Dave Goetz, Corporate Application Engineer, Norton | Saint-Gobain Abrasives
This article appears in Modern Machine Shop. Reproduced with permission.
Choosing an appropriate tool and using it correctly can have a positive effect on the grinding process. However, knowing how to select a tool and what solutions are available to dress conventional grinding wheels is very useful.
Production grinding relies on several components working together to achieve desired results. Whether that result is a size, shape, finish, or combination of these, the system works best when all its components are optimized and being used correctly.
The focus is on the abrasive and using the best grinding wheel available, but there is more to the system than just the abrasive wheel. Coolant also has a substantial effect on the grinding operation. However, the most overlooked component of the grinding system is the truing and dressing tool.
Often, a premium abrasive product will be installed at a premium price, and it is then expected to perform optimally while truing and dressing it with the least expensive tool possible. It is akin to putting regular fuel in a high-performance car.
Whether using a rotary device or a stationary tool, in many systems the dressing tool is almost completely forgotten about until a finish, form or geometric issue occurs and an investigation ensues.
Choosing an appropriate tool and using it correctly can have a positive effect on the grinding process. However, knowing how to select a tool and what solutions are available to dress conventional grinding wheels is very useful.
Differentiating Truing and Dressing
Truing and dressing is often thought of as being the same process, with the terms sometimes used interchangeably when discussing the truing and/or dressing procedures. This is likely since, with the exceptions of some resin or metal bonded products in which the wheels are trued offline and then remounted and dressed, the two operations are usually done at the same time.
However, they are two different processes.
Truing operations deal with the form or profile of the grinding wheel. When truing a new abrasive wheel, the grinding face is altered to allow the abrasive product to do what it needs to do. Routine truing during the grinding process corrects the wheel profile and compensates for form loss as the wheel breaks down under regular use. A properly trued wheel will impart the correct profile on the part being ground and ensure the form geometry and dimensioning are to spec and ready for use.
Although the term “dressing” is often used to describe the truing and dressing, dressing operations only restore or alter the condition of the wheel face. Grinding wheels are dressed to restore or change their ability to remove stock or generate a specific finish. If the wheel is being used to remove stock, the grinding face is dressed to expose new and sharp cutting points, allowing the wheel to cut with a higher material removal rate. However, the tradeoff is that the finish may be unfavorable. A wheel dressed in this condition is said to be “open.”
If the wheel is being used to generate a specific finish, the grinding face will be dressed to dull or blunt the cutting points, allowing the wheel to rub more and create the finish necessary. The tradeoff here is that although the finish is good, the stock removal rate will be much lower. A wheel dressed in this condition is said to be “closed.”
It is also important to know how to choose the correct diamond tool for the operation.
Tool Selection Considerations
There are three considerations when selecting the appropriate tool:
- The size, bond and abrasive type of the wheel being used
- The form or profile required on the wheel
- The quality of the diamond in the tool
Abrasive wheels are, in the most basic sense, stones. To generate a form on that stone, or create a specific surface condition on it, a harder stone is needed. Diamonds are used to true and dress grinding wheels since diamonds are the hardest known material.
The first consideration helps determine the required diamond tool size in carats. Whether the tool will be a single diamond or multiple diamond design, knowing the size, bond and abrasive type of the wheel being trued and dressed will help determine how big the diamond needs to be.
Although the diamond tool will be harder than the grinding wheel it will be used on, the abrasive grains will eventually erode the diamond. The amount of diamond wear is a function of the amount of time the diamond is in contact with the wheel, so a larger wheel will need a larger diamond.
The chart below provides the suggested total size of the diamond or diamonds required, whether that is a single diamond or multiple diamonds based on wheel size.
Grinding Wheel Diameter | Recommended Minimum Diamond Carat Size |
---|---|
Up to 8" (203mm) | 1/8 Carat |
9" to 12" (204mm - 304mm) | 1/4 Carat |
13" to 20" (305mm - 508mm) | 1/3 Carat |
21" to 29" (509mm - 736mm) | 1/2 Carat |
30" to 36" (737mm - 914mm) | 3/4 Carat |
37" and Larger (915mm and over) | 1+ Carat |
For Wheel Width ≥ 6" Diamond Size Goes Up One Size |
It is recommended that one size larger diamond should be used if:
- The wheel is wider than 6 inches due to the length of time the diamond is in contact with the wheel.
- The wheel has a resin bond, due to how the bond breaks down or is altered compared with vitrified wheels.
- When the wheel uses a premium abrasive grain like ceramic.
Just as there are several different wheel profiles that can be trued into a wheel face, there are also several different types of stationary tools that can be used to generate or restore them. Knowing which of the available tools are most appropriate or capable will help narrow the options. The second consideration is based on the form or profile required on the wheel.
Related Articles
Technical
Tips for Improved Surface Grinding
Create the most productive surface grinding process with these grinding wheel selection and paramete...
Tips for Improved Surface Grinding
Technical
Abrasive Automation Cell Optimizes Manufacturing
Designed to solve material removal and surface generation problems, the Norton Abrasive Process Solu...
Abrasive Automation Cell Optimizes Manufacturing
Technical
Choosing the Proper Grinding Wheel
Experts with Norton | Saint-Gobain Abrasives discuss the challenges of gear grinding and how advance...
Choosing the Proper Grinding Wheel
Technical
Choosing the Right Abrasive Product for Welding and Metal Fabrication
Need help selecting the right abrasive product? Our tips and selection guide will ensure you're maki...
Choosing the Right Abrasive Product for Welding and Metal Fabrication
Technical
Choosing Diamond Tools
The market is filled with diamond tool options and not every tool is created equally. Four questions...
Choosing Diamond Tools
Technical
Critical Cooling for Gear Grinding Success
In order to provide the necessarylubrication and cooling capacity and achieve partsfree of metallu...
Critical Cooling for Gear Grinding Success
Technical
5 Grinding Considerations for Improving Surface Finish
See how making adjustments to operational parameters, wheel dressing, grit size, coolant delivery, a...
5 Grinding Considerations for Improving Surface Finish
Technical
5 Reasons to Upgrade to Vit-cBN
Learn when to upgrade your cylindrical grinding process and what factors to consider when making the...
5 Reasons to Upgrade to Vit-cBN
Technical
The 7 Factors Used to Determine a Grinding Wheel Specification
When selecting a grinding wheel, there are many types of abrasive grains, a whole range of grit size...
The 7 Factors Used to Determine a Grinding Wheel Specification