Laserdyne gets orders for six laser systems
Champlin, Minn. – Proving that the commercial aircraft, defense aircraft, and land-based turbine industries are continuing to grow and rapidly modernize, PRIMA North America recently announced receipt of six Laserdyne Systems orders, worth more than $5 million, from a collection of customers worldwide.
Champlin, Minn. - Proving that the commercial aircraft, defense aircraft, and land-based turbine industries are continuing to grow and rapidly modernize, PRIMA North America recently announced receipt of six Laserdyne Systems' orders, worth more than $5 million, from a collection of customers worldwide. These orders are for the company’s production of parts for new aircraft engines and in repair of turbine engine components.
“The aerospace industry is committed to aircraft designs that are more fuel efficient, safer, quieter and have a more positive impact on the global environment,” reports Terry VanderWert, president of PRIMA North America. “The new and upgraded engine designs are key to an airline’s profitable growth. [With] increasingly new designs and maintenance of current axis laser technology, ...OEMs and tier-one aerospace suppliers are finding it necessary to invest in the best manufacturing systems available and that increasingly means repair and overhaul operations as well as the manufacture of land based turbine engines.”
The current order mix for six systems includes: an East Coast engine manufacturer; a present customer, who ordered two Laserdyne System 450s equipped with CL50k lasers; a West Coast-based tier one supplier who ordered a Laserdyne equipped with a fiber laser; and a China-based aerospace industry customer who ordered a Laserdyne System795 equipped with the CL50k laser. All of these systems will be used for new engine component manufacturing.
The sixth order is from a turbine engine component refurbishing operation that provides engine maintenance support to many of the leading land-based turbine users worldwide. Turbine engines require ongoing maintenance that includes refurbishing the thousands of cooling holes designed into every engine. The fastest, most cost-effective method for refurbishing these holes is with Laserdyne’s proprietary, high-speed laser drilling laser systems.
“This particular order is noteworthy because it is a result of a mandate to create the most modern, cost effective operation for this type of work,” reports VanderWert. “A group of turbine engine component engineers with international and multi-company backgrounds have been assembled to bring this vision to life. When an analysis of current technology was completed, Laserdyne Systems was told that there is a clear cut advantage for laser processing. With more high value components being refurbished and put back into service, there is a growing need for innovative processes to keep maintenance costs low and extend time between overhaul.
“All of these orders are important and reflect the direction of the aerospace and energy industries,” added VanderWert. “Convergent Lasers' CL50k laser, available exclusively on Laserdyne Systems equipment, was key to securing these orders because of the unique ability to systematically control hole size in both new and repaired parts, avoiding operator guesswork. At least one company has ordered a Laserdyne turnkey airflow bench and the exclusive LaserdyneFlowComp™ software. This customer will be producing parts to rigid flow requirements with direct control from the Laserdyne 795 system.”
Laserdyne customers have shown keen interest in the company's research, showing that the same system with a single laser that is used for "conventional" cylindrical holes can now being used for shaped hole production as well. Shaped holes, when used in properly designed components, result in fewer holes being required to accomplish a superior result. Fewer holes means shorter production cycle times, lower production costs, and a lower cooling air requirement. When put into practice, this results in a more efficient and cost effective engine brought about by thi shaped hole technology.
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