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Results: 1 to 20 of 114

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1.

In situ atomic-scale observation of continuous and reversible lattice deformation beyond the elastic limit.

Wang L, Liu P, Guan P, Yang M, Sun J, Cheng Y, Hirata A, Zhang Z, Ma E, Chen M, Han X.

Nat Commun. 2013;4:2413. doi: 10.1038/ncomms3413.

2.

In situ atomic-scale observation of twinning-dominated deformation in nanoscale body-centred cubic tungsten.

Wang J, Zeng Z, Weinberger CR, Zhang Z, Zhu T, Mao SX.

Nat Mater. 2015 Jun;14(6):594-600. doi: 10.1038/nmat4228. Epub 2015 Mar 9.

PMID:
25751073
3.

Deformation-induced structural transition in body-centred cubic molybdenum.

Wang SJ, Wang H, Du K, Zhang W, Sui ML, Mao SX.

Nat Commun. 2014 Mar 7;5:3433. doi: 10.1038/ncomms4433.

4.

Low-temperature in situ large strain plasticity of ceramic SiC nanowires and its atomic-scale mechanism.

Han XD, Zhang YF, Zheng K, Zhang XN, Zhang Z, Hao YJ, Guo XY, Yuan J, Wang ZL.

Nano Lett. 2007 Feb;7(2):452-7.

PMID:
17298014
5.

Reversible cyclic deformation mechanism of gold nanowires by twinning-detwinning transition evidenced from in situ TEM.

Lee S, Im J, Yoo Y, Bitzek E, Kiener D, Richter G, Kim B, Oh SH.

Nat Commun. 2014;5:3033. doi: 10.1038/ncomms4033.

PMID:
24398783
6.

Strong Hall-Petch Type Behavior in the Elastic Strain Limit of Nanotwinned Gold Nanowires.

Wang J, Sansoz F, Deng C, Xu G, Han G, Mao SX.

Nano Lett. 2015 Jun 10;15(6):3865-70. doi: 10.1021/acs.nanolett.5b00694. Epub 2015 May 12.

PMID:
25950984
7.

Direct atomic-scale imaging about the mechanisms of ultralarge bent straining in Si nanowires.

Wang L, Zheng K, Zhang Z, Han X.

Nano Lett. 2011 Jun 8;11(6):2382-5. doi: 10.1021/nl200735p. Epub 2011 May 5.

PMID:
21545162
8.

In situ atomic scale mechanical microscopy discovering the atomistic mechanisms of plasticity in nano-single crystals and grain rotation in polycrystalline metals.

Han X, Wang L, Yue Y, Zhang Z.

Ultramicroscopy. 2015 Apr;151:94-100. doi: 10.1016/j.ultramic.2014.11.035. Epub 2014 Dec 15.

9.
10.

Discrete plasticity in sub-10-nm-sized gold crystals.

Zheng H, Cao A, Weinberger CR, Huang JY, Du K, Wang J, Ma Y, Xia Y, Mao SX.

Nat Commun. 2010;1:144. doi: 10.1038/ncomms1149.

11.

Ambient-stable tetragonal phase in silver nanostructures.

Sun Y, Ren Y, Liu Y, Wen J, Okasinski JS, Miller DJ.

Nat Commun. 2012 Jul 24;3:971. doi: 10.1038/ncomms1963.

PMID:
22828631
12.

Approaching the theoretical elastic strain limit in copper nanowires.

Yue Y, Liu P, Zhang Z, Han X, Ma E.

Nano Lett. 2011 Aug 10;11(8):3151-5. doi: 10.1021/nl201233u. Epub 2011 Jul 22.

PMID:
21766832
13.

Reversible twinning in pure aluminum.

Li BQ, Sui ML, Li B, Ma E, Mao SX.

Phys Rev Lett. 2009 May 22;102(20):205504. Epub 2009 May 20.

PMID:
19519041
14.

Atomic-scale dynamic process of deformation-induced stacking fault tetrahedra in gold nanocrystals.

Wang JW, Narayanan S, Huang JY, Zhang Z, Zhu T, Mao SX.

Nat Commun. 2013;4:2340. doi: 10.1038/ncomms3340.

PMID:
23945977
15.

A method for determining void arrangements in inverse opals.

Blanford CF, Carter CB, Stein A.

J Microsc. 2004 Dec;216(Pt 3):263-87.

PMID:
15566498
16.

Shock deformation of face-centred-cubic metals on subnanosecond timescales.

Bringa EM, Rosolankova K, Rudd RE, Remington BA, Wark JS, Duchaineau M, Kalantar DH, Hawreliak J, Belak J.

Nat Mater. 2006 Oct;5(10):805-9. Epub 2006 Sep 17.

PMID:
16980954
17.

Atomic-scale configurations of synchroshear-induced deformation twins in the ionic MnS crystal.

Zhou YT, Xue YB, Chen D, Wang YJ, Zhang B, Ma XL.

Sci Rep. 2014 May 30;4:5118. doi: 10.1038/srep05118.

18.

Locality and rapidity of the ultra-large elastic deformation of Nb nanowires in a NiTi phase-transforming matrix.

Wang S, Cui L, Hao S, Jiang D, Liu Y, Liu Z, Mao S, Han X, Ren Y.

Sci Rep. 2014 Oct 24;4:6753. doi: 10.1038/srep06753.

19.

A new view of the onset of plasticity during the nanoindentation of aluminium.

Minor AM, Asif SA, Shan Z, Stach EA, Cyrankowski E, Wyrobek TJ, Warren OL.

Nat Mater. 2006 Sep;5(9):697-702. Epub 2006 Aug 13.

PMID:
16906139
20.

High-temperature dislocation plasticity in the single-crystal superalloy LEK94.

Kostka A, Mälzer G, Eggeler G.

J Microsc. 2006 Sep;223(Pt 3):295-7.

PMID:
17059555
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