Citations (59)
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Petr Haušild. (2021) On the breakdown of the Nix-Gao model for indentation size effect. Philosophical Magazine 101:4, pages 420-434.
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A. Kareer, X. D. Hou, N. M. Jennett & S. V. Hainsworth. (2016) The interaction between Lateral size effect and grain size when scratching polycrystalline copper using a Berkovich indenter. Philosophical Magazine 96:32-34, pages 3414-3429.
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A. Kareer, X.D. Hou, N.M. Jennett & S.V. Hainsworth. (2016) The existence of a lateral size effect and the relationship between indentation and scratch hardness in copper. Philosophical Magazine 96:32-34, pages 3396-3413.
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Michael R. Maughan & David F. Bahr. (2015) Dislocation Activity Under Nanoscale Contacts Prior to Discontinuous Yield. Materials Research Letters 3:1, pages 58-64.
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B D Beake, A J Harris & T W Liskiewicz. (2013) Review of recent progress in nanoscratch testing. Tribology - Materials, Surfaces & Interfaces 7:2, pages 87-96.
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Dabiao Liu, Yuming He & Bo Zhang. (2013) Towards a further understanding of dislocation pileups in the presence of stress gradients. Philosophical Magazine 93:18, pages 2340-2362.
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RashidK. Abu Al-Rub & Abu
N. M. Faruk. (2012) Prediction of Micro and Nano Indentation Size Effects from Spherical Indenters. Mechanics of Advanced Materials and Structures 19:1-3, pages 119-128.
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T. T. Zhu, A. J. Bushby & D. J. Dunstan. (2008) Materials mechanical size effects: a review. Materials Technology 23:4, pages 193-209.
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Articles from other publishers (51)
Renato Pero, Nicholas Randall, Damian Frey, Remo N. Widmer, Tim Darby, Lee Aucott, Chris Hardie, Sunil Pak, Philippe Maquet & Andrew Bushby. (2023) Stress-strain curve mapping by nanoindentation – a technique to qualify diffusion-bonded window assemblies for ITER. Fusion Engineering and Design 196, pages 113977.
Crossref
Crossref
Diana Avadanii, Anna Kareer, Lars Hansen & Angus Wilkinson. (2023) Calibration and data-analysis routines for nanoindentation with spherical tips. Journal of Materials Research 38:17, pages 4042-4056.
Crossref
Crossref
Ping Zhou, Fei Shuang & Rong-Hao Shi. (2023) Distinct nucleation and propagation of prismatic dislocation loop arrays in Ni and medium-entropy CrCoNi alloy: Insights from molecular dynamics simulations. Materials Today Communications 36, pages 106791.
Crossref
Crossref
Wenjing Lou, Lin Cheng, Runsheng Wang, Chengyang Hu & Kaiming Wu. (2023) Atomistic Investigation of the Influence of Hydrogen on Mechanical Response during Nanoindentation in Pure Iron. Acta Metallurgica Sinica (English Letters) 36:7, pages 1179-1192.
Crossref
Crossref
S.I. Okocha, F. Yu, P.Y.B. Jar & M.T. Hendry. (2023) Indentation Testing Method for Determining Mechanical Properties and Tensile Flow Curve of High-Strength Rail Steels. Experimental Mechanics 63:5, pages 839-852.
Crossref
Crossref
Harita Seekala, Lavakumar Bathini, Nitin P. Wasekar, Hariharan Krishnaswamy & P. Sudharshan Phani. (2023) A unified approach to quantify the material and geometrical effects in indentation size effect. Journal of Materials Research 38:6, pages 1740-1755.
Crossref
Crossref
Ben D. Beake. 2023. Fretting Wear and Fretting Fatigue. Fretting Wear and Fretting Fatigue
201
227
.
