- Ph.D., Mechanical Engineering, Massachusetts Institute of Technology (MIT), 2011
- M.S., Mechanical Engineering, Massachusetts Institute of Technology (MIT), 2005
- B.S., Mechanical Engineering, Tufts University, 2003
- Professional Engineer Mechanical, California, #37381
- Professional Engineer Mechanical, Massachusetts, #54698
- Professional Engineer, New York, #101537
- Professional Engineer Mechanical, Washington, #57196
- Tau Beta Pi
- Tufts University Mechanical Engineering Prize, 2003
- American Society of Mechanical Engineers (ASME) B5 Machine Tool Standards committee
Dr. Schrauth is a mechanical engineer with expertise in manufacturing, machine design, mechanical testing, data acquisition, dynamics, and industrial safety. He has extensive experience designing custom mechanical tests to examine mechanical properties, fatigue, wear, impact, creep, and numerous other complex phenomena.
Dr. Schrauth has performed testing for litigation and non-litigation projects across a wide range of products including: biomedical devices in preparation for FDA submissions, consumer electronics, wind turbines, electrical power turbines, exercise equipment, and many more.
Dr. Schrauth also has experience investigating the safety of engineering and industrial systems. He has performed safety evaluations on numerous engineered systems including construction equipment, manufacturing equipment, forklifts, consumer electronics, vehicular gates, ladders, high-pressure systems, and farm equipment. His safety related projects have included both review of safety systems and procedures in reaction to an incident and evaluation of systems and procedures to improve safety and avoid future incidents.
Dr. Schrauth is skilled in design for manufacturing using a variety of manufacturing methods such as: photolithography, injection molding, thermoforming, metal forming, assembly, metal cutting, and casting. He has extensive experience in a machine shop environment including the operation of manual and CNC machine tools, water jet cutting, injection molding, and thermoforming. He is proficient with a number of data analysis and acquisition software packages including Matlab and Labview for machine vision, data acquisition, robotics, data analysis and sensing.
Prior to joining Exponent, Dr. Schrauth was graduate research assistant at the Massachusetts Institute of Technology where he designed a unique anode microstructure for direct methanol fuel cells to reduce electrode ionic resistance as part of his doctoral research. In addition to his doctoral research, Dr. Schrauth designed biocompatible super-hydrophobic surfaces fabricated using SU-8 photolithography. He was also a teaching assistant for graduate thermodynamics and undergraduate manufacturing at MIT.