Much attention has been placed on cutting rule height tolerances, degree of bevels, type of edge (ground or shaved) and the abilities of the make-ready artist to achieve the best cut. What should one expect from a steel cutting plate? Is the thickness tolerance of the cutting plate equivalent to today’s steel rule height tolerances? How smooth should the surface be? Under normal conditions, how often should parallelism be checked?
Wait a minute - did someone say artist? In today’s’ world of computer generated this and computer aided that, can there possibly be room for hand/eye/brain type skills anymore?
Certainly!
As we have talked about several times in other articles, the diecutting and the diemaking functions are completely interrelated in everything from information gathering to the materials and skills used to connect them. The cutting rule and the cutting plate are the very last parts to make the connection in the process. If all goes well this last connection is a smooth one and the perfect cut or "burst through" is achieved. In the perfect world, with many materials, the rule and the cutting plate actually never make contact with one another, as the final particles of material are actually pushed apart or burst through. In reality the connection can sometimes be a very aggressive strike.
Over the years, as the industry as a whole has strived to improve upon itself; new methods of manufacture, new materials, improvements in die design, etc.... have been applied to the areas that relate to the question posed. The idea being that if we can improve upon each of the individual, yet related areas, the final process and product will get better.
The areas that apply to this final connection are;
Many of todays best cutting plates are built per the following;
- 1. The initial blank sheet is ground to a rough state that is close to its’ final thickness.
2. The plate is hardened to the desired Rockwell (usually 47-52 RC).
3. The plate is then further finished by hand to its’ close to perfect state (talk about artists!).
4. The plate then goes through its final machine grinding process to create the desired smoothness and final tolerance requirements. The smoothness of the surface is produced in a number of different ways and each manufacturer will claim that their method is best or most cost effective. Everyone’s cutting situation is different and therefore it is hard to say what is smooth enough.
There are companies that produce the entire plate with no hand work at all. Who’s are better and why? may be a great future subject.
Parallelism - What is this anyway? Parallelism is the relationship that the top surface of the plate has with the bottom surface of the plate. The best situation is to have a plate who’s’ surfaces have no deviation from parallel (a parallel plate). An un-parallel plate means that your plates’ overall shape is that of a wedge, or perhaps several wedges. Cutting plate parallelism with a deviation of .0015" (.0381mm) is common. Although we have not been able to develope a hard fast answer for how often parallelism should be checked, the basic principals of process control would dictate that each companys’ maintenance routines will vary and will also be constantly changing as newer and better technologies are applied.
In many cases a soft "under the cutting plate" material help adjust differences in die/cutting plate heights and deviations and take a step towards eliminating the need for press foot printing at all. Expensive on a short term basis, yet one of the cheapest products on the market if looked at from a long term cost standpoint.
All in all, a great subject that goes to the very core of the diecutting process!
Please contact Cut Smart if you would like more information on this subject.
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