Peng Jin, Tie-Long Shen, Jing Li, Yu-Shan Yang, Jian-Long Chai, Ya-Bin Zhu, Ming-Huan Cui, Chao Liu, Tong-Min Zhang, Long Kang, Jun Li, Jin-Yu Li, Shuo-Xue Jin, Xing-Zhong Cao & Zhi-Guang Wang. (2022) Spherical nanoindentation stress–strain responses of SIMP steel to synergistic effects of irradiation by H and He ions. Nuclear Science and Techniques 33:6.
Crossref
Crossref
Yanyan Huang, Yucun Zhan, Xiaowu Luo, Jiankun Xiong, Jianping Yang, Guijun Mao, Lin Yang & Fuheng Nie. (2022) Creep deformation and rupture behavior of 10Cr-3Co-2W heat-resistant steel weldments in ultra supercritical power units. Engineering Failure Analysis 133, pages 105984.
Crossref
Crossref
Jiahao Cheng, Ryan Lane, Michael S. Kesler, Jamieson Brechtl, Xiaohua Hu, Reza Mirzaeifar, Orlando Rios, Ayyoub M. Momen & Kashif Nawaz. (2021) Experiment and non-local crystal plasticity finite element study of nanoindentation on Al-8Ce-10Mg alloy. International Journal of Solids and Structures 233, pages 111233.
Crossref
Crossref
Ta-Te Chen, Ikumu Watanabe & Tatsuya Funazuka. (2021) Characterization of the Strain-Rate-Dependent Plasticity of Alloys Using Instrumented Indentation Tests. Crystals 11:11, pages 1316.
Crossref
Crossref
Javier Varillas, Jan Očenášek, Jordi Torner & Jorge Alcalá. (2021) Understanding imprint formation, plastic instabilities and hardness evolutions in FCC, BCC and HCP metal surfaces. Acta Materialia 217, pages 117122.
Crossref
Crossref
Hoang-Thien Luu, Sa-Ly Dang, Truong-Vinh Hoang & Nina Gunkelmann. (2021) Molecular dynamics simulation of nanoindentation in Al and Fe: On the influence of system characteristics. Applied Surface Science 551, pages 149221.
Crossref
Crossref
V.S. Kathavate, B. Praveen Kumar, I. Singh & K. Eswar Prasad. (2021) Analysis of indentation size effect (ISE) in nanoindentation hardness in polycrystalline PMN-PT piezoceramics with different domain configurations. Ceramics International 47:9, pages 11870-11877.
Crossref
Crossref
V. S. Kathavate, H. Sonagara, B. Praveen Kumar, I. Singh & K. Eswar Prasad. (2021) Role of domain configurations on the mechanistic modelling of indentation size effects (ISE) in nanohardness of hard and soft PZT piezoceramics. International Journal of Advances in Engineering Sciences and Applied Mathematics 13:1, pages 63-78.
Crossref
Crossref
Ehsan Javaheri, Verdiana Kumala, Alireza Javaheri, Reza Rawassizadeh, Janot Lubritz, Benjamin Graf & Michael Rethmeier. (2020) Quantifying Mechanical Properties of Automotive Steels with Deep Learning Based Computer Vision Algorithms. Metals 10:2, pages 163.
Crossref
Crossref
Andrey A. Udalov, Aleksander V. Udalov & Sergey V. Parshin. (2020) Indentation Size Effect during Measuring the Hardness of Materials by Spherical Indenter. Solid State Phenomena 299, pages 1172-1177.
Crossref
Crossref
V M Matyunin, Nuha Abusaif & A Yu Marchenkov. (2019) Analysis of the indentation size effect on the hardness measurements of materials. Journal of Physics: Conference Series 1399:4, pages 044016.
Crossref
Crossref
Xiazi Xiao, Dmitry Terentyev & Long Yu. (2019) Model for the spherical indentation stress-strain relationships of ion-irradiated materials. Journal of the Mechanics and Physics of Solids 132, pages 103694.
