I. Understanding the Benefits of an Unfocused Laser

While focusing your laser is essential for most cutting and engraving tasks, there are situations where intentionally defocusing the laser can improve the quality of your work. Here’s why an unfocused laser can be advantageous:

1. Smoother Engraving on Acrylic

One of the most common reasons to defocus your laser is when engraving acrylic. A perfectly focused laser often leaves behind visible engraving lines, which can detract from the smoothness of the design. Slightly defocusing the laser can reduce these lines, resulting in a smoother, more polished finish.

2. Softened Edges on Wood Engravings

In certain cases, especially with wood, a slightly unfocused laser can create softer edges. This can give the project a more rustic, vintage, or handcrafted appearance, which may be desirable for home décor, signage, or personalized gifts.

3. Improved Aesthetic for Certain Materials

Using an unfocused laser allows for greater flexibility in design choices, especially if you’re looking to create a more blurred or artistic effect. This technique can give your projects a unique, customized look.

II. How to Intentionally Defocus Your Laser

Defocusing your laser is a simple process that involves adjusting the focus point to be slightly above the material surface. Here’s how you can achieve this effect, especially for materials like acrylic:

1. For Acrylic Projects: The 2mm Rule

Acrylic is a tricky material that often shows visible engraving lines when the laser is in perfect focus. By entering the material thickness in your software as 2mm thicker than it actually is, you can achieve a subtle defocused effect that reduces the visibility of these lines and creates a smoother surface.

• Example: If your acrylic material is 3mm thick, input 5mm as the material thickness in LightBurn or your laser software. This adjustment will raise the laser head slightly, creating the desired defocus effect for smoother engravings.
• Why It Works: Defocusing by 2mm spreads the laser’s energy across a wider area, which softens the lines and eliminates harsh engraving marks without sacrificing too much detail.

2. For Wood Engraving: Adjust the Material Thickness

Similar to acrylic, you can apply the same principle when engraving wood. By adjusting the material thickness to be slightly more than the actual thickness, you’ll achieve softer edges and a more rustic appearance.

• Example: For a 4mm thick piece of wood, input 6mm as the material thickness in your laser software. This will result in softer, more natural-looking edges for your engravings.

III. Applications Where an Unfocused Laser Works Best

1. Acrylic Engraving for Smoother Finishes

Acrylic engraving benefits greatly from a defocused laser, particularly when fill engraving large areas. The slightly defocused beam reduces the visibility of individual engraving lines, making the overall finish much smoother and more visually appealing.

• How We Do It: In our projects, we consistently run our laser with the material thickness set 2mm higher than it actually is. This simple adjustment has dramatically improved the appearance of acrylic engravings, resulting in cleaner, more professional finishes.

2. Wood Engraving for Softer, More Rustic Edges

When engraving wood, a defocused laser can help create a more rustic or vintage look. This is especially useful for items like custom signs, home décor, or any project where you want a softer, handcrafted appearance.

• Real-World Example: When we engraved wood with a slightly defocused laser, the softer edges added a unique, weathered look that made the piece feel more authentic and artistic.

IV. When to Avoid Using an Unfocused Laser

While there are benefits to using an unfocused laser, there are times when it’s best to stick with a perfectly focused beam:

• Precision Cutting: If you’re cutting materials, an unfocused laser will not be as effective. The beam won’t concentrate enough power to cleanly cut through materials, leading to incomplete or uneven cuts.
• Fine Detail Engraving: For projects that require intricate details or sharp lines, defocusing the laser will result in blurred or less precise engravings. Stick to a focused laser for fine text or delicate designs.

V. Final Tips for Defocusing Your Laser

• Start Small: Begin by adjusting the focus slightly (like the 2mm rule for acrylic) and run a few test engravings before moving on to your final project. This allows you to dial in the perfect defocus without overdoing it.
• Monitor Performance: Defocusing spreads the laser’s energy across a wider area, so you may need to adjust your power settings slightly to maintain the quality of the engraving.
• Test with Different Materials: Not all materials react the same way to a defocused laser. Run tests on wood, acrylic, and other materials to find the optimal level of defocus for each one.

Conclusion

Defocusing your laser can be a powerful tool for achieving smoother engravings on acrylic or creating softer, rustic designs on wood. By simply entering the material thickness as 2mm thicker than it really is, you can easily achieve these effects and elevate the quality of your laser engraving projects. The key is knowing when and how to use this technique to your advantage.

