Abrasive jet machining — construction, working and uses with PDF

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What is abrasive jet machining?

Abrasive jet machining is also known as AJM is a type of non-traditional manufacturing process which uses abrasive particles mixed with high-pressure gas to machine the workpiece.

The abrasive particles impact the workpiece surface with high velocity, resulting in the erosion of the workpiece material.

Abrasive jet machining is also known as Micro abrasive blasting, Abrasive micro blasting or pencil blasting.

You might also want to read about another non-traditional machining process called the Electric discharge machining. Don’t worry the link would open up in a new tab so that you can continue reading this article.

What is an abrasive material?

Abrasives are hard materials that are used for machining and finishing purposes. The abrasive particles erode the workpiece material with the help of friction, caused by rubbing action between the workpiece and the abrasive particle.

Common applications of abrasive particles include polishing, grinding, honing, drilling, cutting, lapping etc.

Working principle of Abrasive jet machining

The Abrasive jet machining works on the principle that a high-speed stream of gas and abrasive particles when concentrated at a point, results in the machining of the workpiece by erosion.

Construction of Abrasive jet machining process

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The following are the main components of Abrasive jet machining process:

Air compressor

An air compressor is used to produce pressurized gas in the range of 25–130 psi. Inert gases or air or carbon dioxide is usually used for compression which is then passed through the air filter. The flow rate is around 30 litres per second.

The air filter is used to filter out dust particles or any other impurities which may have entered the compressor.

Pressure gauge

A pressure gauge is used to read the exact pressure of the gas flowing. The most commonly used pressure gauge is the bourdon tube pressure gauge.

Control valves

The control valves are used to control the flow of gas or abrasive mixture according to the working conditions.

The abrasive particles are fed to the mixing chamber via the hopper. The average size of the abrasive particle is around 0.025 mm. A regulator is placed below the hopper to control the flow of the abrasive particles into the mixing chamber.

Mixing chamber

The mixing chamber is an airtight chamber wherein the pressurized air is properly mixed with the abrasive particles.

The vibrator is used to properly mix the mixture and prevent settling of the abrasive particles at the bottom.

The nozzle is used to concentrate the abrasive particle and gas mixture at a particular point. It converts the pressure energy of the gas into kinetic energy.

The nozzle is made up of a hard material like tungsten carbide or sapphire to withstand the wear caused by the abrasives. The nozzle’s tip has a cross-section of about 0.05 to 0.2 sq mm.

Working of Abrasive jet machining

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• The compressor compresses the air/inert gas to high pressure.
• This pressurized gas then passes through the air filter, where the air is filtered out.
• The gas enters the mixing chamber through the pipe.
• The pressure gauge and control valve help in regulating the airflow to the mixing chamber.
• Abrasive particles are fed into the mixing chamber via the hopper.
• The pressurized gas and the abrasive particles are thoroughly mixed together in the mixing chamber.
• This high-pressure mixture is then sent to the nozzle via a hose.
• Another pressure gauge is used to measure the pressure of the air-abrasive particle mixture.
• A control valve is present to control the flow rate of the mixture to the nozzle.
• The nozzle converts the high-pressure energy of the mixture into kinetic energy. As a result, the velocity of the mixture increases drastically inside the nozzle (about 150 to 300 m per second).
• This stream of abrasive particles is known as an abrasive jet.
• The standoff distance is usually around 0.25 mm to 20 mm.
• The abrasive jet erodes the workpiece material thus machining the workpiece.
• The high-velocity jet of gas takes away with it the abrasive particles and the eroded workpiece material.
• By regulating the control valve, the metal removal rate, surface finish and various other parameters can be controlled.
• This is how the Abrasive jet machining process works.

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Applications of Abrasive jet machining process

• The abrasive jet machining process is used for operations like drilling, milling, honing, surface finishing etc.
• It is also used for fine drilling operations.
• The abrasive jet machining process is used for carving complex shapes on hard and fragile materials.
• Machining of semiconductor materials can be done using this process.

The following are the applications of Abrasive jet machining process:

Advantages of Abrasive jet machining process

• There is no direct contact between the tool and the workpiece.
• Good surface finish can be obtained.
• No heat damage to the workpiece.
• Hard materials can be easily machined.
• Complex shapes can be produced on the workpiece.
• Low initial cost.

The following are the advantages of Abrasive jet machining process.

Limitations of Abrasive jet machining process

• The metal removal rate is low.
• Abrasive jet machining process cannot be used for machining of soft materials like aluminium.
• Post machining process, cleaning is required as the abrasive particles tend to get embedded in the workpiece.
• Once used abrasive particles, cannot be reused as they get deformed. This increases operating costs.

The following are the limitations of Abrasive jet machining process.

That’s an overview of Abrasive Jet machining. If you like this post or have any suggestions do let us know in the comments we would love to hear from you.

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