Choosing the right equipment and consumables to grind a fine finish on stainless steel can get the job done faster with less operator fatigue.

Fine grinding, by definition, is the blending of the weldment to the surface of the metal for a smooth, consistent, and attractive appearance. When working on stainless steel grades, whether for appliances, structural parts, sheetmetal housings that are visible on the finished product without being painted or coated, or architectural adornments, choosing the right equipment and consumables for each step of the process will help you produce the desired result.

Here are some typical applications and tips on how today’s handheld grinding equipment and consumables can affect a better outcome in your shop or production department.

Blending Welded Connections on Railings

Blending welded surfaces on corners, squares, and rounds is the key to producing attractive welded connections on railings. Use 40, 60, or 80 grain belts in a belt grinder to grind down the weld. Then use a coarse, medium, fine, or ultrafine conditioning belt to blend the surface. For flat surfaces, use an elastic drum and nonwoven nylon flat brush. For pipes and tubes use a tube polishing wrap. Grain sizes to 320 will produce the desired results even on extremely small radii.

The proper use of the regulated speed on the grinder will help you achieve the optimal finish, so choose tools with speed regulators. An adjustable belt grinder arm on the tool will make the tool easier to use, lessen operator fatigue, and yield better results.

Prepping and Finishing on Pressure Vessels

For a typical No. 4 finish with RA 15-25 on a pressure vessel, use a 40- to 320-grain belt grind and finish with a flap brush. A satin finish can be achieved by using a nylon flap brush followed by polishing with a buffing wheel and a cutting/polishing compound.

Many popular tools offer quick-change tooling systems to reduce downtime and many are portable. Operator fatigue is reduced when the portable tools have detachable handpieces so the weight of the entire drive unit doesn’t need to be carried. Some models are available for working in very confined and hard-to-reach places.

Look for dust-sealed units with low noise levels and vibration-free operation. Air-cooled induction motors provide long service life and minimum wear.

Grinding Work on Commercial Foodservice Grills

Reducing surface weld beads is a key challenge when working on commercial grade foodservice grills. Start by rough grinding with a pneumatic grinder with 36 to 80 grit discs. Finish grind with a pneumatic drum with a 40 to 220 grit abrasive belt.

Then work all surfaces with an extended pneumatic straight grinder and 60 to 240 grit fiber brushes. Finishing discs of synthetic fiber, grit, and resin will eliminate welding discoloration.

Polishing Stainless Steel Tubes to a Mirror Finish

To polish a stainless steel tube to a mirror finish, begin by preparing the surface with a belt grinder using a, 80 to 120 grit zirconia belt. Then switch to a surface conditioning belt for medium to ultrafine finishes. Use a pre-polish wheel and polishing compound.

Polish with a polishing wheel and polishing compound then complete the mirror finish using a buffing wheel and a polishing paste.

Grinding Weld and Miter Joints on Structural Steels

Remove the weld beads from structural steel miter joints using 60 to 150 grit zirconium fiber discs. Then use a drum sander with a 40 to 220 grit zirconium blend belt. Cover with a template.

Use a surface conditioning belt for a fine finish. For a satin finish, use a 100 to 200 grit fine flap brush.

Graining of Stainless Steel Welds

Begin the graining process on a stainless steel weld with a pregrind using a pneumatic right-angle grinder with a plastic support plate with a cooling effect and an 80 grit fiber disc. Finish with a pneumatic drum using a straight grinder.

Grain the surface using a right-angle grinder with nonwoven, medium, or high hardness finishing discs. Grind the weld bead with a 120-grit grinding belt and a 40 to 320 grit finishing belt.

Eliminating the Orange Peel Effect

To smooth the orange peel effect begin with a rough prep using a 40 grain belt. Then fine grind with a soft contact roller and A160 Trizact™ belt. Satin finish with a soft contact roller and medium surface conditioning belt.

Achieve an industrial-grade finish by using a flap brush and 220 grain abrasive pad.

Grinding Inside Corners on Stainless

To finish the inside corners of a stainless steel component begin by smoothing the weld with an electric angle grinder with an 80 grain mini flap wheel. Then fine surface grind using an electric angle grinder and soft disc–between an A160 and A16 grain–with a Trizact grinding wheel.

Use an electric file and between a 60 and 400 grain range nonwoven pads to define the surface grain.

Grinding and Polishing Extruder Feeds

Start with a preliminary grind on an extruder feed shaft using a belt grinder and between a 40 and 80 grain zirconium corundum belt to grind and polish extruder feeds. Work the flanks with 80 to 120 grain Velcro® fiber wheels. Fine grind the shaft and flanks with a roll attachment. Polish with twisted polishing rings and polishing paste, especially when working with stainless.

The guidelines here provide a starting point to plan your finishing jobs but most tool and abrasive suppliers are ready to offer suggestions for everyday or particularly challenging applications. If you have questions, take advantage of their experience.

 

 

 

Original Source: https://industrialmachinerydigest.com