates heat that leaves rough edges. Accuracy is not very high with plasma cutting. Plasma cutting Can cut electrically conductive materials, up to 6″ of aluminum. Process yields HAZ. Special gas need to assist the process.

How Does Water Jet Cutting Machine Work

A water jet machine has essentially two components: a high intensity pump that pressurizes water to 40,000 — 90,000 PSI , and a cutting head assembly mounted on a frame that can move along the x-y-z direction over the material being cut. Pressurized water is forced through a tiny nozzle hole to create high energy density stream that can erode and tear the surface of materials to achieve a cutting affect. Pure water ca alone can cut plastics, foam, wood, resilient floor coverings, rubber and similar soft substances. In some cases, water is mixed with a garnet abrasive to cut harder materials such as metals, stone, ceramics, glass and dense composites.

IWM CNC Waterjet Pipe Engraving Machine

The cutting table can rotate the pipe when cutting. The rotation speed is adjustable to suit various cutting speed needs due to different wall thickness and type of the materials. Position of the cutting head is also adjustable to fit different diameters of the pipe. The cutting head can slide along the length of the table to choose desired cutting position. There is an abrasive hopper mounted on the same rail of the cutting head for feeding abrasive to the cutting head. Customer should specify the weight of the pipe when order the machine.

pipe engraving IWM CNC Waterjet Pipe Engraving Machine

Special tracks can be ordered to cut different shapes of holes into the pipe wall instead of cutting off the pipe.

The waterjet pump is 50 hp and when cutting with abrasive, the max thickness of mild steel is 60mm. The pump requires 3 phase electricity power supply of 220V — 480V, 50 or 60 Hz, (specified by the customer). The pressurized water is fed to the cutting head through a high pressure whip tubing.

Tips for Water Jet Cutting Glass

Reduce the risk of chipping by using a low-pressure pierce of approximately 10,000 psi.
Reduce low-pressure piercing time from two minutes to 10-15 seconds (depending on thickness) by cutting a tiny circle rather than leaving the jet fixed on one spot.
120 grit garnet will produce the best edge quality. If speed is your priority and chipping not a concern, use 80 grit garnet
Cut at 75,000 PSI to increase cut speed by 50-75% and improve edge quality.
Support glass on a sheet of 3/16” corrugated PVC rather than directly on the metal slats. This reduces the risk of chipping and fogging.
If your projects require you to frequently raise and lower pressure, install a patented Jet Edge dual pressure valve to save time and prolong waterjet pump component life.
Tempered glass cannot be cut with waterjet.