Crossref
Crossref
G. Ananthakrishna & Srikanth K. (2019) Dislocation mechanism based model for Portevin–Le Chatelier like instability in microindentation of dilute alloys. Physical Review B 100:6.
Crossref
Crossref
Stanisław Kucharski & Stefania Woźniacka. (2019) Size Effect in Single Crystal Copper Examined with Spherical Indenters. Metallurgical and Materials Transactions A 50:5, pages 2139-2154.
Crossref
Crossref
Ronald W. Armstrong & Wayne L. Elban. (2019) Exceptional crystal strain hardening determined over macro- to micro- to nano-size scales in continuous spherical indentation tests. Materials Science and Engineering: A 757, pages 95-100.
Crossref
Crossref
Andrei Udalov, Sergei Parshin & Aleksandr Udalov. (2019) Indentation size effect during measuring the hardness of materials by pyramidal indenter. Materials Today: Proceedings 19, pages 2034-2036.
Crossref
Crossref
George Z. Voyiadjis & Mohammadreza Yaghoobi. 2019. Size Effects in Plasticity. Size Effects in Plasticity
275
355
.
A Schiavi, C Origlia, A Cackett, C Hardie, D Signore, O Petrella & A Germak. (2018) Comparison between tensile properties and indentation properties measured with various shapes indenters of Copper-Chromium-Zirconium alloy at macroscale level. Journal of Physics: Conference Series 1065, pages 062010.
Crossref
Crossref
Young-Cheon Kim, Eun-Ji Gwak, Seung-min Ahn, Na-Ri Kang, Heung Nam Han, Jae-il Jang & Ju-Young Kim. (2018) Indentation size effect for spherical nanoindentation on nanoporous gold. Scripta Materialia 143, pages 10-14.
Crossref
Crossref
George Voyiadjis & Mohammadreza Yaghoobi. (2017) Review of Nanoindentation Size Effect: Experiments and Atomistic Simulation. Crystals 7:10, pages 321.
Crossref
Crossref
X Chen, I A Ashcroft, R D Wildman & C J Tuck. (2017) A combined inverse finite element – elastoplastic modelling method to simulate the size-effect in nanoindentation and characterise materials from the nano to micro-scale. International Journal of Solids and Structures 104-105, pages 25-34.
Crossref
Crossref
Zhangwei Chen, Xin Wang, Alan Atkinson & Nigel Brandon. (2016) Spherical indentation of porous ceramics: Elasticity and hardness. Journal of the European Ceramic Society 36:6, pages 1435-1445.
Crossref
Crossref
Zhanrui Zhang, Xingxing Jiang, Guoqiang Feng, Zheshuai Lin, Bing Hu & Wei Li. (2016) Mechanical properties and negative thermal expansion of a dense rare earth formate framework. Journal of Solid State Chemistry 233, pages 289-293.
Crossref
Crossref
Shijing SunSebastian Henke, Michael T. WharmbyHamish H.-M. Yeung, Wei Li & Anthony K. Cheetham. (2015) Mechanical Properties of a Calcium Dietary Supplement, Calcium Fumarate Trihydrate. Inorganic Chemistry 54:23, pages 11186-11192.
Crossref
Crossref
Mohamed Hussein, Abdul Mohammed & Naser Al-Aqeeli. (2015) Wear Characteristics of Metallic Biomaterials: A Review. Materials 8:5, pages 2749-2768.
Crossref
Crossref
J. Alcalá, D. Esqué-de los Ojos & J. Očenášek. (2015) Extracting uniaxial responses of single crystals from sharp and spherical hardness measurements. Mechanics of Materials 84, pages 100-113.
Crossref
Crossref
Radim Ctvrtlik & Jan Tomastik. (2014) Wear of Human Enamel and Dentin. Key Engineering Materials 606, pages 129-132.
Crossref
Crossref
Radim Ctvrtlik & Jan Tomastik. (2013) Wear Behavior of Hard Dental Tissues and Restorative Materials. Applied Mechanics and Materials 486, pages 72-77.