For more on how to properly focus your laser for precise operations, check out our article on How to Focus Your Laser and Why It Matters.

The post Why You Might Want to Use an Unfocused Laser for Certain Operations appeared first on Mountaineer Tradepost.

Why Laser Focus Matters

When your laser is perfectly focused, the laser beam is condensed into a small, precise point. This allows the laser to transfer the maximum amount of power directly into your material, creating cleaner cuts, sharper engravings, and more consistent results. Here’s why focusing your laser is critical:

• Sharper Engravings and Cuts: A focused laser beam results in clean, crisp lines for engraving and more efficient, powerful cutting.
• Power Efficiency: Focused lasers concentrate their energy, meaning your machine works more effectively and efficiently.
• Consistency: Whether you’re engraving text or intricate designs, a properly focused laser ensures your results are consistent across the entire surface.

Common Problems Caused by an Unfocused Laser

An unfocused laser can result in a variety of issues that negatively affect the quality of your work. Here are some common problems you might face:

• Blurry or Inaccurate Engravings: When the laser is out of focus, it spreads the beam across a larger area, resulting in fuzzy, imprecise lines.
• Incomplete or Shallow Cuts: Unfocused lasers struggle to cut through materials, leading to shallow or incomplete cuts that require multiple passes.
• Excessive Burn Marks: Unfocused lasers tend to linger on the material for longer periods, often causing burn marks or charring, especially on wood or acrylic.

How to Focus a Diode Laser in LightBurn

Focusing a diode laser involves fine-tuning the height between the laser head and the material you’re engraving or cutting. Here’s a step-by-step guide to help you get the perfect focus:

Step-by-Step Instructions:

1. Open LightBurn: Start by loading your design into LightBurn and positioning the laser head over the material.
2. Set Initial Focus Distance: Adjust the focus using the focusing knob or the focus ring on the diode laser, bringing the laser head close to the material.
3. Run the Focus Test Pattern: LightBurn offers a built-in focus test feature. Run a quick test to see where the beam produces the sharpest, finest lines.
4. Fine-Tune: Adjust the height of the laser head until the beam spot is as small as possible on the material. A smaller, sharper beam spot will result in crisper cuts and engravings.

Additional Tips:

• Manual Focus Adjustment: Diode lasers often have a focus ring or an adjustment screw for easy manual focus. Keep adjusting until you find the optimal focal point.
• Test Different Heights: Try running test engravings at slightly different heights to ensure your laser is at its most efficient focus.

How to Focus a CO2 Laser in LightBurn

Focusing a CO2 laser is a little different, but just as important. Follow these steps to get the perfect focus:

Step-by-Step Instructions:

1. Position the Material: Place your material on the laser bed, ensuring it’s flat and secure.
2. Use a Focal Gauge: CO2 lasers typically come with a focal gauge or ruler. Use this to set the correct focal distance between the laser head and the material.
3. Adjust the Z-Axis: Many CO2 lasers have a motorized Z-axis table. Adjust the height of the laser head or the bed until the laser reaches the ideal focal distance.
4. Run the Focus Test in LightBurn: Use LightBurn’s focus test feature to verify that the laser is correctly focused. The goal is to get the smallest and sharpest dot or line possible.

Additional Tips:

• Test the Focus with a Ramp Test: If you’re unsure of the exact focal distance, you can run a ramp test by placing a slanted piece of material on the bed and running the laser along it. The sharpest point is where the laser is in perfect focus.
• Spot Tests: Try engraving small dots or lines at different focal distances and compare them to see which one gives the best result.

Advanced Focusing Techniques for Both Diode and CO2 Lasers

Ramp Test:

• A ramp test is one of the most reliable ways to determine the exact focal point of your laser. Place a piece of material at an angle and run the laser along it. The spot where the engraving is thinnest and sharpest is your perfect focal point.

Focus Sticks and Rulers:

• Some lasers come with a focus stick or ruler, which can be used to manually set the distance between the laser head and the material for precise focusing.

Digital Depth Gauges:

• For maximum accuracy, you can use a digital depth gauge to measure the distance from the laser head to the material, ensuring the exact focal distance every time.

