Site icon Smallcaps Daily

Laser Photonics Receives Order for Its CleanTech Laser Blaster Technology from Baltimore Gas and Electric

Laser Photonics Participates in the 2022 DoD Maintenance Symposium cover

Orlando, FL December 6, 2022 – Laser Photonics Corporation (NASDAQ: LASE), (“LPC”), a leading global developer of Cleantech laser systems for laser cleaning and other materials applications, today announced it received an order from Baltimore Gas and Electric (BGE), in Baltimore, MD.

Wayne Tupuola, chief executive officer of Laser Photonics, commented: “Baltimore Gas and Electric commissioned Laser Photonics to provide a handheld laser cleaning system for paint removal from various tank surfaces. Our CleanTech 2000 JobSite system was a strong choice as a safe, cost-efficient, high-quality answer for this and other applications.”

CleanTech 2000-CTH JobSite

The CleanTech™ 2000-CTH JobSite is a 2000-watt handheld laser cleaning machine and surface preparation system designed to remove rust, paint and almost anything else from steel, aluminum, iron, and many more surface types. We believe that this handheld laser cleaning machine surpasses the capabilities of standard sandblasting and dry-ice blasting and eliminates dangerous chemicals, hazardous fumes, costly materials and complicated procedures and that CleanTech is the most cost-effective, efficient and safe method of industrial cleaning, rust removal, paint removal and surface preparation.

Complete the job with surgical accuracy, in minimal time, under any condition. The 2000-CTH Jobsite has five continuous wave laser patterns that provide flexibility when operating the laser in different applications across different surface types. This allows the user to quickly switch from laser cleaning to laser finishing with the press of a button. Customers can now clean rust, remove paint and other coatings, and then roughen and finish nearly any metal surface using the same handheld laser.

Cautionary Note Concerning Forward-Looking Statements

This press release contains “forward-looking statements” (within the meaning of Section 27A of the Securities Act of 1933, as amended, and Section 21E of the Securities Exchange Act of 1934, as amended), including statements regarding the Company’s plans, prospects, potential results and use of proceeds. These statements are based on current expectations as of the date of this press release and involve a number of risks and uncertainties, which may cause results and uses of proceeds to differ materially from those indicated by these forward-looking statements. These risks include, without limitation, those described under the caption “Risk Factors” in the Registration Statement. Any reader of this press release is cautioned not to place undue reliance on these forward-looking statements, which speak only as of the date of this press release. The Company undertakes no obligation to revise or update any forward-looking statements to reflect events or circumstances after the date of this press release except as required by applicable laws or regulations.

About Laser Photonics Corporation

Laser Photonics is a vertically-integrated manufacturer and R&D Center of Excellence for industrial laser technologies and systems. LPC seeks to disrupt the $46 billion, centuries old, sand and abrasives blasting markets, focusing on surface cleaning, rust removal, corrosion control, de-painting and other laser-based industrial applications. LPC’s new generation of leading-edge laser blasting technologies and equipment also addresses the numerous health, safety, environmental, and regulatory issues associated with the old methods. As a result, LPC has quickly gained a reputation as an industry leader for industrial laser systems with a brand that stands for quality, technology and product innovation. Currently, world-renowned and Fortune 1000 manufacturers in the aerospace, automotive, defense, energy, industrial, maritime, space exploration and shipbuilding industries are using LPC’s “unique-to-industry” systems. For more information, visit www.laserphotonics.com.

Exit mobile version