ProfessorsProfessors of Johns Hopkins UniversityTim Weihs

Tim Weihs

Johns Hopkins University

H-index: 60

North America-United States

About Tim Weihs

Tim Weihs, With an exceptional h-index of 60 and a recent h-index of 33 (since 2020), a distinguished researcher at Johns Hopkins University, specializes in the field of Reactive Materials, Structural Materials, Architected Materials, Materials Processing.

His recent articles reflect a diverse array of research interests and contributions to the field:

High-throughput quantification of dynamic and spall strength of materials across ten orders of strain rates

Identifying a combination of intermetallic and thermite reactions that result in a non-expanding compact

Impact of Thermo-Mechanical Processing on Structure–Property Relationships for the Biodegradable ZX10 Mg Alloy

Machine Learning-guided accelerated discovery of structure-property correlations in lean magnesium alloys for biomedical applications

The effect of dual thermomechanical processing paths on resulting microstructure and quasi-static mechanical properties of Mg-1Zn-0.2 Ca

Snapshot hyperspectral imager for emission and reactions (shear)

Effect of composition and process control agents on the microstructure and ignition properties of ball-milled Al-Zr powders

Comparing the ignition and combustion characteristics of ball-milled Al-based composites with Ti, Zr, and Mg additives

Tim Weihs Information

University	Johns Hopkins University
Position	Professor of Materials Science and Engineering
Citations(all)	14284
Citations(since 2020)	3934
Cited By	11842
hIndex(all)	60
hIndex(since 2020)	33
i10Index(all)	207
i10Index(since 2020)	122
Email	Access Email
University Profile Page	Johns Hopkins University
Google Scholar	View Google Scholar Profile

Tim Weihs Skills & Research Interests

Reactive Materials

Structural Materials

Architected Materials

Materials Processing

Top articles of Tim Weihs

Title	Journal	Author(s)	Publication Date
High-throughput quantification of dynamic and spall strength of materials across ten orders of strain rates	PNAS Nexus	Suhas Eswarappa Prameela Christopher C Walker Christopher S DiMarco Debjoy D Mallick Xingsheng Sun ...	2024/4/5
Identifying a combination of intermetallic and thermite reactions that result in a non-expanding compact	Combustion and Flame	Amee L Polk Steven W Dean Michael R Flickinger A Chintersingh Kerri-lee Dakota G Scott ...	2024/4/1
Impact of Thermo-Mechanical Processing on Structure–Property Relationships for the Biodegradable ZX10 Mg Alloy		Sreenivas Raguraman Ryan McGovern Andrew Kim Veronica Ivanovskaya Tram Nguyen ...	2024/2
Machine Learning-guided accelerated discovery of structure-property correlations in lean magnesium alloys for biomedical applications	arXiv preprint arXiv:2404.13022	Sreenivas Raguraman Maitreyee Sharma Priyadarshini Tram Nguyen Ryan McGovern Andrew Kim ...	2024/4/19
The effect of dual thermomechanical processing paths on resulting microstructure and quasi-static mechanical properties of Mg-1Zn-0.2 Ca	Materials Science and Engineering: A	Jenna N Krynicki Zhigang Xu Laszlo J Kecskes Timothy P Weihs	2023/9/6
Snapshot hyperspectral imager for emission and reactions (shear)			2023/2/16
Effect of composition and process control agents on the microstructure and ignition properties of ball-milled Al-Zr powders	Powder Technology	Amee L Polk A Chintersingh Kerri-lee Michael R Flickinger Erica R Valdes Warren L Gardner ...	2023/9/1
Comparing the ignition and combustion characteristics of ball-milled Al-based composites with Ti, Zr, and Mg additives	Journal of Energetic Materials	Elliot R Wainwright Monica Inouye Michelle Niu Kerri-Lee Chintersingh Timothy P Weihs	2023/1/2
Melt pool boundaries in additively manufactured AlSi10Mg: Correlating inhomogeneous deformation with local microstructure via in-situ microtensile tests	Materials Science and Engineering: A	John Fite Suhas Eswarappa Prameela John Slotwinski Timothy P Weihs	2023/8/24
Leveraging high heating rates to attain desirable reaction products in Al/Zr/C nanocomposites	Materials & Design	Shane Q Arlington Tobias Neuhauser Markus Short Karsten Woll David A LaVan ...	2023/1/1
Dynamic and quasi-static mechanical behavior of 3D metallic woven lattices	Materials & Design	Ju Xue Hak Yong Lee Kevin J Hemker James K Guest Timothy P Weihs	2023/6/1
Method of depositing nanotwinned nickel-molybdenum-tungsten alloys			2023/12/26
The interplay between solute atoms and vacancy clusters in magnesium alloys	Acta Materialia	Peng Yi Taisuke T Sasaki Suhas Eswarappa Prameela Timothy P Weihs Michael L Falk	2023/5/1
Enhanced mechanical properties by eutectic cells in AlSi10Mg-A promising paradigm for strengthening aluminum in additive manufacturing	Materials Characterization	John Fite Suhas Eswarappa Prameela John Slotwinski Timothy P Weihs	2023/10/1
Spall failure of ecae mg-al alloys at extreme strain rates: Influence of a refined precipitate and grain microstructure	Metals	Christopher S DiMarco Peter Lim Debjoy Mallick Laszlo Kecskes Timothy P Weihs ...	2023/2/22
Magnesium alloy design: Examples from the Materials in Extreme Dynamic Environments Metals Collaborative Research Group	Mechanics of Materials	Todd C Hufnagel Jeffrey T Lloyd Timothy P Weihs Laszlo J Kecskes Tomoko Sano	2022/2/1
Combining complex flow manifold with three dimensional woven lattices as a thermal management unit			2022/10/25
Exothermic formation reactions as local heat sources		Shane Q Arlington Gregory M Fritz Timothy P Weihs	2022/7/1
A biodegradable 3D woven magnesium-based scaffold for orthopedic implants	Biofabrication	Ju Xue Srujan Singh Yuxiao Zhou Alexander Perdomo-Pantoja Ye Tian ...	2022/6/13
Strengthening magnesium by design: Integrating alloying and dynamic processing	Mechanics of Materials	Suhas Eswarappa Prameela Peng Yi Yannick Hollenweger Burigede Liu Joey Chen ...	2022/4/1