James B, Briant P, Fatigue Design and Validation for Medical Device: What We Learned from Portico.
#Brad james crack
James B, Hudgins A, Fracture mechanics and crack management for natural gas operators, American Gas Association Fall Operators Meeting, Nashville TN, September 13, 2016.
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James B, Fire-cracking of lead-free brasses for use in water, oil and gas applications, IMECA Spring Meeting, April 21, 2018.īirringer R., Hudgins A, James B, Case Study of a Natural Pipeline Explosion Caused by a Combination of Manufacturing Defects and Environmental Factors, Materials Science and Technology Conference, Salt Lake City, UT, October 24, 2016. Nirankari V, James B, Van Der Schjiff, Grooving corrosion: differentiating weld defects from corrosion failure, Materials Science and Technology Conference, Columbus OH, October 17, 2018.īowers M, James B, Case studies on sterilization-induced failures in metallic medical devices, Materials Science and Technology Conference, Columbus OH, October 17, 2018. James B, Stevenson K, Bowers M, The metallurgy of fire cause-and-origin analysis, Materials Science and Technology Conference, Columbus OH, October 18, 2018. Presentations, Seminars, and Published Abstracts Proceedings, Pressure Vessels and Piping Conference, ASME-PVP Vol. Low cycle fatigue crack initiation in SA-210 A1 carbon steel boiler tubing in contaminated boiler water. Speich Symposium, Iron and Steel Society, pp. Effects of tempering and residual element content on mechanical properties of 5160H steel. Interactive effects of phosphorus and tin on carbide evolution and fatigue and fracture properties in 5160 steel. Journal of Pressure Vessel Technology 1994 116:317–324. An experimental study on the effects of compressive stress on the fatigue crack growth of low-alloy steel. 38th Mechanical Working and Steel Processing Conference, Vol. Interactive effects of phosphorus and tin on carbide evolution and fatigue properties of 5160 Steel.
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Proceedings, International Conference on Shape Memory and Superelastic Technologies, SMST Society, pp. Proceedings, International Conference on Shape Memory and Superelastic Technologies, ASM International, pp. Compressive damage-induced cracking in nitinol. James B, Wood L, Murray S, Eiselstein L, Foulds J. Medical device failures-Can we learn from our mistakes? Proceedings, Materials & Processes for Medical Devices Conference, ASM International, pp. Paul, MN, August 2004.Įiselstein L, James B. ASM International Journal of Failure Analysis and Prevention 2005 5(5):82–87 Materials and Processes for Medical Devices, ASM International, pp. Failure analysis of NiTi wires used in medical applications. ASM Symposium on Materials and Processes for Medical Devices, ASM International, pp. Review of fatigue and fracture behavior of nitinol. Journal of Failure Analysis and Prevention 2008 8(3):223–230.Įiselstein L, Sire R, James B. Determination of the failure mode and the rupture pressure in a mechanically damaged pipeline. Materials and Processes for Medical Devices, ASM International, Minneapolis MN, August 2009.
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The effects of heat treatment, surface condition and strain on nickel-leaching rates and corrosion performance in nitinol wires. Biomaterials 2010 31:181–186.įasching A, Kuş E, James B, Bhargava Y, Eiselstein L. Fatigue-life assessment and validation techniques for metallic vascular implants. Journal of Failure Analysis and Prevention 2010 10(3):223–227. Ultrasonic cleaning-induced failures in medical devices. James B, McVeigh C, Rosenbloom S, Guyer E, Lieberman S. Journal of Failure Analysis and Prevention 2011 11:193–196. James' investigations is the application of metallurgical, materials science, and engineering mechanics fundamentals to help understand and solve complex problems. James has special interest in fractography, fracture mechanics, wear, corrosion, embrittlement phenomena, microstructural development, heat treatment, material selection, and welding and joining. James also helps clients from various industries prevent failures, assess the integrity of their designs or equipment, as well as interact with governmental agencies. James has conducted thousands of failure analysis investigations on widely varying engineering structures, ranging from miniscule medical devices to power-plant components. In his many years of engineering experience, Dr. His specific expertise includes metallurgy, materials science, fracture, fatigue, material degradation, corrosion, life prediction, and design.
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James specializes in failure analysis, failure prevention, and integrity assessment of engineering structures and components.