Product Details:
Usage/Application | Jewellery Hallmarking |
Laser Type | Fiber Laser |
Brand | Copia |
Optical Quality | M2s1.4 |
Laser Power | 100W |
Laser Source | IPG/ RAYCUS/ MAX/ JPT |
Size | 800 x 650 x 1520 mm |
Laser Wavelength | 1064 mm |
Q-Switch Frequency | 20kHz-100kHz |
Repeat Accuracy | 0.01 mm |
Input Power Supply | AC 220V +/- 10% 50Hz (60Hz) |
Machine Power | 500W |
Marking Area | 300 x 300 mm |
Minimum Line Width | 0.01 mm |
Cooling System | Air Cooled |
Marking Speed | 0-7000 mm/s |
Lifetime | 100,000 hours |
Minimum Character | 0.1 mm |
Country of Origin | Made in India |
Copia Fiber Marking Lasers are the perfect choice when it comes to etching on a wide range of materials with high precision, complex graphics are easily achieved with a Fiber marking machine.
So how does a Copia Fiber Laser Marker work?
A Fiber laser uses a laser power source to generate a high powered laser that is transmitted through a Theta lens with incredible accuracy. The machine uses no physical moving parts and is covered with a protective pull-down cover ensuring the operator has no contact with the laser as it pulses.
As the focused laser beam passes through the Theta lens the invisible laser hits the surface of the material, effectively heating it up and oxidising the top layers, leaving the integrity of the metal intact. The laser beam is generally not powerful enough to pass through the metal unless you are using really thin foils.
A major benefit of using this kind of marking and engraving process is that fact that it is a permanent feature with high resistance to other external effects like heat, abrasion/rubbing etc.
It does all this with remarkable speed and accuracy, enabling quick turnaround of projects. A Fiber Marking Engraving Machine is generally controlled by software (in our case EZCAD which is simple to use) enabling you to generate your designs and change settings of the machine operation. You can also import your files into the software should you be designing them in software such as Coreldraw, Adobe Illustrator and other 2D CAD drawing packages.
It is used in many different applications such as:
Often used in the aerospace, automotive, marine engineering and creative industries.
Product Details:
Usage/Application | Jewellery Hallmarking |
Laser Type | Fiber Laser |
Brand | Copia |
Size | 800 x 650 x 1520 mm |
Repeat Accuracy | 0.01 mm |
Machine Power | 500W |
Cooling System | Air Cooled |
Laser Wavelength | 1064 mm |
Lifetime | 100,000 hours |
Laser Power | 50W |
Minimum Character | 0.1 mm |
Q-Switch Frequency | 20kHz-100kHz |
Input Power Supply | AC 220V +/- 10% 50Hz (60Hz) |
Marking Speed | 0-7000 mm/s |
Marking Area | 300 x 300 mm |
Minimum Line Width | 0.01 mm |
Optical Quality | M2s1.4 |
Laser Source | IPG/ RAYCUS/ MAX/ JPT |
Country of Origin | Made in India |
Copia Fiber Marking Lasers are the perfect choice when it comes to etching on a wide range of materials with high precision, complex graphics are easily achieved with a Fiber marking machine.
So how does a Copia Fiber Laser Marker work?
A Fiber laser uses a laser power source to generate a high powered laser that is transmitted through a Theta lens with incredible accuracy. The machine uses no physical moving parts and is covered with a protective pull-down cover ensuring the operator has no contact with the laser as it pulses.
As the focused laser beam passes through the Theta lens the invisible laser hits the surface of the material, effectively heating it up and oxidising the top layers, leaving the integrity of the metal intact. The laser beam is generally not powerful enough to pass through the metal unless you are using really thin foils.
A major benefit of using this kind of marking and engraving process is that fact that it is a permanent feature with high resistance to other external effects like heat, abrasion/rubbing etc.
It does all this with remarkable speed and accuracy, enabling quick turnaround of projects. A Fiber Marking Engraving Machine is generally controlled by software (in our case EZCAD which is simple to use) enabling you to generate your designs and change settings of the machine operation. You can also import your files into the software should you be designing them in software such as Coreldraw, Adobe Illustrator and other 2D CAD drawing packages.
It is used in many different applications such as:
Tool marking
Serial plaque etching
Personalisation of products
Jewellery marking/stamping
Parts etching
QR code & barcode marking
Often used in the aerospace, automotive, marine engineering and creative industries.
