Fiber laser deep engraving machine is the wonderful tool for deep engraving on a variety of materials, including stainless steel, titanium, aluminum, brass, and more. BOGONG 50w 60w fiber laser metal engraver not only excels at etching but is also capable of cutting thin metals. You can now purchase this advanced laser metal etching machine at an affordable price.
The term “engraving” includes two main types: shallow engraving and deep engraving. When people talk about “laser engraving,” they usually mean shallow engraving. While deep engraving and laser engraving share similarities, they are not the same.
In various technological applications, there have some deep engraving requirement, such as molds, firearms, jewelry, automotive parts, and metal like steel, ceramics, gold, silver, copper, and aluminum, as well as newer materials like silicon carbide and nickel-chromium alloys, it is essential to deeply strip the outer layer. you can find more in below article.
Traditional methods, such as electrical or chemical corrosion, can be cumbersome and may struggle to meet precision requirements. laser thermal processing offers micron-level precision, a high-quality laser source, combined with laser galvo head and Software, make your customize dream come ture.
Laser deep engraving is a marking process that uses a fiber laser and advanced technology. This improves the power and quality of the laser, allowing it to quickly turn metal into gas, reducing heat damage to nearby areas. With a high repetition rate, the outlines of letters and designs become sharper and cleaner, with less roughness and a nice bottom texture. This method can complete what would usually take many steps in traditional corrosion processes in just one go. Plus, it doesn’t need any extra supplies or chemicals, making it cost-effective.
The depth and speed of engraving depend on several factors:
- Metal Type: Different metals behave differently during engraving. For example, aluminum has the lowest melting point, so it engraves the fastest.
- Pulse Width: A wider pulse means faster engraving but rougher shading. A smaller pulse works slower but gives finer shading. Choosing the right pulse width is important for balancing speed and quality.
- Laser Source: The type of laser used affects how well it absorbs light, so it’s important to consider the brand and your budget.
- Laser Power: Higher laser power generally means deeper engraving if other conditions stay the same.
- Engraving Time: The engraving process requires multiple passes. The more time you spend engraving, the deeper the result.
- Surface Condition: The texture of the metal surface matters. Smooth, shiny, or treated surfaces (like anodized or coated ones) react differently to the laser, affecting the final outcomes.
- Scan Range: The optics of the laser determine the scan range. A larger range can make engraving more difficult and slower.
What is the maximum depth of laser engraving?
The depth of laser engraving machine can upto 1mm or more if you spend more time on it, choose a bigger laser power machine can help you save more time.
What is the best laser for deep engraving metal?
Fiber laser can do deep engraving on metal, if you want to get better result on shading, choose a fiber mopa will be good idea.
How to Choose the Right Deep Laser Engraving Machine
When selecting a machine for your engraving project, it’s important to consider how deep you need the engraving, the material you’ll be working with, and the size of the mark. Here are 5 key factors to keep in mind: speed, power, engraving time, and material.
Let’s break down each factor and understand its importance.
Speed
Speed is often confused with frequency, but they are not the same. Frequency refers to how many times the laser beam hits the target in a specific time period, while speed indicates how long the beam stays focused on the target. Generally, if you want a deeper engraving, you will need a slower speed. However, be aware that a slower speed isn’t the only factor that affects depth.
Power
Higher power means the laser generates more intense energy, which can lead to deeper engravings. But similar to speed, this outcome can change based on other factors at play.
Engraving Time
Deep engraving takes more time. The laser needs to direct energy at the target for longer to vaporize deeper into the material. Think of it like sawing through a piece of wood; the longer you cut, the deeper you can go.
Materials
Select your laser engraving machine according to the material you’re using. As a general rule, fiber lasers work best for metals, while CO2 lasers are ideal for wood. Using the wrong type of laser can lead to poor engraving results.
Need Help Choosing a Deep Laser Engraving Machine?
Deep laser engraving is a specialized form of engraving that requires different settings compared to standard engraving. However, you don’t necessarily need a different machine for this purpose. At BOGONG LASER, our laser marking machines are designed to handle both shallow and deep engraving, thanks to their advanced settings and auto-adjusting focal point.
Whether you need a machine for traceability, logos, or backfilling, our team is here to listen to your needs and challenges. We will help you select a laser machine that excels in your current project and is built to last for your future projects.
Reach out to our team today to discuss your desired engraving depth, project requirements, and materials.
Feature of BOGONG device:
- Simple and Fast Installation: Easily connects to your computer via USB.
- Cost-Effective: Enjoy a high return on investment with low power consumption under 500W, which is one-tenth of that of traditional light-pumping lasers.
- No Maintenance Required: There’s no need for maintenance on the laser .
- Extended Service Life: The laser metal engraving machine uses a laser diode as its pumping source, offering a lifespan of up to 100,000 hours.
Applications of Fiber Laser Deep Engraving Machines
Fiber laser deep engraving machines are versatile tools used for marking and engraving on a wide range of materials. They are particularly effective on metals including stainless steel, aluminum, alloys, brass, silver, gold, titanium, and iron. Additionally, these machines can be used on non-metal surfaces as well. Common applications include:
- Guns and firearms
- Rings and jewelry
- Bearings and gears
- Automotive parts
- Hardware and tools
- Aerospace components
- Integrated circuit chips
- Computer accessories
- Watches
- Electronics and communication devices
- Home appliances
- Wire and cable
- Adornments like necklaces and bracelets
These machines are also capable of cutting thin metals such as stainless steel, aluminum, alloys, brass, silver, gold, and titanium.