Hofmann, Douglas

Combined from CaltechAUTHORS

• Mohr, Markus and Hofmann, Douglas C., et el. (2021) Thermophysical Properties of an Fe_(57.75)Ni_(19.25)Mo₁₀C₅B₈ Glass‐Forming Alloy Measured in Microgravity; Advanced Engineering Materials; Vol. 23; No. 3; Art. No. 2001143; 10.1002/adem.202001143
• Celli, P. and Lamaro, A., et el. (2020) Compliant morphing structures from twisted bulk metallic glass ribbons; Journal of the Mechanics and Physics of Solids; Vol. 145; Art. No. 104129; 10.1016/j.jmps.2020.104129
• Taniker, S. and Cellia, P., et el. (2020) Temperature-induced shape morphing of bi-metallic structures; International Journal of Solids and Structures; Vol. 190; 22-32; 10.1016/j.ijsolstr.2019.10.024
• Gentile, Jonathan M. and Stauffer, Douglas D., et el. (2020) Shear Localization and its Dependence on Microstructural Length Scales in Metallic Glass Composites; Materialia; Vol. 9; Art. No. 100598; 10.1016/j.mtla.2020.100598
• Wang, Yifan and Ramirez, Brian, et el. (2019) Architected lattices with adaptive energy absorption; Extreme Mechanics Letters; Vol. 33; Art. No. 100557; 10.1016/j.eml.2019.100557
• Celli, Paolo and McMahan, Connor, et el. (2018) Shape-morphing architected sheets with non-periodic cut patterns; Soft Matter; Vol. 14; No. 48; 9744-9749; 10.1039/c8sm02082e
• Hofmann, Douglas C. and Bordeenithikasem, Punnathat, et el. (2018) Developing Processing Parameters and Characterizing Microstructure and Properties of an Additively Manufactured FeCrMoBC Metallic Glass Forming Alloy; Advanced Engineering Materials; Vol. 20; No. 10; Art. No. 1800433; 10.1002/adem.201800433
• Hofmann, Douglas C. and Andersen, Laura M., et el. (2017) Optimizing Bulk Metallic Glasses for Robust, Highly Wear-Resistant Gears; Advanced Engineering Materials; Vol. 19; No. 1; Art. No. 1600541; 10.1002/adem.201600541
• Bradford, Samuel Case and Hofmann, Douglas C., et el. (2016) Energy-Efficient Active Reflectors with Improved Mechanical Stability and Improved Thermal Performance; ISBN 978-1-62410-394-0; 3rd AIAA Spacecraft Structures Conference; Art. No. 2016-0702; 10.2514/6.2016-0702
• Hofmann, Douglas C. and Roberts, Scott N. (2015) Microgravity metal processing: from undercooled liquids to bulk metallic glasses; npj Microgravity; Vol. 1; Art. No. 15003; 10.1038/npjmgrav.2015.3
• Bradford, Samuel Case and Hofmann, Douglas C., et el. (2015) Energy-Efficient Active Reflectors with Improved Mechanical Stability; ISBN 978-1-62410-345-2; 2nd AIAA Spacecraft Structures Conference; Art. No. 2015-1400; 10.2514/6.2015-1400
• Hofmann, Douglas C. and Kolodziejska, Joanna, et el. (2014) Compositionally graded metals: A new frontier of additive manufacturing; Journal of Materials Research; Vol. 29; No. 17; 1899-1910; 10.1557/jmr.2014.208
• Homer, Eric R. and Harris, Matthew B., et el. (2014) New Methods for Developing and Manufacturing Compliant Mechanisms Utilizing Bulk Metallic Glass; Advanced Engineering Materials; Vol. 16; No. 7; 850-856; 10.1002/adem.201300566
• Hofmann, Douglas C. and Roberts, Scott, et el. (2014) Developing Gradient Metal Alloys through Radial Deposition Additive Manufacturing; Scientific Reports; Vol. 4; No. 6; Art. No. 5357; PMCID PMC4062900; 10.1038/srep05357
• Hamill, Lee and Roberts, Scott, et el. (2014) Hypervelocity Impact Phenomenon in Bulk Metallic Glasses and Composites; Advanced Engineering Materials; Vol. 16; No. 1; 85-93; 10.1002/adem.201300252
• Davidson, Marc and Roberts, Scott, et el. (2013) Investigating Amorphous Metal Composite Architectures as Spacecraft Shielding; Advanced Engineering Materials; Vol. 15; No. 1-2; 27-33; 10.1002/adem.201200313
