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LP-GTY with Frame33
Laserpair
Essential details
| Place of Origin: Guangdong, China | Brand Name: LaserPair |
| Model Number: LP-GTY Laser Safety Glasses | Protect Wavelength: 180 - 532nm & 900 - 1080nm |
| Material: PC + Absorber material | |
| Transmittance: 22% | Available: 532nm & 1064nm etc., |
| Application: 2 line YAG and KTP, Q-Switched | Optical Density: 180 - 532nm OD5+ 900 - 1080nm OD5+ |
LB-Rating: 316 - 532nm DIRM LB5 900-1080nm DIR LB5 | Certification: CE EN207 |
Supply Ability : 100000 Piece/Pieces per Month
Packaging & delivery
| Selling Units: Single item | Single package size: 20X10X10 cm | Single gross weight:0.500 kg |
| Package Type: 1PC/Leather Box, 100PCS/CTN, CTN Size: 71*39*43cm | ||
Products Description
More frame options
Certifications
Manufacturing Technique
Exhibition
We engaged to offering High Quality, High Protection, and Cost-Effective Laser Safety Glasses for the workers at laser industry and laser medical treatment etc., We attended different exhibitions in Shanghai, HongKong, Dubai, Russia, Germany, Italy, Spain, etc.,
Industry News
Understanding the Principle Behind Laser Safety Glasses
Laser technology has revolutionized various industries, from medical and manufacturing to research and entertainment. While lasers offer numerous benefits, they also pose potential risks to human eyesight. To mitigate these risks, laser safety glasses have emerged as a crucial protective measure. In this article, we will delve into the principle behind laser safety glasses and how they safeguard our eyes.
The principle behind laser safety glasses lies in their ability to block or attenuate specific wavelengths of laser light. Different lasers emit light at varying wavelengths, and each wavelength corresponds to a specific color. Laser safety glasses are designed to filter out or reduce the intensity of laser light within the wavelengths they are designed for.
These glasses are made using specialized materials that possess unique optical properties. One such material is polycarbonate, which is commonly used in the construction of laser safety glasses due to its high impact resistance and optical clarity. Other materials like glass and acrylic are also used, depending on the specific laser wavelengths they are intended to protect against.
The effectiveness of laser safety glasses is determined by their optical density (OD) rating. The OD rating indicates the level of protection provided by the glasses against a particular laser wavelength. The higher the OD rating, the greater the level of protection offered. Laser safety glasses with a higher OD rating are capable of blocking a larger percentage of laser light, minimizing the risk of eye damage.
The principle of laser safety glasses relies on the concept of absorption. When laser light interacts with the lenses of these glasses, it is absorbed rather than transmitted or reflected. The absorbed light energy is then converted into heat, preventing it from reaching the eyes. By absorbing the laser light, the glasses protect the eyes from potential harm, such as burns or retinal damage.
It is important to note that laser safety glasses are designed for specific laser wavelengths and power levels. Different lasers operate at different power levels, and their corresponding safety glasses are tailored to provide optimal protection against those specific lasers. Therefore, it is crucial to choose the appropriate laser safety glasses based on the laser's characteristics to ensure maximum eye safety.
In conclusion, the principle behind laser safety glasses lies in their ability to block or attenuate specific laser wavelengths. These glasses are made using specialized materials that absorb laser light, converting it into heat and preventing it from reaching the eyes. By understanding the principle behind laser safety glasses and selecting the appropriate ones for specific laser wavelengths, we can ensure the utmost protection for our eyes in laser-intensive environments.
Essential details
| Place of Origin: Guangdong, China | Brand Name: LaserPair |
| Model Number: LP-GTY Laser Safety Glasses | Protect Wavelength: 180 - 532nm & 900 - 1080nm |
| Material: PC + Absorber material | |
| Transmittance: 22% | Available: 532nm & 1064nm etc., |
| Application: 2 line YAG and KTP, Q-Switched | Optical Density: 180 - 532nm OD5+ 900 - 1080nm OD5+ |
LB-Rating: 316 - 532nm DIRM LB5 900-1080nm DIR LB5 | Certification: CE EN207 |
Supply Ability : 100000 Piece/Pieces per Month
Packaging & delivery
| Selling Units: Single item | Single package size: 20X10X10 cm | Single gross weight:0.500 kg |
| Package Type: 1PC/Leather Box, 100PCS/CTN, CTN Size: 71*39*43cm | ||
Products Description
More frame options
Certifications
Manufacturing Technique
Exhibition
We engaged to offering High Quality, High Protection, and Cost-Effective Laser Safety Glasses for the workers at laser industry and laser medical treatment etc., We attended different exhibitions in Shanghai, HongKong, Dubai, Russia, Germany, Italy, Spain, etc.,
Industry News
Understanding the Principle Behind Laser Safety Glasses
Laser technology has revolutionized various industries, from medical and manufacturing to research and entertainment. While lasers offer numerous benefits, they also pose potential risks to human eyesight. To mitigate these risks, laser safety glasses have emerged as a crucial protective measure. In this article, we will delve into the principle behind laser safety glasses and how they safeguard our eyes.
The principle behind laser safety glasses lies in their ability to block or attenuate specific wavelengths of laser light. Different lasers emit light at varying wavelengths, and each wavelength corresponds to a specific color. Laser safety glasses are designed to filter out or reduce the intensity of laser light within the wavelengths they are designed for.
These glasses are made using specialized materials that possess unique optical properties. One such material is polycarbonate, which is commonly used in the construction of laser safety glasses due to its high impact resistance and optical clarity. Other materials like glass and acrylic are also used, depending on the specific laser wavelengths they are intended to protect against.
The effectiveness of laser safety glasses is determined by their optical density (OD) rating. The OD rating indicates the level of protection provided by the glasses against a particular laser wavelength. The higher the OD rating, the greater the level of protection offered. Laser safety glasses with a higher OD rating are capable of blocking a larger percentage of laser light, minimizing the risk of eye damage.
The principle of laser safety glasses relies on the concept of absorption. When laser light interacts with the lenses of these glasses, it is absorbed rather than transmitted or reflected. The absorbed light energy is then converted into heat, preventing it from reaching the eyes. By absorbing the laser light, the glasses protect the eyes from potential harm, such as burns or retinal damage.
It is important to note that laser safety glasses are designed for specific laser wavelengths and power levels. Different lasers operate at different power levels, and their corresponding safety glasses are tailored to provide optimal protection against those specific lasers. Therefore, it is crucial to choose the appropriate laser safety glasses based on the laser's characteristics to ensure maximum eye safety.
In conclusion, the principle behind laser safety glasses lies in their ability to block or attenuate specific laser wavelengths. These glasses are made using specialized materials that absorb laser light, converting it into heat and preventing it from reaching the eyes. By understanding the principle behind laser safety glasses and selecting the appropriate ones for specific laser wavelengths, we can ensure the utmost protection for our eyes in laser-intensive environments.
