3D laser engraving devices are used to create three-dimensional pictures on a range of materials. 3D engraving technology has made it possible to show artwork on metal, brass, copper, ms,ss, rods, acrylics, and other materials. It has a specific application for coin and die moulds. It’s also known for its mould-making equipment.


We at Jai Ambay Etching Process are extremely proud to have installed this instrument which will allow us to produce fantastic work to suit the customer’s needs. It takes time to create 3D photos, but the ultimate product will be amazing. Understanding the program you’re working with is crucial when it comes to 3D laser engraving. To get the appropriate depth in your image, you must be able to shade your design in gray.


The next generation laser marking machine, 3D / dynamic focus laser marking machine, can not only conduct big field laser marking, curve surface laser marking, but also 3D laser engraving on materials, thanks to the scan head’s unique optical design and software algorithm. In comparison to typical production options, the 3D Laser engraving machine delivers high precision work, saves a lot of time and money, especially in the mold industry.


History of Engraving

Before we get to laser engraving, let’s have a look at the history of engraving in general. Back in the day, engraving was the method of choice for beginning the embellishing process, as one stone was used to designate another. The world’s oldest etching is a doodle that goes back 500,000 years!


In 3000 BC, the Sumerian and Hittite elites began etching complex seals in valuable stones and jewels. The engraving was employed to adorn and create throughout the ancient world, just as it is now.


In the 1400s, the method of engraving was used to copy documents and artwork by carving pieces of wood, coating the raised sections in paint or ink, and pressing the picture into paper or fabric.


With a couple of big technical advancements and the introduction of the computer, engraving was relegated to the world of ornamentation after a long spell as a printing medium.


What is Laser?


“Light Amplification by Stimulated Emission of Radiation,” or “laser,” is an abbreviation for “Light Amplification by Stimulated Emission of Radiation.”


Light is focused over and over to form a strong beam,that it’s simple. Concentration, Energy, and Direction are the three key aspects that influence how this operates.





  1. Light travels in waves, or up and down as the case may be.
  2. A typical light has a number of various, variable wave lengths (the space between each wave’s peaks and troughs) that pass over one another.
  3. Now, concentrate all of the wavelengths such that they don’t cross over but instead line up properly.
  4. That cool, fascinating beam of (typically) red light is created by the concentration of light waves, which cuts out all the superfluous waves that pass over each other. (If you use a smoke machine, you can see the entire beam; otherwise, it’s just that little red dot that cats are desperate to capture.)
  5. This also implies that laser light may be concentrated to a single spot and become highly strong.





Chris Woodford provides an excellent explanation:


You’ve certainly noticed that moving your hands back and forth in the bathtub may create some really powerful waves. The waves become bigger and bigger if you keep moving your hands in time with the waves you generate. Imagine doing this a million times out in the middle of the ocean. Mountainous waves would be towering above your head in no time! A laser uses light waves in a similar way. It starts with feeble light and gradually increases the energy, causing the light waves to become more focused.


Give those single wavelengths a power source to move them in perfect rhythm with one another, and you’ve just given energy to your concentrated light beam.



The fact that laser light is directed is the final important feature of it. Unlike a flashlight, which spreads white light equally over a room, laser light produces a narrow beam that may go far further. To put it in layman’s words, it’s heavily collimated (travels parallel instead of zigzagging).


Many frequent uses for laser light necessitate light that is invisible rather than blindingly bright in order to reduce the danger of what physicians (possibly) refer to as “eyeball meltage” or simply “arson.”

What Can a 3D Laser Engraving Machine Do?

1.    Without a Rotary, a 3D Laser Engraving Machine leaves markings on cylinders.

Without the need for a rotating mechanism to turn the item, the 3D Laser engraving machine makes markings on cylinders. This 3D laser marker can make precise marks on curved surfaces with no font or line width aberrations.

2.    Inclined Parts are marked with a 3D Laser Engraving Machine.

On sloped or slanted components, a 3D laser engraving machine leaves markings. Our 3D laser program compensates for sloped portions and difficult geometrical features, allowing you to accurately set the mark. This 3D laser marker can make precise marks on an inclined surface. Inclined Parts are marked with a 3D Laser Engraving Machine.

3.    Multi-level components are engraved with 3D laser engraving equipment.


Without moving the Z-Axis stages, the 3D Laser engraving machine makes markings on multi-level or step items. This 3D laser marker has a perfect focus and can mark on multi-level objects.




Features of a 3D Laser Engraving Machine


  • The laser engraver will simultaneously engrave all of the files, saving you time.
  • It’s also known as a coild moulding machine and a die moulding machine.
  • The high-speed 3D Laser Engraving Systems provide a superior mix of speed, laser power, and cutting-edge software, making them the equipment of choice for 3D engraving.
  • The 3D Laser Engraving Machine swiftly and precisely imprints flat and 3D surfaces, as well as numerous surfaces of the same object.
  • Chemical-proof, water-proof, oil, grease, and fuel-proof, laser marking is a clean and safe technique.
  • Cylindrical surface marking is equally simple to execute with our 3D Laser engraving equipment, with no distortion or quality variances due to z-axis differences.
  • Laser marking is recognized as a quality marking standard across the world.
  • For quick and precise setup, a visible ‘Pilot’ beam reveals the laser marking the spot.
  • One of the most appealing features of laser marking is that it can be automated and integrated into any online workflow.




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