Final Tips for Maintaining Laser Focus

• Regularly Clean the Lens: A dirty lens can cause your laser to go out of focus. Make sure you clean the lens regularly to maintain a clear beam.
• Check Focus When Changing Materials: Different material thicknesses require different focal distances, so always adjust the focus when switching materials.
• Keep Consistent Focal Distance: Use tools like focal gauges or depth gauges to maintain a consistent focus for repeat projects.

Conclusion

Focusing your laser is critical for achieving clean, crisp engravings and cuts. Whether you’re using a diode or CO2 laser, taking the time to fine-tune the focus using LightBurn can make all the difference in the quality of your results. By following the steps outlined in this guide, you’ll be able to produce more precise and efficient engravings and cuts.

Interested in how using an out-of-focus laser might benefit your projects? Check out our next article on Why You Might Want to Use an Unfocused Laser for Certain Operations.

The post How to Focus Your Laser: Essential Techniques for Diode and CO2 Lasers Using LightBurn appeared first on Mountaineer Tradepost.

Why Use Yellow Antifreeze for Laser Water Cooling?

1. Prevents Mold and Algae Growth

• One of the most common problems with water cooling systems in laser cutters is the buildup of mold and algae. These pesky microorganisms love to grow in stagnant water, leading to clogged tubes and reduced efficiency. Yellow antifreeze contains biocides that prevent mold, algae, and bacteria, keeping your system clean and hassle-free.

1. Corrosion Protection

• Over time, untreated water can cause corrosion in your laser’s metal tubing and fittings, especially in machines like the K40. Yellow antifreeze is formulated with corrosion inhibitors that protect your laser’s cooling system, extending the lifespan of your machine.

1. Prevents Freezing

• If you operate your laser cutter in colder climates or unheated spaces, freezing water can cause serious damage to your machine. Yellow antifreeze helps prevent this by keeping the water from freezing, ensuring your laser stays in working condition year-round.

1. Better Heat Transfer

• While distilled water alone transfers heat well, antifreeze helps regulate temperatures more effectively, especially in environments where temperatures can fluctuate. This ensures your laser cutter’s cooling system runs smoothly and efficiently.

How to Use Yellow Antifreeze in Your Laser’s Cooling System

Switching to yellow antifreeze is simple, and it can make a big difference in how well your laser cutter performs. Here’s a quick step-by-step guide to get you started:

1. Mixing Ratio

• For laser cooling systems like the K40, use a 50/50 mix of distilled water and yellow antifreeze. This provides a balance of heat transfer, mold prevention, and freeze protection without making the solution too thick.

1. Use Distilled Water

• Always mix antifreeze with distilled water. Tap water contains minerals that can cause scaling and blockages in the system, which can lead to overheating and damage to the laser tube.

1. Regular Replacement

• Over time, antifreeze can break down and lose its effectiveness. It’s a good idea to flush and replace the solution every 6 to 12 months, depending on how frequently you use your machine. This will ensure that the antifreeze continues to provide protection.

Benefits Over Other Additives

There are other options to prevent mold and algae in your cooling system, but yellow antifreeze has some distinct advantages:

• Household Cleaners vs. Antifreeze
• Some users opt for household cleaners like bleach or vinegar to kill mold and algae. However, these can be harsh on your laser’s tubing and fittings and may not provide the same level of protection. Yellow antifreeze is a more balanced solution that not only prevents mold but also protects against corrosion.
• Algaecides
• While algaecides can be added to the water to prevent biological growth, they don’t offer freezing protection or corrosion inhibition like antifreeze does. Antifreeze combines multiple benefits, making it easier to maintain your system.

Important Considerations

Before making the switch to antifreeze, keep the following in mind:

1. Environmental Impact

• Antifreeze can be toxic to the environment, so when it’s time to replace the solution, be sure to dispose of it properly according to your local regulations.

1. Check Compatibility

• While most laser machines, including the K40, work well with a 50/50 mix of antifreeze and water, always check your machine’s manual or consult the manufacturer to make sure your system is compatible with antifreeze.

Final Thoughts

Switching to yellow antifreeze for your laser cutter’s cooling system can prevent mold, algae, corrosion, and freezing, ensuring your machine stays in top condition. It’s an easy, effective solution that saves you time and effort in maintaining your laser cutter.

If you’re ready to take better care of your laser cutter, consider making the switch today. And if you need some fresh designs to test out your machine, check out Mountaineer Tradepost for a variety of laser cutting SVG files optimized for your next project.

