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For the Inventor, By the Inventor

Tempe, AZ, United States of America

Deanna Pinar Chase

USPTO Granted Patents = 10

 

Average Co-Inventor Count = 5.1

ph-index = 4

Forward Citations = 46(Granted Patents)


Company Filing History:

goldMedal10 out of 15,608 
 
Honeywell International Inc.
 patents

Years Active: 2017-2022

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10 patents (USPTO):Explore Patents
1. 11305348 - Methods for producing gas turbine engine rotors and other powdered metal articles having shaped internal cavities (2022-04-19),
2. 10807166 - Methods for producing gas turbine engine rotors and other powdered metal articles having shaped internal cavities (2020-10-20),
3. 10260355 - Diverging-converging cooling passage for a turbine blade (2019-04-16),
4. 10040122 - Methods for producing gas turbine engine rotors and other powdered metal articles having shaped internal cavities (2018-08-07),
5. 10036254 - Dual alloy bladed rotors suitable for usage in gas turbine engines and methods for the manufacture thereof (2018-07-31),
6. 10030542 - Compliant coupling systems and methods for shrouds (2018-07-24),
7. 9902499 - Human factors approach to control contaminant concentrations in aircraft supply air from engine and APU bleed air and ground air sources, and in recirculated air being delivered to aircraft cabins for the optimization of user experience and energy consumption (2018-02-27),
8. 9896215 - Human factors approach to control contaminant concentrations in aircraft supply air from engine and APU bleed air and ground air sources, and in recirculated air being delivered to aircraft cabins for the optimization of user experience and energy consumption (2018-02-20),
9. 9884281 - Method to use ultrafine particulate matter detection and measurement to control air supply system contaminant delivery to the aircraft cabin environment (2018-02-06),
10. 9776725 - Human factors approach to control contaminant concentrations in aircraft supply air from engine and APU bleed air and ground air sources, and in recirculated air being delivered to aircraft cabins for the optimization of user experience and energy consumption (2017-10-03),

Title: Discovering the Innovations of Deanna Pinar Chase

Introduction

Deanna Pinar Chase is a prominent inventor based in Tempe, AZ, holding an impressive portfolio of 10 patents. Her groundbreaking work primarily focuses on advancements in the production of gas turbine engine rotors and powdered metal articles, showcasing her expertise in material engineering and innovative manufacturing techniques.

Latest Patents

Among her recent inventions is a patented method for producing gas turbine engine rotors and other powdered metal articles featuring shaped internal cavities. This innovative method entails consolidating a powdered metal body through a hot isostatic pressing process, which leads to the creation of a rotor preform embedded with elongated sacrificial tubes. By directing acid or another suitable solvent into the solvent inlet channels of these sacrificial tubes, Chase's method enables the chemical dissolution of the tubes, ultimately forming shaped cavities within the rotor preform. The rotor preform undergoes subsequent processing, including machining, to finalize the production of the gas turbine engine rotor.

Career Highlights

Deanna Pinar Chase's career is marked by her association with Honeywell International Inc., where she applies her skills and insights into innovative engineering solutions. Her ten patents reflect not only her inventiveness but also her dedication to enhancing technology in the aerospace sector.

Collaborations

Throughout her career, Chase has worked alongside esteemed colleagues, including Amandine Miner and Richard Bryce Fox. These collaborations emphasize the spirit of teamwork and innovation prevalent in the field of engineering, where diverse skills and knowledge are harnessed to push the boundaries of technology.

Conclusion

With a strong focus on the development of advanced manufacturing methods in the aerospace sector, Deanna Pinar Chase continues to make significant contributions through her innovative patents. Her work not only enhances the efficiency of gas turbine engines but also inspires future advancements in the field of engineering and technology.

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