Institution
Texas A&M University
Education•College Station, Texas, United States•
About: Texas A&M University is a education organization based out in College Station, Texas, United States. It is known for research contribution in the topics: Population & Finite element method. The organization has 72169 authors who have published 164372 publications receiving 5764236 citations.
Papers published on a yearly basis
Papers
More filters
TL;DR: In this paper, the authors conceptualize CE strategy as a useful focal point for corporate entrepreneurship (CE) strategy, and conceptualize it as a complementary knowledge base to the general knowledge of entrepreneurship.
Abstract: Our knowledge of corporate entrepreneurship (CE) continues to expand. However, this knowledge remains quite fragmented and non–cumulative. Herein, we conceptualize CE strategy as a useful focal poi...
836 citations
TL;DR: The authors provided building-block propositions for creating useful theories of decision making by travelers via a qualitative review of the tourist decision-making literature, and described trends in developing traveler destination choice models.
834 citations
TL;DR: In this paper, the authors review the current understanding of the elastic and mechanical properties of bulk MAX phases where they differ significantly from their corresponding MX counterparts, and show that the MAX phases are relatively soft (2.8 GPa), are most readily machinable, and are damage tolerant.
Abstract: The more than 60 ternary carbides and nitrides, with the general formula Mn+1AXn—where n = 1, 2, or 3; M is an early transition metal; A is an A-group element (a subset of groups 13–16); and X is C and/or N—represent a new class of layered solids, where Mn+1Xn layers are interleaved with pure A-group element layers. The growing interest in the Mn+1AXn phases lies in their unusual, and sometimes unique, set of properties that can be traced back to their layered nature and the fact that basal dislocations multiply and are mobile at room temperature. Because of their chemical and structural similarities, the MAX phases and their corresponding MX phases share many physical and chemical properties. In this paper we review our current understanding of the elastic and mechanical properties of bulk MAX phases where they differ significantly from their MX counterparts. Elastically the MAX phases are in general quite stiff and elastically isotropic. The MAX phases are relatively soft (2–8 GPa), are most readily machinable, and are damage tolerant. Some of them are also lightweight and resistant to thermal shock, oxidation, fatigue, and creep. In addition, they behave as nonlinear elastic solids, dissipating 25% of the mechanical energy during compressive cycling loading of up to 1 GPa at room temperature. At higher temperatures, they undergo a brittle-to-plastic transition, and their mechanical behavior is a strong function of deformation rate.
832 citations
TL;DR: A review of recent theoretical and experimental works related to mechanics and mechanical properties of 2D materials can be found in this article, where the authors show that there is a continual growth of interest in the mechanics of other two-dimensional materials beyond graphene.
829 citations
TL;DR: Converging evidence across species supports the hypothesis of interactive multiple memory systems in the mammalian brain.
828 citations
Authors
Showing all 72708 results
| Name | H-index | Papers | Citations |
|---|---|---|---|
| Yi Chen | 217 | 4342 | 293080 |
| Scott M. Grundy | 187 | 841 | 231821 |
| Evan E. Eichler | 170 | 567 | 150409 |
| Yang Yang | 164 | 2704 | 144071 |
| Martin Karplus | 163 | 831 | 138492 |
| Robert Stone | 160 | 1756 | 167901 |
| Philip Cohen | 154 | 555 | 110856 |
| Claude Bouchard | 153 | 1076 | 115307 |
| Jongmin Lee | 150 | 2257 | 134772 |
| Zhenwei Yang | 150 | 956 | 109344 |
| Vivek Sharma | 150 | 3030 | 136228 |
| Frede Blaabjerg | 147 | 2161 | 112017 |
| Steven L. Salzberg | 147 | 407 | 231756 |
| Mikhail D. Lukin | 146 | 606 | 81034 |
| John F. Hartwig | 145 | 714 | 66472 |