The post Why Yellow Antifreeze is the Best Choice for K40 Laser Cooling: Prevent Mold, Corrosion, and Freezing appeared first on Mountaineer Tradepost.

If you’re looking for ready-made designs for your next engraving project, check out the wide selection of SVG files at Mountaineer Tradepost. All files are optimized for laser engraving and will help you get started with your next project quickly!

1. Prepping Slate for Engraving

The first step to a successful slate engraving project is prepping the material. Proper preparation ensures that your design engraves cleanly and stands out.

Clean the Surface

Before you start engraving, wipe down the slate with isopropyl alcohol to remove dust, dirt, or oils. A clean surface will allow the laser to work more efficiently, resulting in a smoother and more detailed engraving.

Select the Right Slate

Not all slate pieces are created equal. Try to select flat, smooth pieces of slate. Rough or uneven surfaces can make it harder for the laser to achieve consistent engraving results, leading to irregular or incomplete designs.

2. Avoid Coatings for Functional Coasters

While some might suggest using coatings like clear sealants, oils, or lacquers to enhance contrast or protect the design, this can affect the natural functionality of your slate coasters. Here’s why:

Slate’s Natural Absorbency

Slate naturally absorbs moisture, which makes it a great material for functional coasters. However, if you apply any kind of coating—whether it’s matte or glossy—you’ll create a barrier that prevents the slate from absorbing moisture. This can cause liquids to bead up and spill over the edges, which defeats the purpose of the coaster.

Skip the Coating for Everyday Use

For coasters that will be used regularly for hot or cold drinks, it’s best to skip the coatings. Let the slate do its job as a natural, absorbent material. If you’re engraving coasters for purely decorative purposes, you can use a matte finish to enhance the contrast without adding unwanted gloss.

3. Engraving Techniques for Slate Coasters

Optimal Power and Speed Settings

When engraving slate, use moderate to high power and a slower speed to ensure deep, clean cuts. This helps create a durable engraving that can withstand regular use without wearing down too quickly. Always test your settings on a sample piece of slate before working on the final design.

Deep Engraving for Durability

Deeper engravings not only improve the longevity of your design but also help maintain contrast over time. A well-engraved coaster will maintain its look, even without a protective coating.

Keep It Natural

For the best results, engrave directly onto the slate without adding any oils or other contrast enhancers. This will preserve the coaster’s natural look and functionality.

Conclusion

When engraving slate coasters, the key is to keep it simple. Avoid coatings to maintain the slate’s absorbency and let the natural beauty of the stone shine through. By following these engraving techniques, you’ll have durable, functional, and beautiful coasters that are ready to use.

Looking for unique designs to engrave on your slate coasters? Visit Mountaineer Tradepost for a wide range of SVG files, all ready to be engraved on your laser machine.

The post Best Practices for Engraving Slate Coasters: Why You Should Skip the Coating appeared first on Mountaineer Tradepost.

Importing Your SVG File into LightBurn

Step 1: Open LightBurn

Launch the LightBurn software on your computer. If you haven’t set up your laser with LightBurn yet, ensure that your machine is properly connected and recognized by the software.

Step 2: Import the SVG File

Once LightBurn is open, go to the menu at the top and click File > Import. Navigate to the location on your computer where you saved the SVG file. Select it, and it will appear in the workspace, ready for you to make adjustments if needed.

Step 3: Verify the Import

Ensure that the design appears in the workspace with the correct colors: red for cutting, blue for line engraving, and black for fill engraving. These color codes are already set up to match the layers required for optimal cutting and engraving in LightBurn.

If you haven’t downloaded any SVG files yet, head over to Mountaineer Trade Post for a variety of free SVG designs. All of our files are pre-configured to save you time and effort!

Setting Up Layers and Job Settings

Now that your design is loaded, it’s time to ensure the correct settings are applied to each layer.

Layer Colors in LightBurn

LightBurn will recognize the color-coded layers as follows:

• Red: Cut Line
• Blue: Line Engrave
• Black: Fill Engrave

Each color corresponds to a different operation, making it easy for you to manage multiple tasks in one design.

