The above image shows the first mounted stamp I made up with my laser cutter, which was created as a stand in for
First off, you'll need access to a laser cutter that supports raster etching. Almost all commercially available laser cutters will support this, and most will support a special stamp mode. I'll be covering how to do stamps with Epilog Laser drivers, but Universal Laser and GCC laser cutter (I've seen them sold under the LaserPro and Pinnacle brand names) drivers also have stamp modes, I'm just not familiar with how they implement their stamp modes. Unfortunately laser setups that have to be driven directly by G-code like the Lasersaur and some of the A4 size laser cutters out there probably won't be able to make stamps with the methods I'm outlining here.
First off, you'll need a few supplies. First and foremost is laserable rubber, which is specifically designed with laser based stamp production in mind. It's available from a number of sources online and comes in a couple varieties , one of which is low odor rubber which is what I've been using. Next you'll need the other components of the specific type of stamp you'll be making, called the mount. If you just want a simple, easy to mount and use stamp, you'll probably want to pick up a self inking stamp. These come in several sizes, are pre-inked in most cases, and simply have an adhesive strip you place your cut out engraved rubber on and you're done. Most also have an indexing strip you can stamp and insert after mounting your rubber. Here's an example I made up:
The second option for mounting stamps are "artistic" stamp mounts, like the kind used for crafts that you find at local hobby stores. These consist of a wood block (or an acrylic block), a foam rubber cushion that forms a bond between the block and the rubber (or some foam rubber with a sticky coating or simply a sticky film if you're using an acrylic block), and the rubber stamp itself. If you've got some wood scraps or acrylic to use, all you really need is some cushion, making this style the cheapest stamp mount you can make. It also gives you the most freedom since you can make them almost any size or shape and the results can still look very professional. Hand stamps are similar in construction to wood block artistic stamps but have a handle and often an index strip on the side, or you could just print the mount if you have or know someone with a 3D printer using
I coated one with polyurethane because I planned on etching it with the laser later and the polyurethane coating protects the wood from the byproducts of the etching without masking. Here's a small scrap of cushion as well:
The cushion has adhesive coating on both sides and is used to mount the stamp to the block and distribute pressure when stamping. I picked up all my sample stamp supplies from
Now you'll need some artwork. Ideally you'll want a nice crisp high resolution black and white raster image or some vector artwork to work with. The easiest way to get a nice crisp black and white image from raster artwork that's well defined (already high contrast) but a little blurry around the edges and/or not quite black and white is to:
- Desaturate the image (either by converting its color space to grayscale or using the desaturate operation in your image editor of choice) to remove color.
- Adjust the brightness/contrast of the image and turn the contrast all the way up. This will eliminate any intermediate shades and leave you with just a black and white image. You may need to adjust the brightness to get the desired effect.
Gimp can handle both of these operations easily. Here's a quick example showing what I did to clean up the original artwork for this stamp and how adjusting the brightness effects the final output:
When done, remember to save in a non-lossy format like PNG of GIF to prevent the re-introduction of compression artifacts.
If your raster artwork is too low resolution you can try the bitmap tracing operations in your favorite vector graphics suite (both Inkscape and CorelDRAW have this functionality) and clean up the results a bit manually. There are plenty of resources online if you need additional help cleaning up or creating artwork.
Once you've got artwork and your supplies you'll need to follow the recommendations of your particular laser manufacturer to set up your artwork and configure the laser. You can find Epilog's tutorial
On my 35 watt Epilog Mini-18 I used raster settings of 10% speed and 100% power for the CCCKC stamp. Under advanced options, select "Stamp" for raster type, and I checked the mirror option under the stamp settings because I didn't mirror my artwork beforehand (see above pic). I stuck with the recommended settings for the shoulder and widening options.
The driver is doing a few interesting things for you in the background:
- Creating a negative of the raster image within the defined vector outline (which is why it's important to define one even if you're just going to cut it out manually)
- Flipping the image horizontally (if you checked the mirror option)
- Expanding the area that will be raised 0n the final stamp based on your widening selection
- Ramping up and down laser power at the edges of the raised sections based on the shoulder profile you selected
All these operations can be easily done in photo editing software if you're laser cutter supports raster mode but doesn't have a stamp mode for some reason, but I've yet to encounter a cutter where this is the case.
Once the raster etching is done, take a look at the result but don't touch anything yet. If you feel the etching is too light, just tweak the settings and run the job again. The second pass will etch even deeper into the material, but will only work if you haven't moved the stamp material around. The stamp will be coated in dust that you'll have to clean up later before placing your stamp (and you'll likely want to clean up the laser cutter a bit too after making some stamps).
Once you've reached a depth you find appropriate you'll need to cut out the stamp. You can simply do this manually or do a vector cut with the laser. This was my first stamp, so I opted to cut it out by hand and play with vector cutting settings later. Recommended settings for vector cutting imply that you don't want to cut it at full power (this may indicate that higher power settings char the material). With my 35 Watt Epilog, a speed setting of 5%, power setting of 20%, and a frequency setting of 500Hz cut about 2/3 of the way through the sheet after a single pass of raster etching but cut all the way through after I did 2 raster passes on later stamps. Higher power settings cut a bit deeper but did induce a little charring, so it looks like I'll have to try a few more settings combinations to dial it in. Here's the CCCKC stamp before cutting it out from the sheet:
Once you've cut out the rubber you need to cut out the cushion. I just used an X-Acto knife but it cuts easily with scissors as well. The description on the cushion order page indicated that PVC was used in the cushion that I ordered, so it would be a bad idea to cut on the laser because of its chlorine content. There are a number of other options for cushion, but it's likely that they have similarly incompatible chemistry (the acrylic stamp mounting films I looked at seemed to contain vinyl, which is another no-no). Since you won't likely be cutting the cushion out on the laser, you'll probably want to cut the stamp and cushion out at the same time (you may even want to adhere the stamp to the cushion before you start cutting).
All you have to do now is mark your block and assemble it. I engraved the stamp into the wood block rather than making a sticker (as most commercial stamps I've see do) or stamping the top, which is kinda difficult to do at that point. Here's a pick of the stamp totally assembled after stamping:
Next time around I think I'll make the etching of the stamp and the block a bit deeper, but the results of my first stamp making attempt seem to be pretty functional. Maybe I'll experiment with some acrylic mounts next...
Tags: CCCKC, laser, Laser Cutter, laser engrave