• Kozachkov, Henry and Kolodziejska, Joanna A., et el. (2013) Study of Mushy-Zone Development in Dendritic Microstructures with Glass-Forming Eutectic Matrices Using Electrostatic Levitation; ISRN Materials Science; Vol. 2013; Art. No. 108363; 10.1155/2013/108363
• Narayan, R. L. and Singh, P. S., et el. (2012) On the microstructure–tensile property correlations in bulk metallic glass matrix composites with crystalline dendrites; Acta Materialia; Vol. 60; No. 13-14; 5089-5100; 10.1016/j.actamat.2012.06.032
• Singh, P. S. and Narayan, R. L., et el. (2012) Effect of strain rate and temperature on the plastic deformation behaviour of a bulk metallic glass composite; Materials Science and Engineering A; Vol. 534; 476-484; 10.1016/j.msea.2011.11.096
• Johnson, William L. and Kaltenboeck, Georg, et el. (2011) Beating Crystallization in Glass-Forming Metals by Millisecond Heating and Processing; Science; Vol. 332; No. 6031; 828-833; 10.1126/science.1201362
• Demetriou, Marios D. and Launey, Maximilien E., et el. (2011) A damage-tolerant glass; Nature Materials; Vol. 10; No. 2; 123-128; 10.1038/NMAT2930
• Schramm, Joseph P. and Hofmann, Douglas C., et el. (2010) Metallic-glass-matrix composite structures with benchmark mechanical performance; Applied Physics Letters; Vol. 97; No. 24; Art. No. 241910; 10.1063/1.3521412
• Narayan, R. L. and Boopathy, K., et el. (2010) On the hardness and elastic modulus of bulk metallic glass matrix composites; Scripta Materialia; Vol. 63; No. 7; 768-771; 10.1016/j.scriptamat.2010.06.010
• Demetriou, Marios D. and Wiest, Aaron, et el. (2010) Amorphous metals for hard-tissue prosthesis; JOM - Journal of the Minerals, Metals and Materials Society; Vol. 62; No. 2; 83-91; 10.1007/s11837-010-0038-2
• Boopathy, Kombaiah and Hofmann, Douglas C., et el. (2009) Near-threshold fatigue crack growth in bulk metallic glass composites; Journal of Materials Research; Vol. 24; No. 12; 3611-3619; 10.1557/JMR.2009.0439
• Hofmann, Douglas C. and Kozachkov, Henry, et el. (2009) Semi-solid induction forging of metallic glass matrix composites; JOM - Journal of the Minerals, Metals and Materials Society; Vol. 61; No. 12; 11-17; 10.1007/s11837-009-0172-x
• Demetriou, Marios D. and Kaltenboeck, Georg, et el. (2009) Glassy steel optimized for glass-forming ability and toughness; Applied Physics Letters; Vol. 95; No. 4; Art. No. 041907; 10.1063/1.3184792
• Launey, M. E. and Hofmann, D. C., et el. (2009) Fracture toughness and crack-resistance curve behavior in metallic glass-matrix composites; Applied Physics Letters; Vol. 94; No. 24; Art. No. 241910; 10.1063/1.3156026
• Launey, Maximilien E. and Hofmann, Douglas C., et el. (2009) Solution to the problem of the poor cyclic fatigue resistance of bulk metallic glasses; Proceedings of the National Academy of Sciences of the United States of America; Vol. 106; No. 13; 4986-4991; PMCID PMC2663983; 10.1073/pnas.0900740106
• Hofmann, Douglas C. and Suh, Jin-Yoo, et el. (2008) Development of tough, low-density titanium-based bulk metallic glass matrix composites with tensile ductility; Proceedings of the National Academy of Sciences of the United States of America; Vol. 105; No. 51; 20136-20140; PMCID PMC2629257; 10.1073/pnas.0809000106
• Hofmann, Douglas C. and Suh, Jin-Yoo, et el. (2008) New processing possibilities for highly toughened metallic glass matrix composites with tensile ductility; Scripta Materialia; Vol. 59; No. 7; 684-687; 10.1016/j.scriptamat.2008.05.046