Stainless Steel Tool Wrap
5m long x 610mm wide x 0.050mm Stock Rolls available for NEXT DAY delivery in the UK
5m long x 610mm wide x 0.050mm Stock Rolls available for NEXT DAY delivery in the UK
What is Tool Wrap?
Tool Wrap is a Stainless Steel 0.050mm thick foil. It is used for the surface protection of tools, dies and other parts during the hardening process by preventing decarburization (scaling).
Is Tool Wrap available in different materials?
Yes, standard Tool Wrap material is Type 321 Stainless Steel and this material will work in temperatures up to 2000 degrees F (1090 degrees C). We also offer a Type 304 Stainless which goes up to temperatures up to 1850 degrees F (1010 degrees C).
Who and where would Tool Wrap be used?
There are numerous Tool Wrap uses, professionals who might use Tool Wrap would be tool and die makers, mould makers, machinists, and various maintenance personnel, just to name a few.
Below you will find some commonly asked questions. You will find the answers if you click on the pdf document below. Once you have reviewed these questions and still want to ask another question, please contact us at: firstname.lastname@example.org
* Does Tool Wrap come in different thicknesses?
* How is Tool Wrap used?
* Must the Tool Wrap package be air tight throughout the entire heating & hardening process?
* When is venting in the Tool Wrap envelope necessary?
* How much Tool Wrap is necessary?
* How do I cut the Tool Wrap?
* How do I seal the edges?
* Is a special tool to seal the Tool Wrap edges necessary?
* What is the correct process to create a Tool Wrap envelope?
* At what temperature are wrapped pieces treated?
* What temperature does Type 321 Stainless Tool Wrap work at?
* Can Tool Wrap be used to harden tool steels other than air-hardening?
* What is meant by decarburization?
* Is decarburization undesirable?
* After heat treating, should the piece be removed from the Tool Wrap prior to quenching?
* Will any clean up or surface preparation be required after the heat treating process?
* Can the Tool Wrap envelope be reused?
* When should a part be double wrapped in Tool Wrap?
* Why does the Tool Wrap stick to a tool, die or part after heat treating?
* Can small parts be bright hardened?
* Are leather / thermo gloves necessary when using Tool Wrap?
* Is extra hardening / heating time necessary to compensate for the Tool Wrap envelope?
It is used in the heat treating process when a controlled vacuum furnace is not available.
It saves time by allowing the hardening process to
be done on the premises, without time
lost due to parts being sent out for heat treatment. The tool, die or part to be heat treated is placed in an envelope formed by folding a sheet of Tool Wrap in half and carefully sealing the open ends of the envelope. This Tool Wrap envelope locks out the air and imitates the results which could be obtained from a vacuum furnace.
Must the Tool Wrap package be air tight throughout the entire heating & hardening process?
Usually, if the Tool Wrap envelope is not airtight, the heat draws in excess oxygen which causes pitting and scaling on the surface of your part. However, if it is an odd shaped piece, you may need a vent during the pre-heat process. It is also important to note that there is no difference in uniformity of hardness between loosely or tightly wrapped pieces.
When is venting in the Tool Wrap envelope necessary?
A sealed Tool Wrap envelope normally expands and contracts during heating and cooling due to entrapped air. With a particularly large or odd shaped tool, a large amount of entrapped air may strain the foil sufficiently for the tool, die or part to pierce through the Tool Wrap. This usually occurs during the cooling process and, therefore, is not generally a serious problem but can be completely eliminated by a simple vent. A vent can be created by preparing your Tool Wrap envelope the normal way and allow one corner to be open about 6mm (1/4”). Load the envelope into the hot furnace ensuring the ventremains open. The entrapped air will escape through the vent as the envelope heats, thus eliminating strains from pressure build-up during the heating cycle. As soon as the envelope becomes hot, seal the vent corner by folding it over with a pair of tongs. The envelope is then allowed to remain in the furnace until the heating cycle is completed. The venting procedure also reduces strains during cooling resulting from the rapid collapse of an expanded package.
How much Tool Wrap is necessary?
You should cut a piece of Tool Wrap from the roll l
arge enough to cover the complete
tool, die or part twice (top and bottom) with the a
llowance for over lapping by at least 75mm ( 3” ) all around.
How do I cut the Tool Wrap?
The Tool Wrap material can be easily cut with snips or heavy scissors .
How do I seal the edges?
Each open edge of the envelope you created by covering your part on the top and bottom with Tool Wrap should be folded over and creased at least twice. Be sure to expel as much excess air as possible before sealing without damaging the Tool Wrap. Some users prefer using a seam roller tool to ensure a proper, airtight seam.
Is a special tool to seal the Tool Wrap edges necessary?
No, however it is quicker and easier if you use a s
eam roller to flatten and seal the folded edges. Tool Wrap seam rollers also help to ensure an airtight seam.
