Company Filing History:
Years Active: 2004
Title: The Innovations of Robert Dean Scurlock
Introduction
Robert Dean Scurlock is an accomplished inventor based in Johnstown, Ohio. He is known for his significant contributions to the field of machining materials. His innovative work has led to the development of a unique sintered compact that is particularly useful in machining chemically reactive materials.
Latest Patents
Scurlock holds a patent for a sintered cubic boron nitride (cBN) compact designed for use in tools. This compact is composed of between about 60 and 80 vol-% cBN, with a volumetric mean particle size ranging from about 3 to 6 micrometers. Additionally, it contains between about 40 and 20 vol-% of a ceramic binder phase. The ceramic binder consists of between about 20 and 60 vol-% of one or more carbides, nitrides, or borides of a Group IVB or VIB metal, and between about 40 and 80 vol-% of one or more carbides, nitrides, borides, or oxides of aluminum. The cBN compact also includes between about 3 and 15 wt-% tungsten, making it especially effective for machining iron and similar chemically reactive parts, particularly those that are powder metal parts. Scurlock has been granted 1 patent for this innovative technology.
Career Highlights
Scurlock has made significant strides in his career, particularly through his work at Diamond Innovations, Inc. His expertise in materials science and engineering has positioned him as a key player in the development of advanced machining tools. His innovative approaches have contributed to the efficiency and effectiveness of machining processes in various industries.
Collaborations
One of Scurlock's notable collaborations is with his coworker, Stephen Lee Dole. Together, they have worked on projects that push the boundaries of material applications in machining.
Conclusion
Robert Dean Scurlock's contributions to the field of machining materials through his innovative patent demonstrate his commitment to advancing technology. His work continues to influence the industry and improve machining processes.