Crossref
Crossref
Jaroslav Menčík & Martin Elstner. (2013) Indentation Size Effects in Ductile and Brittle Materials. Key Engineering Materials 586, pages 51-54.
Crossref
Crossref
Xiaodong Hou, Nigel M Jennett & Magdalena Parlinska-Wojtan. (2013) Exploiting interactions between structure size and indentation size effects to determine the characteristic dimension of nano-structured materials by indentation. Journal of Physics D: Applied Physics 46:26, pages 265301.
Crossref
Crossref
B.D. Beake & T.W. Liskiewicz. (2013) Comparison of nano-f`retting and nano-scratch tests on biomedical materials. Tribology International 63, pages 123-131.
Crossref
Crossref
Xiaodong Hou & Nigel M. Jennett. (2012) Application of a modified slip-distance theory to the indentation of single-crystal and polycrystalline copper to model the interactions between indentation size and structure size effects. Acta Materialia 60:10, pages 4128-4135.
Crossref
Crossref
J. Alcalá & D. Esqué-de los Ojos. (2012) Toward the development of continuum single-crystal contact mechanics analyses to microindentation experiments. Computational Materials Science 52:1, pages 14-19.
Crossref
Crossref
E. Harsono, S. Swaddiwudhipong, Z.S. Liu & L. Shen. (2011) Numerical and experimental indentation tests considering size effects. International Journal of Solids and Structures 48:6, pages 972-978.
Crossref
Crossref
X D Hou, A J Bushby & N M Jennett. (2010) Direct measurement of surface shape for validation of indentation deformation and plasticity length-scale effects: a comparison of methods. Measurement Science and Technology 21:11, pages 115105.
Crossref
Crossref
D.A. Lucca, K. Herrmann & M.J. Klopfstein. (2010) Nanoindentation: Measuring methods and applications. CIRP Annals 59:2, pages 803-819.
Crossref
Crossref
N. M. Jennett, R. Ghisleni & J. Michler. (2009) Enhanced yield strength of materials: The thinness effect. Applied Physics Letters 95:12.
Crossref
Crossref
Byoung-Wook Choi, Dong-Han Seo, Jang-Yong Yoo & Jae-il Jang. (2011) Predicting macroscopic plastic flow of high-performance, dual-phase steel through spherical nanoindentation on each microphase. Journal of Materials Research 24:3, pages 816-822.
Crossref
Crossref
A.J. Bushby, T.T. Zhu & D.J. Dunstan. (2011) Slip distance model for the indentation size effect at the initiation of plasticity in ceramics and metals. Journal of Materials Research 24:3, pages 966-972.
Crossref
Crossref
Marcel Lucas, Ken Gall & Elisa Riedo. (2008) Tip size effects on atomic force microscopy nanoindentation of a gold single crystal. Journal of Applied Physics 104:11.
Crossref
Crossref
X D Hou, A J Bushby & N M Jennett. (2008) Study of the interaction between the indentation size effect and Hall–Petch effect with spherical indenters on annealed polycrystalline copper. Journal of Physics D: Applied Physics 41:7, pages 074006.
Crossref
Crossref
Karsten Durst, Mathias Göken & George M Pharr. (2008) Indentation size effect in spherical and pyramidal indentations. Journal of Physics D: Applied Physics 41:7, pages 074005.
Crossref
Crossref
XiaoDong Hou, T.T. Zhu, N. M. Jennett & A. J. Bushby. (2011) The Identation Size Effect and Hall-Petch Behaviour of Annealed Polycrystalline Copper. MRS Proceedings 976.
Crossref
Crossref
Tingting Zhu, X.D. Hou, C. J. Walker, K. M.Y. P'ng, D. J. Dunstan & A. J. Bushby. (2011) Size Effect in the Initiation of Plasticity for Ceramics in Nanoscale Contact Loading. MRS Proceedings 976.
Crossref
Crossref