Blasting Nozzle

Grit Blasting Nozzle

A Grit Blasting Nozzle life is very hard for one to predict accurately because of the many features such as the vast range of abrasive media being used, their sizes, their different shape, their hardness, varying air pressure coming at the nozzle for grit blasting. The boron carbide nozzle tips bore size and blast nozzle mouth diameter during grit blast hose life, methods of abrasive media cut-off, or machine shut-down. Grit Nozzle size is of varying shapes used to grit blast different patterns on the blasting surface.

When selecting a nozzle for the grit blasting machine, there should be a balance to be kept in mind, and it starts with our air compressor (sandblast nozzle air consumption). Once we understand how the size of our compressor for grit blast nozzle air consumption affects production capabilities, then we will look at tungsten carbide nozzle size.

The Next consideration is the grit blasting nozzle size & shape. Grit blasting nozzle types are mainly two shapes straight bore and venturi nozzle, venturi grit blast nozzle is of multiple sizes and with various different patterns. Lastly, we want to consider the material from which the nozzle is made of. The three main factors in selecting the ideal air blast nozzle for grit blasting bore material are durability, impact resistance, and price.

The more air volume compressed per minute, the higher is the pressure produced at the air blast nozzle. This improvises the production rate in two ways:

• High pressure increases the velocity of abrasive media particles, delivering more kinetic energy upon the surface blasting, imparting a deeper anchor pattern. This allows us to use a finer grade of abrasive media, which produces more impacts per volume on blasting surfaces.
• More air capacity allows us to use a bigger bore of a nozzle for grit-blasting, which lets us put more abrasive material on the target surface.

Grit Blast Nozzle Size

For grit abrasive media blasting, the most commonly-used air blast nozzle orifice sizes range from 3/8″ inner diameter to 3/4″, increasing by increments of 1/16″. An 8mm air blast nozzle is constructed to generate pressure at a 120 CFM air compressor. A 10 mm grit-blasting nozzle is enough to generate an effective blasting pressure at a 210 CFM air compressor.

It’s important to notice that when we double the diameter of the orifice, we quadruple the size of the orifice and the volume of air and abrasive media that can pass through the Blasting Nozzle.

To find our optimally productive grit blasting nozzle, determine what nozzle pressure (PSI) we need to maintain for productive blasting, and grit blast nozzle air consumption or what volume of air our available air compressor can supply per minute (CFM).

Types Of rit Blasting Nozzle :

According to the shape Grit blasting Nozzles are of two basic shapes: straight bore and Venturi, with several different variations of venturi grit blast nozzle.

Straight Bore Blasting Nozzle

As compressed air enters the converging end of a straight bore nozzle it accelerates, accelerating the abrasive media particles suspended in the flow. These grit particles exit the nozzle in a tight stream and produce a narrow, concentrated hotspot pattern upon the impact surface.

Venturi Nozzle

Blast Pattern: 3″ at 18″ distance
Production Rate: 4.5/5

Venturi nozzles have a converging entry and a diverging exit. This shape is designed to produce an effect that greatly accelerates the airflow and media particles.

The Venturi effect is an observation that when an airflow accelerates while passing through construction, there is a corresponding drop in pressure level.

Besides producing a tremendous acceleration, the angled shape nozzle of the diverging end spreads out the flow, producing a large hot spot pattern and a more uniform particle distribution than a standard bore nozzle.

Long Venturi nozzles give up to 40% better production rates and consume less abrasive material compared to straight bore nozzles.

Double Venturi Blasting Nozzle

Blast Pattern: 3″ at 18″ distance
Production Rate: 4/5

A double Venturi nozzle is with an extra-wide exit opening and holes at the diverging end.

According to the Venturi effect, as the velocity of the flow increases, the pressure drops, creating a vacuum between the shockwave and the throat, reducing abrasive material velocity. With a double Venturi type nozzle, atmospheric air is inserted through the holes into the low-pressure area, expanding the airflow to produce a huge hot spot pattern on the blast surface.

Wide Throat Nozzle

Blast Pattern: 3″ @ 18″ dist.
The Rate of Production: 5/5

Wide throat nozzles are a wide throat and an extra-1/4″ wide converging section. When used in coincidence with a hose pipe with matching inside diameter (and with a corresponding air volume increase), the wide throat nozzle can improve productivity level up to 15% over a long Venturi nozzle.

XL Performance

Blast Pattern: 5″ at 48″ distance
The Production Rate: 3/5

These are extra-long nozzles accelerating media particles over a longer distance, achieving higher exit velocities, allowing the blaster to stand further back from the surface being blasted, and producing a larger blast pattern and higher production rates.

Nozzle Material

The third consideration while choosing a nozzle is the material of the lining inside the bore. Materials will remain more resistant to wear, but are more expensive to replace and are prone to cracking under rough handling. There are two basic types of nozzles and their details.

• Tungsten carbide nozzle
• Boron carbide nozzle

Tungsten Carbide Nozzle

Durability: 1/5
Impact Resistance: 5/5
Price: Low

This tungsten carbide nozzle is the least durable of the carbide nozzles, but relatively less costly and resistant to impact. Mostly suitable for blasting with copper slag, glass, and mineral abrasive media.

Boron Carbide Nozzle

Durability: 3/5
Impact Resistance: 1/5
Price: High

Boron carbide nozzle is extremely hard and durable, but brittle in nature. It can give up to ten times the longevity of tungsten carbide.