Product Details:
Usage/Application | Jewellery Hallmarking |
Laser Type | Fiber Laser |
Minimum Line Width | 0.01 mm |
Marking Area | 300 x 300 mm |
Laser Power | 30W |
Cooling System | Air Cooled |
Laser Source | IPG/ RAYCUS/ MAX/ JPT |
Size | 800 x 650 x 1520 mm |
Brand | Copia |
Repeat Accuracy | 0.01 mm |
Laser Wavelength | 1064 mm |
Marking Speed | 0-7000 mm/s |
Q-Switch Frequency | 20kHz-100kHz |
Lifetime | 100,000 hours |
Machine Power | 500W |
Input Power Supply | AC 220V +/- 10% 50Hz (60Hz) |
Optical Quality | M2s1.4 |
Minimum Character | 0.1 mm |
Country of Origin | Made in India |
Copia Fiber Marking Lasers are the perfect choice when it comes to etching on a wide range of materials with high precision, complex graphics are easily achieved with a Fiber marking machine.
So how does a Copia Fiber Laser Marker work?
A Fiber laser uses a laser power source to generate a high powered laser that is transmitted through a Theta lens with incredible accuracy. The machine uses no physical moving parts and is covered with a protective pull-down cover ensuring the operator has no contact with the laser as it pulses.
As the focused laser beam passes through the Theta lens the invisible laser hits the surface of the material, effectively heating it up and oxidising the top layers, leaving the integrity of the metal intact. The laser beam is generally not powerful enough to pass through the metal unless you are using really thin foils.
A major benefit of using this kind of marking and engraving process is that fact that it is a permanent feature with high resistance to other external effects like heat, abrasion/rubbing etc.
It does all this with remarkable speed and accuracy, enabling quick turnaround of projects. A Fiber Marking Engraving Machine is generally controlled by software (in our case EZCAD which is simple to use) enabling you to generate your designs and change settings of the machine operation. You can also import your files into the software should you be designing them in software such as Coreldraw, Adobe Illustrator and other 2D CAD drawing packages.
It is used in many different applications such as:
Tool marking
Serial plaque etching
Personalisation of products
Jewellery marking/stamping
Parts etching
QR code & barcode marking
Often used in the aerospace, automotive, marine engineering and creative industries.
Product Details:
Usage/Application | Jewellery Hallmarking |
Laser Type | Fiber Laser |
Brand | Copia |
Optical Quality | M2s1.4 |
Marking Speed | 0-7000 mm/s |
Machine Power | 500W |
Laser Power | 20W |
Marking Area | 300 x 300 mm |
Minimum Character | 0.1 mm |
Minimum Line Width | 0.01 mm |
Size | 800 x 650 x 1520 mm |
Q-Switch Frequency | 20kHz-100kHz |
Repeat Accuracy | 0.01 mm |
Input Power Supply | AC 220V +/- 10% 50Hz (60Hz) |
Laser Source | IPG/ RAYCUS/ MAX/ JPT |
Cooling System | Air Cooled |
Lifetime | 100,000 hours |
Laser Wavelength | 1064 mm |
Country of Origin | Made in India |
Copia Fiber Marking Lasers are the perfect choice when it comes to etching on a wide range of materials with high precision, complex graphics are easily achieved with a Fiber marking machine.
So how does a Copia Fiber Laser Marker work?
A Fiber laser uses a laser power source to generate a high powered laser that is transmitted through a Theta lens with incredible accuracy. The machine uses no physical moving parts and is covered with a protective pull-down cover ensuring the operator has no contact with the laser as it pulses.
As the focused laser beam passes through the Theta lens the invisible laser hits the surface of the material, effectively heating it up and oxidising the top layers, leaving the integrity of the metal intact. The laser beam is generally not powerful enough to pass through the metal unless you are using really thin foils.
A major benefit of using this kind of marking and engraving process is that fact that it is a permanent feature with high resistance to other external effects like heat, abrasion/rubbing etc.
It does all this with remarkable speed and accuracy, enabling quick turnaround of projects. A Fiber Marking Engraving Machine is generally controlled by software (in our case EZCAD which is simple to use) enabling you to generate your designs and change settings of the machine operation. You can also import your files into the software should you be designing them in software such as Coreldraw, Adobe Illustrator and other 2D CAD drawing packages.
It is used in many different applications such as:
Tool marking
Serial plaque etching
Personalisation of products
Jewellery marking/stamping
Parts etching
QR code & barcode marking
Often used in the aerospace, automotive, marine engineering and creative industries.