Assigning Laser Settings to Each Layer

Double-click the color layer (red, blue, or black) in the Cut/Layer panel to open the settings for that specific operation:

• Red (Cut Line): Set your speed and power levels according to the material you’re cutting. Ensure that the power is high enough to cut through the material completely.
• Blue (Line Engrave): Adjust the speed and power settings for the engraving lines. Typically, engraving lines will require less power than cutting.
• Black (Fill Engrave): Configure the settings for fill engraving. This is ideal for areas where you want to engrave solid shapes rather than just outlines. Again, adjust speed and power depending on your material.

If you’re looking for more SVG designs to experiment with, be sure to check out Mountaineer Trade Post. We offer a variety of free and premium SVG files that are already optimized for LightBurn!

Preview Your Job

Once your layers are set up, use the Preview button in LightBurn to simulate how your laser will cut and engrave the design. This preview allows you to catch any potential issues and ensures that all layers are set correctly before you begin the cutting process.

Sending the File to the Laser

Step 1: Position Your Material

Place your material securely on the laser bed, making sure it is properly aligned and flat. This will ensure accurate cuts and engravings.

Step 2: Send the File to the Laser

After you’ve verified the settings and previewed the job, it’s time to send the design to your laser cutter. Click the Send button in LightBurn to transfer the file to your machine.

Step 3: Start the Job

Once the file is transferred, start the job from your laser’s control panel. Your laser cutter will now follow the instructions to cut, line engrave, and fill engrave according to the settings you configured in LightBurn.

Conclusion

That’s it! You’re now ready to import, set up, and cut your laser projects using LightBurn. Whether you’re cutting or engraving, the pre-configured colors in our SVG files make the process simple and efficient. For more designs, or if you haven’t grabbed any yet, head over to Mountaineer Trade Post and explore our collection of free SVG files. Happy cutting!

The post How to Properly Load and Set Up SVG Files in LightBurn appeared first on Mountaineer Tradepost.

Why Use Inkscape for Creating SVG Files?

Why Inkscape? It’s free, open-source, and packed with features perfect for creating precise vector designs. Whether you’re running a laser-cutting business or just getting creative for fun, Inkscape gives you the control you need to design professional SVG files that are compatible with most laser cutting machines.

If you’re new to laser cutting or just looking for inspiration, be sure to check out our free SVG designs at Mountaineer Trade Post. Downloading these designs will not only help you get started but also keep you updated with more freebies, tips, and resources when you join our email list!

Step-by-Step Guide to Creating SVG Files in Inkscape

Step 1: Download and Install Inkscape

Before we start designing, download Inkscape from the official website. It works on Windows, macOS, and Linux, so no matter what system you’re on, you’re good to go! Install it, open it up, and let’s get creating.

Step 2: Create Your Design

Now, let’s get down to business. Use Inkscape’s shape tools (rectangle, circle, and line) to start your design. You can find these tools in the left toolbar. For more detailed work, try the Pen or Bezier tools to create custom paths and smooth curves. Feel free to combine shapes or subtract sections using Inkscape’s Boolean operations (under the Path menu), making your design as simple or complex as you like.

Remember to keep your design connected if you want a clean cut—disconnected paths can lead to problems when your laser machine starts cutting!

Step 3: Adjust for Laser Cutting

Here’s the important part: prepping your file for the laser cutter. Instead of worrying about stroke thickness, switch to Outline View to make sure your paths are exactly where you want them. To access this, go to View > Display Mode > Outline. This view allows you to see the exact cutting paths, so nothing is left to chance.

Now, set your stroke colors according to how you want the laser to handle your design. Use:

• Red for cut lines
• Blue for engrave lines
• Black for fill engraving

This color coding ensures that your laser cutter knows how to treat each part of your design, saving you time and material by getting it right the first time!

Step 4: Save as SVG and Import into LightBurn

Once you’ve perfected your design, it’s time to save it. Go to File > Save As and select SVG as the file type. While your SVG will work with most laser cutting software (like RDWorks or K40 Whisperer), we highly recommend using LightBurn. It’s the industry standard for laser cutting and engraving software because it’s user-friendly, reliable, and packed with features that make working with SVG files a breeze.

Just open LightBurn, import your SVG, and you’re ready to start cutting!

Conclusion

Creating your own SVG files in Inkscape is a simple and fun process that lets you bring your laser cutting ideas to life. Whether you’re creating designs for personal projects or your business, Inkscape gives you the tools to make your ideas a reality.