You should cut a piece of Tool Wrap from the roll large enough to cover the complete
tool, die or part twice (top and bottom) with the allowance for over lapping by at least
75mm ( 3” ) all around the part. The Tool Wrap material can be easily cut with snips or
heavy scissors. Each open edge of the envelope you created by covering your part on
the top and bottom with Tool Wrap should be folded over and creased at least twice. Be
sure to expel as much excess air as possible before sealing without damaging the Tool
Generally, the oven is preheated to a specific temperature. After the part has reached
this temperature, it is held at a high heat (soak time) of a higher specified temperature for
a specified time per your machinist manual. Quenching follows either in oil, water or in air
at room temperature.
The average operating temperature for our Type 321 Stainless Tool Wrap is 1850
degrees F (1010 degrees C), but it can work in temperatures up to 2000 degrees F (1090
degrees C). Overall operating temperature for Tool Wrap is very hard to state specifically
because these temperatures are contingent upon the length of time in the furnace. At
1850 degrees F Tool Wrap can stay in a furnace without degrading for more than four
hours. At 2000 degrees F Tool Wrap can perform successfully up to four hours. Of
course, these are just estimates and users also need to be sure their furnaces are
calibrated correctly. Other elements which can affect operating temperatures and overall
Tool Wrap performance are contaminants within the envelope and improper sealing. So,
there is no direct answer to what temperature our Tool Wrap works at. Before responding
to the operating temperature, the heating times need to be known.
Yes, but oil & water hardening tool steels may show a failure to consistently develop full
and uniform hardness. High-speed tool steels, despite the attainment of uniform
hardness, create problems because the foil tends to fuse to the piece at high
temperature, resulting in an air leak and causes decarburization.
Decarburization is the opposite of carburization. It is the loss of carbon from the surface
of a tool steel as a result of heating at a high temperature in an atmosphere that reacts
Yes, if the depleted of surface carbon the outer surface will not attain the desired
Rockwell and the steel will be left with a soft skin. Tool steel fatigue usually originates in
the decarburizated layer.
Not usually, removing the foil prior to quenching is not only difficult, but may result in
surface scaling and decarburization from exposure to the atmosphere. However, the
insulation effect of the Tool Wrap may sometimes make it necessary to remove it before
quenching in order to obtain more rapid hardening.
Yes and no, a blue or tan surface colour will be evident, attributable to oxidation by
entrapped air. The discoloration is harmless and can easily be removed by buffing, if
desired. However, this light oxide film actually improves performance in many tooling
operations because it helps prevent metal pick-up and aids in holding the die lubricant.
No, for a variety of reasons. The characteristics which makes Type 321 or 304 Stainless
Steel ideally suited for decarburization prevention is the titanium content. The titanium
acts as a catalyst by reacting with any oxygen under the foil before the oxygen can react
with the surface carbon in the tool. After use, the titanium is somewhat depleted, thereby
offering no safeguards for re-use. Also, the foil becomes very brittle after use, preventing
the wrap from forming a tight seal and making it more prone to tears.
Sometimes it is necessary to double wrap the part to ensure that the tool is adequately
protected. At high temperatures Tool Wrap becomes very soft and must be handled very
carefully to avoid damage. Tools, dies and parts with sharp edges may warrant a double
wrap to avoid air exposure from tears. However, a slight increase to the
hardening/heating times may have to be made to compensate for the extra Tool Wrap. It
is strongly recommended that before using this material for the first time on a part, that a
limited amount of experimental work be undertaken to obtain best results.
At higher temperatures the Tool Wrap may adhere or weld to the piece during hardening.
This is usually caused by excessively tight wrapping, uneven support of the work surface
such as a heat treating basket or mesh, or oil or residue left on the metal surface.
Alternatively, if the part is “clean”, loosely wrapped and smooth work support surfaces
are used and this still results in sticking, a liberal dusting of aluminium oxide or
magnesium oxide eliminates this problem. Again, it is strongly recommended that before using this material for the first time that a limited amount of experimental work be
Yes, bright hardened parts can be attained by using Tool Wrap. To obtained maximum
brightness the part must be thoroughly cleaned and free from oil stains before heat
treatment. The piece must be securely sealed in a Tool Wrap envelope with several extra
edge folds to ensure that no air can enter and the parts does not pierce the Tool Wrap. It
is essential, however, that there is a rapid transfer of the envelope from the furnace to the
quenching medium in order to obtain best results. Occasionally, parts may have to be
removed from the Tool Wrap envelope before quenching. The Tool Wrap acts as an
insulator thus making it necessary to remove the Tool Wrap before quenching in order to
obtain more rapid hardening/tempering. This can easily be done by slitting the envelope
and allowing the part to fall into the quench immediately.
Utilize extreme caution when preparing material for use. Leather gloves are
recommended to prevent accidents and reduce the opportunity to be cut. Thermo gloves are recommended when working with heat.
Users may allow two or three extra minutes during the hardening process to compensate
for the heating of the Tool Wrap. Additional time may be necessary for double wrapped
parts. It may also be necessary to increase the temperature by up to 75 degrees to
compensate for the shielding/insulating effect of the Tool Wrap. The exact amount can
only be determined by experimenting with the particular metal being used.