Location History:
- Shinjuku, JP (1987)
- Tokyo, JP (1994)
Company Filing History:
Years Active: 1987-1994
Title: Etsuji Natori: Innovator in Weathering Test Methods
Introduction
Etsuji Natori is a notable inventor based in Tokyo, Japan, recognized for his contributions to the field of weathering test methodologies. With a total of two patents to his name, Natori has made significant advances that enhance the assessment of material durability under various environmental conditions.
Latest Patents
Natori’s latest patents include a novel weathering test method and a light fastness/weather resistance accelerated test machine. The weathering test method incorporates a unique sample holder designed with metal coils that adapt to temperature changes and apply varying forces to samples. This method assesses the weather-fastness resistance of materials by exposing them to light, air, and rain while undergoing repeated tension and stress. The light fastness/weather resistance accelerated test apparatus features a sophisticated design that includes a rotating sample frame, temperature sensors, and an air flow regulation system to simulate real environmental conditions rigorously.
Career Highlights
Throughout his career, Etsuji Natori has been instrumental in developing testing methods that ensure material resilience. His affiliation with Suga Test Instruments Co., Ltd. has allowed him to collaborate closely with teams dedicated to advancing testing technology.
Collaborations
Natori has worked alongside colleagues such as Shigeru Suga and Shigeo Suga, contributing to innovative projects that push the boundaries of material testing. Their collective expertise has fostered a productive environment that encourages the exploration of advanced methodologies in weather resistance testing.
Conclusion
Etsuji Natori's inventive work in weathering tests exemplifies the intersection of creativity and scientific inquiry. Through his patents, he has significantly contributed to the understanding of how materials respond to environmental factors, ultimately leading to more durable and reliable products. His ongoing collaboration with esteemed colleagues continues to inspire future innovations in the field.