Don’t forget, if you’re looking for ready-made designs to practice with or just want to explore new ideas, check out our free SVG files at Mountaineer Trade Post. Plus, by joining our email list, you’ll stay updated with new free designs and tips to keep improving your laser cutting skills!

The post How to Create Your Own Free SVG Files for Laser Cutting Using Inkscape appeared first on Mountaineer Tradepost.

Step 1: Drain the Current Water System

• Turn off the laser cutter and disconnect the water pump.
• Drain the distilled water from the cooling system. Be sure to drain both the tubing and the reservoir. If there are visible signs of mold or algae in the tubing, consider running a cleaning solution (such as a diluted vinegar solution) through the system to flush out any residue.
• Clean the water tank or bucket used for the cooling system, making sure there’s no debris or buildup left.

Step 2: Inspect and Clean the Tubing

• While the system is drained, check the tubing for any visible signs of wear, mold, or blockages.
• If necessary, use a cleaning brush or pipe cleaner to carefully clean out the tubing to prevent any remaining mold or particles from affecting the new antifreeze mixture.
• Make sure the tubes are completely free of water before adding the new mixture.

Step 3: Prepare Your Antifreeze Solution

• Use yellow automotive antifreeze that is safe for aluminum and metals to protect your cooling system components from corrosion.
• Mix the antifreeze with distilled water in a 50/50 ratio. The distilled water helps to dilute the antifreeze, improving heat transfer efficiency, while the antifreeze provides protection from freezing, corrosion, and mold growth.
• Important: Always use distilled water—not tap water—as it prevents mineral deposits that can damage your system over time.

Step 4: Fill the System with Antifreeze Solution

• Slowly pour the mixed solution into your cooling system’s water reservoir. Ensure there’s enough fluid to circulate through the laser tube and tubing without leaving air pockets.
• If your system has a fill line, make sure the antifreeze solution reaches it. It’s essential to have enough fluid to keep the laser tube cool during operation.

Step 5: Prime the Pump and Check for Leaks

• Once the antifreeze solution is added, reconnect the water pump and prime it by turning it on and allowing the mixture to circulate through the system.
• Check the tubing and laser tube for air bubbles, which can prevent effective cooling. If you see any bubbles, gently tilt the machine or tubing to release them.
• Inspect the system for leaks. If any connections appear to be loose, tighten them before proceeding.

Step 6: Monitor Temperature and Performance

• Turn the laser cutter back on and run a test job while monitoring the temperature of the cooling system. The antifreeze solution should regulate the temperature effectively without overheating.
• After the test, check the system to ensure there are no blockages, and that the fluid is circulating evenly.

Maintaining Your Antifreeze Cooling System

Now that you’ve switched to antifreeze, it’s important to maintain the system to ensure optimal performance:

1. Check fluid levels regularly to ensure the mixture stays at the appropriate fill line, and top off with the same 50/50 antifreeze and distilled water mix as needed.
2. Flush and replace the antifreeze solution every 6 to 12 months. Over time, the antifreeze can break down, reducing its effectiveness in preventing mold and corrosion.
3. Monitor tubing and fittings for signs of wear or mold. While antifreeze helps prevent biological growth, keeping an eye on the system’s health will help you spot any potential issues early.

Why Switch to Yellow Antifreeze?

Using antifreeze instead of plain distilled water offers several key benefits:

• Prevents mold and algae: The biocides in antifreeze kill off any potential growth of mold or algae in your system.
• Corrosion protection: Antifreeze contains inhibitors that prevent corrosion of metal parts, extending the life of your laser tube and components.
• Freezing protection: For those in colder climates, antifreeze helps prevent the water from freezing, which can cause damage to your laser cutter.
• Easy maintenance: With antifreeze in your system, you can go longer between fluid changes compared to plain distilled water.

By following these steps, you can ensure a smooth transition from using distilled water to yellow antifreeze in your K40 or other laser machines. This switch not only prevents common issues like mold but also extends the lifespan of your machine by protecting against freezing and corrosion.

For more tips and designs for your laser cutting projects, don’t forget to check out Mountaineer Tradepost for a variety of ready-made SVG files optimized for laser engraving and cutting!

The post How to Switch to Yellow Antifreeze in Laser Cutters: Prevent Mold & Protect Your K40 appeared first on Mountaineer Tradepost.