Structural Steel FAQ

Structural Steel FAQ, Part 8 – Are All Turbines Created Equal?

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Shot blasting machines are widely used for surface preparation and finishing structural steel components for a variety of industries. In addition to specifically designing machines able to accommodate large, heavy, and bulky structural steel workpieces,  Rosler Metal Finishing also expertly designs the turbines within these machines for precise results.

 

 

Blast

turbines accelerate and throw the blast media against the workpieces. They are

for shot blast machines what the engines are for cars and trucks. Both

determine the performance of the respective machine or vehicle including the

speed of a sports car and the torque of a heavy-duty truck.

 

 

Like vehicle engines, the specifications of different turbines directly influence the performance of a shot blasting operation. This installment of our Structural Steel FAQ series will answer How do different blast turbines affect the quality of shot blasting results?

 

Blast Patterns

 

 

Blast

patterns are the size and shape of the area where blast media strikes a

workpiece as it progresses through the machine. The area of impact is also

referred to as a “hot spot.” Long blast patterns are required to accommodate the

large size of structural workpieces.

 

 

Concentrated blast patterns are often used in shot peening, but would not offer enough finishing coverage for structural steel applications. Similarly, the normal blast patterns used for casting and forgings are also not effective for structural steel.

 

 

Throwing Speeds

 

 

Because

of the large workpiece envelope, the travel distance of the blast media between

the turbine and workpieces can be very long. To generate the impact energy

required for blast cleaning of such large components, the acceleration or

throwing speed of the media by the turbine must be considerably higher than in

smaller shot blast machines.

 

 

 

Turbines

with curved throwing blades generate a substantially higher media acceleration than

straight-bladed blast wheels and are the preferred blast turbines for large

structural steel components.

 

 

Gamma 400 G Turbine

 

 

Rosler’s

Gamma® G is an innovative turbine with curved throwing blades. Compared

to straight-bladed, conventional blast wheels, a Gamma® turbine of

the same size and running at the same speed, generate up to 25 percent higher

throwing speeds of the blast media. This improves the overall blast performance

by 15-20 percent.

 

 

 

Other benefits

offered by the Gamma® G turbine include:

 

 

  • Use of both blade sides, reducing maintenance costs and increasing equipment uptimes.
  • Significantly lower energy consumption compared to conventional blast wheels.
  • Quick blast pattern adjustment by changing the impeller position.

 

Turbine Placement

 

 

The

correct placement of the turbines around the blast chamber is another critical consideration

affecting the performance of blast machines for structural steel components.

 

 

 

Their

placement must ensure that complete blast media coverage is achieved on the

workpieces without any “dead” spots where the media does not reach. Please note: In the case of large, complex

weldments, the prevention of dead spots may not be possible. In such cases,

manual touch-up is required. We will address this topic in Part 10 of this

series.

 

 

 

The

turbines opposite from each other must be somewhat offset so that they are not

blasting into each other. This would not only produce poor blast cleaning

results but would also cause extensive, premature wear.

 

 

The turbine placement can be determined by computer simulation and allows for the evaluation of all faces of exposure.

 

The Rosler Way

 

Whatever your structural steel media needs are, you can count on Rosler Metal Finishing to help you find a better way and the best machine. Contact ustoday to discuss your unique challenges.

 

 

The complete Structural Steel Series includes:

 

 

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