Guillotine & Trimmer Knives
INLAID CARBON STEEL (REGULAR STEEL)
Manufactured by brazing a hardened, carbon steel alloy strip, HRC* 62-63, to a softer body of steel. This grade of paper knife is suitable for lower production cutting application, cutting smaller lifts of paper where there are less quality issues.
Manufactured and through hardened material of High Carbon High Chrome (12% Chromium), classified as a D-2 steel, HRC* 58-60. Typically used but limited to shorter length 3 knife trimmers knives such as for lower sides and lower front knives and small non production paper cutters. It has good wear characteristics & impact resistance which make it suitable for small trimmers.
INLAID HIGH SPEED STEEL (H.S.S.)
Manufactured by brazing an 18% tungsten alloy hardened strip, HRC*62-63 to a softer body of steel. This grade of paper knife will improve blade life while maintaining a desired cut for a longer production time. Most popular paper cutter manufacturers supply this grade of paper knife with their machines. Inlaid HSS also makes a perfect upgrade over Inlaid Carbon Steel when frequent blade changes (resulting in additional downtime) become too costly.
INLAID TUNGSTEN CARBIDE
Manufactured by brazing a carbide grade hardened strip, MG 28 HRC* 91.1 to a softer body of steel. MG 28 carbide quality of paper knife will improve blade life by as much as ten times more than a carbon steel blade, while maintaining a desired cut quality. MG 28 is suitable for companies with high production cutting applications needing uniform quality cuts and for high speed perfect binding, stitching machines and precise label manufacturers. Our Inlaid MG 28 Tungsten Carbide is the perfect upgrade from Inlaid HSS when frequent blade changes (resulting in additional downtime) become too costly.
HRC – Hardened to Rockwell C scale
There are many variables to consider when determining the proper material grade of steel quality. Many OEM’s of paper guillotine cutters and trimmers have their own standard knife steel quality however, many times the operator may not know what steel quality being used. Although there are likely steel qualities, it is difficult to determine unless we inspect the blade. With this being said, we can guide you in determining the steel quality of your blade.
What material should I be using for my Cutting Application and should I upgrade the steel quality????
There is no short answer to this question but we can give you some guidelines to help that decision. To best determine this you must first know the following paper conditions:
• Paper Grade
• Paper Content (Chemistry: fillers such as clay, Alkaline, etc.)
• Ink Coverage
• Size of Lift
• Number of Cuts per Sheet
• Width of Sheet (should not exceed more than 2/3 of max opening)
• Size Tolerance (from top to bottom of a cut lift)
• Frequent Blade Changes
• Downtime vs. Uptime
If you are experiencing one or more of the following symptoms, the blade needs changing.
• Rough Cut
• Knife sounds as if is pounding through the lift
• Too much DRAW (Paper deviation of size from top sheet to bottom)
• Frequent cutting stick changes
• Frequent lower knife adjustment on 3 knife trimmer
Failure to change the blade can cause damage to the cutter. Most production cutters have shear pins which will break before major damage happens. But it’s cheaper to change the blade vs. losing production to change the shear pin and change the blade.