3D laser marking is a game-changer in the world of engraving and marking. Unlike traditional methods, this cutting-edge technology enables a 3D laser marking machine to engrave on curved, angled, or irregular surfaces with ease. I3D fiber laser marking machines, providing flexibility and precision that traditional methods cannot match. Whether you're an artist, engineer, or manufacturer, 3D laser marking pushes the boundaries of creativity and precision, opening up endless possibilities for innovation.
Why Choose 3D Laser Marking Over Traditional Methods?
So, you're probably wondering why a 3D laser marking machine outshines traditional methods. Let's dive into the key advantages:
1. Precision and Detail
3D laser marking delivers unparalleled precision and detail. The laser's accuracy ensures even the tiniest designs are captured perfectly, which is crucial in industries like electronics and medical devices where errors can lead to significant losses. Moreover, 3D laser marking ensures consistent quality across large production runs, enhancing the reliability of your processes.
2. Versatility
Unlike traditional techniques, a 3D fiber laser marking machine can engrave on diverse surfaces, including curves, angles, and irregular shapes. This makes it a versatile tool for marking metals, plastics, ceramics, and even glass. Whether you're marking intricate jewelry or industrial tools, 3D laser marking adapts seamlessly to your needs.
3. Durability
The marks created by a dynamic laser mark are permanent and resistant to wear, ensuring your designs stand the test of time. This durability is particularly important for products exposed to harsh conditions or frequent handling, such as automotive parts and industrial tools.
4. Speed
Time is money, and 3D laser marking machines deliver high-speed processing without compromising quality. This allows businesses to increase production efficiency, meet tight deadlines, and deliver faster turnaround times to customers.
● Auto Focus:The Z-axis of the galvanometer system automatically adjusts the focus, dynamically adjusting the laser focus position in response to changes in the height of an object's surface, ensuring that each marking point is in the optimal focus position. This auto-focus function ensures high quality marking results, and consistent and accurate marking regardless of changes in surface height.
● High-speed scanning:The high-speed galvanometer allows for rapid movement of the laser beam, dramatically increasing marking speeds and making it suitable for mass production needs. High-speed scanning not only improves productivity, but also reduces waiting time and meets high throughput requirements.
● High Accuracy:The precise control of the galvanometer system enables micron-level marking accuracy.
Efficient 3D Marking Software:
● Complex Graphics Processing: 3D marking software can process complex three-dimensional graphic data, generate accurate marking paths, and support multi-level and multi-dimensional marking effects.
● Automatic compensation: The software can automatically compensate the laser marking path according to the three-dimensional shape of the object surface to ensure consistent and accurate marking results.
● Flexibility and compatibility: 3D marking software is usually highly flexible and compatible with different types of galvanometer systems and lasers, adapting to a wide range of application requirements.
High flatness, large engraving area, good thermal conductivity
Professional 3D marking software
EZCAD3/LEN MARK3D
Top laser source
Laser brand:IPG/Raycus/MAX/JPT/nlight/SPI etc.
D80 rotary
Fourth axis, rotary marking
High-precision fine-tuning mobile platform
More accurate positioning, more convenient fixing, and convenient fine-tuning
Advantage
Non-consumable
● No need to replace consumables
● Requires only electrical energy
● One-time investment
● Maintenance-free
Cleaner environment
Ink-free ●
Solvent-free ●
Non-pungent ●
Non-toxic ●
Non-corrosive ●
Energy-saving
● Non-wasteful
● 100% utilisation
● No emissions
Permanent mark
Controlled indentation depth ●
Resistant to oxidation ●
No colour loss ●
Traceable ●
Safe and reliable ●
3D engraving functions
● Large-format marking
● Assembly line marking
● Visual positioning marking
● Projection positioning marking
● Curved surface marking
● Curved surface rotation marking
● Relief, 360° engraving
● Function customization
The Magic Behind 3D Laser Marking
At the core of this technology is the laser itself. A 3D laser marking machine uses a focused laser beam controlled by advanced software to engrave intricate designs with unmatched precision. The laser adjusts its focus dynamically to account for the 3D features of the object, ensuring clarity and consistency even on complex surfaces.
How Does It Work?
Digital Design Creation: The process starts with a digital design, which is uploaded to the machine's software.
Laser Execution: The machine translates the design into precise instructions for the laser, adjusting its focus and intensity to accommodate the 3D surface.
Perfect Results: The laser marks the object with sharp, detailed engravings that can range from simple text to complex artistic patterns.
The result is precision and customization at an unprecedented level. Whether you need to mark logos, serial numbers, or intricate patterns, 3D laser marking offers the perfect solution for any design challenge.
Parameter
No.
Project
Parameter
1
Model number
HF10XX-3D
2
Laser power
30W/50W/100W/200W (optional)
3
Laser level
Class IV(IEC 60825-1)
4
Laser type
Pulse Fiber laser
5
Wavelength
1064nm
6
Marking field
100/150/200/300/400/500/600(optional)
7
Max. Marking depth
20-200mm
8
Marking speed
≤10000mm/s(optional)
9
Marking line width
0.01-0.2mm
10
Min character size
0.015mm
11
Repeat accuracy
0.01mm
12
Cooling method
Air-cooled/Water-cooled
13
Laser source expected life
>100,000 hours
14
Standard user interface
Touch panel/PC
15
Consumables
No
16
Temperature
0-45℃
17
Power consumption
1000 W
18
Electrical requirement
L/N/PE 100 – 240 VAC, 50/60 Hz
Materials
Reaction
Materials
Reaction
Metal
Stainless steel
√√
Plastic
PE
√
Aluminum
√√
PP
-
Anodized aluminum
√√
PVC
√√
Brass
√√
PPR
√
Coated metal
√√
ABS
√
Copper
√
PET
-
Gold, silver, nickel, platinum
√
Nylon
√
Carbon steel
√√
MPP
-
Titanium
√√
PC
-
Ceramics
Ceramic
√
Electrical and medical ceramic
Electrical and medical ceramic
√
Excellent Reaction: √√ Good reaction: √ Poor reaction: -
Benefits of Using a 3D Laser Marking Machine
1. Enhanced Design Capabilities
With the ability to mark intricate designs on various surfaces, 3D laser marking machines empower users to explore limitless creative possibilities.
2. Cost-Effective
The efficiency of 3D fiber laser marking machines reduces labor costs and increases production speed. Over time, these benefits provide a significant return on investment.
3. Sustainability
Laser marking is eco-friendly, as it eliminates the need for consumables like inks or chemicals, aligning with sustainable business practices.
4. Quality Assurance
The precision and consistency of 3D laser marking enhance product value, ensuring every piece meets the highest standards.
Application
3D laser marking is transforming industries with its versatility and precision.
Electronics
Precision is vital in electronics. 3D fiber laser marking machines engrave intricate circuit boards, component identifiers, and custom designs with exceptional clarity, preventing assembly errors and improving functionality.
Automotive
From marking engine parts to customizing interiors, 3-axis fiber laser markers are indispensable in the automotive industry. They provide durable and accurate markings that enhance safety, performance, and aesthetic appeal.
Medical Devices
In the medical field, precision and compliance are non-negotiable. Dynamic laser marks ensure surgical instruments and implants are accurately engraved, meeting stringent regulatory requirements and enhancing patient safety.
Jewelry and Art
Artists and jewelers can achieve stunning results with 3D laser marking. The ability to engrave detailed designs on various materials allows for unmatched creativity and precision, making this technology a favorite among creators.
Cylinder
