July Issue –

Our summer issue addresses how large companies are faced with strict EPA & OSHA compliance requirements. This change is making manufacturers rethink the methods used that cause harm to the environment and their employees. Laser technology have found its way in addressing these concerns and making manufacturers EPA & OSHA compliant.

 

 

 

 

Safer Nuclear Reactors With Laser Technology

  • Minimize contaminated surfaces
  • Decrease health and safety risks
  • Improve component marking and tracking
  • Achieve safe, practical material storage
  • Withstands high-temperature components
  • Can be compliant with OSHA and EPA

 

Complying With EPA & OSHA Requirements In Manufacturing

Stricter compliance regulations demand safer practices in addressing pollution and health concerns.

Laser Cleaning is a new disruptive technology aimed at helping minimize chemical and abrasive usage in industrial environments to meet increasing compliance with OSHA and EPA requirements worldwide.

Watch how laser cleaners can be used to substitute or replace industrial cleaning processes such as abrasive blasting, sandblasting, or wet chemical processes for decontamination or corrosion removal.

*Please Support U.S. Manufacturers by giving us a ‘Thumbs Up’ on our Youtube Video

 

 

Laser Cleaning Illustration

Lasers In The Medical Industry Can Replace Micro-Abrasive Blasting

Strict quality requirements for the medical industry become tougher to meet on small parts with time-consuming traditional methods such as Micro-Abrasive Blasting or sending parts to shops for refurbishment.

Laser Cleaning has the capability of replacing abrasive blasting with a more time-saving, accurate & precise method for removing imperfections that can adversely affect performance, cleaning medical molding, removing silicone insulation, and refurbishing medical instruments.

Read more about Laser Cleaning Technology:

 

5 Ways Lasers Are Used In Manufacturing The Space Industry

  1. Parts coding and Identification for maintenance, repair and replacement schedules and operation.
  2. Laser cutting of skin and fuel tank components and latched for manufacturing and maintenance purpose.
  3. High-temperature tile ID for maintenance services.
  4. Thrusters clean up to eliminate scaling.
  5. De-scaling of main rocket engine thrusters, stabilizing and directional nozzles and exposed high-temperature components.

 

Military Using Handheld Engraver

Lasers In The Defense Industry

Due to the increasingly worldwide nature and importance of traceability and production flow control, inventory control and renewal, service marks, product quality validation, long term product liability and reliability, the United States government and the Department of Homeland Security has approved a variety of programs where lasers became an essential part of present and future applications for Direct Parts Marking, UID (Unique Identifier), and Deep Engraving.

In the private sector, a variety of government contractors elected to use our laser machines to comply with strict government regulations.

Laser processing is used in applications from marking tactical weapons and munitions to cutting armor plate for military vehicles.

 

 

Lasers In The Automotive Industry

Parts marking is just one application for lasers in the automotive industry.

Lasers can also perform kiss cutting on vinyl, welding, cutting, glass etching, metal etching, ablation, annealing, cleaning, surface preparations, marking pistons, backlit buttons, VIN numbers, brake components, bearing cleanings, amongst several other automotive applications.

Over the years automakers have transitioned from dot pin, electro-etching, stamping, and ink jet marking to laser marking.

Laser marking has been deemed the preferred method in direct part marking in almost every automotive application.

From parts marking to rust removal to federal compliance, our laser marking, cleaning, cutting, and engraving equipment will fit your needs and your budget.

Inventory Tracking & Regulatory Labeling

Traditional methods to mark tracking codes such as mechanical etching or engraving using a Co2 Laser are not always clear enough to be scanned or read.

Laser Marking technology is non-destructive, permanent, and does not require tapes or sprays to make the mark thereby eliminating any cleaning and post-processing required with other methods.

Watch a demo of our Portable Handheld Laser Marking machine on youtube.

*Marking speed can be increased based on laser power.

 

 

 

 

Better ITO Removal of Conductive Coatings

Standard touchscreen interfaces consist of ITO, CTO, etc. coatings on the screen surface.

This coating must go through a removal process to change resistance and allow the interface to properly function.

The coating is usually removed with a 5 step chemical process or edging that consumes a large amount of water, is costly and is hazardous to the environment; all while taking up to 20 minutes to complete.

Laser Cleaning is an alternative system for a safe, low cost, quick method to remove ITO from glass typically used in flat panel displays, liquid crystal displays, and touch screen displays.

About Laser Photonics

Made In the USA

Proudly Made In The USA

 

Established in 1981, Laser Photonics has become the industry’s #1 recognized experts in laser machinery manufacturing. LP has been a trusted and loyal supplier of Fortune 500 companies all around the world; designing, developing and manufacturing fiber and CO2 lasers in the United States of America.

 

The Laser Photonics brand is the industry leader in developing high-tech Fiber, UltraFast, UV, CO2 and Green laser systems. Laser Photonics specializes in advanced, innovative, latest generation laser systems, processes, and technologies. We have delivered laser machines to many industries worldwide such as defense, government, aerospace, automotive, biotech, fashion, medical, manufacturing, food processing and many more.

See Our Fortune 1000 Customers

Make The Right Decision, Consult With Laser Photonics First


Laser Photonics
Executive Offices
& Manufacturing Facility

Orlando, Florida 32810 Office: 407-804-1000
E-mail: [email protected]
Web: http://www.laserphotonics.com