Advanced search
Publication Cover
Philosophical Magazine A Volume 74, 1996 - Issue 5
Journal homepage
186
Views
96
CrossRef citations to date
0
Altmetric
Original Articles

Ultra-microindentation of silicon at elevated temperatures

Takayoshi Suzuki Institute of Industrial Science, University of Tokyo, Roppongi, Minato-ku, Tokyo, 106, Japan
&
Takahito Ohmura Institute of Industrial Science, University of Tokyo, Roppongi, Minato-ku, Tokyo, 106, Japan
Pages 1073-1084 | Received 22 Apr 1996, Published online: 27 Sep 2006

Citations (96)

Keep up to date with the latest research on this topic with citation updates for this article.

Subscribe to citation updates

Read on this site (10)

Liangchi Zhang & Animesh Basak. (2013) Quantitative prediction of phase transformations in silicon during nanoindentation. Philosophical Magazine Letters 93:8, pages 448-456.
Read now
N.M. Everitt, M.I. Davies & J.F. Smith. (2011) High temperature nanoindentation – the importance of isothermal contact. Philosophical Magazine 91:7-9, pages 1221-1244.
Read now
G. Patriarche , L. Largeau, J. P. Riviere & E. Le Bourhis. (2005) Indentation deformation of thin {111} GaAs and InSb foils: influence of polarity. Philosophical Magazine Letters 85:1, pages 1-12.
Read now
G. Patriarche , L. Largeau, J. P. Rivière & E. Le Bourhis. (2004) Vickers indentation of thin GaAs (001) samples. Philosophical Magazine 84:30, pages 3281-3298.
Read now
E. Le Bourhis & G. Patriarche. (2003) Effects of annealing on structure of GaAs(001) nanoindentations. Philosophical Magazine Letters 83:3, pages 149-158.
Read now
I. Yonenaga & T. Suzuki. (2002) Indentation hardnesses of semiconductors and a scaling rule. Philosophical Magazine Letters 82:10, pages 535-542.
Read now
Ben D. Beake & James F. Smith. (2002) High-temperature nanoindentation testing of fused silica and other materials. Philosophical Magazine A 82:10, pages 2179-2186.
Read now
M. Tachi Suprijadi, S. Arai & H. Saka. (2002) On the dislocation mechanism of amorphization of Si by indentation. Philosophical Magazine Letters 82:3, pages 133-139.
Read now
J.F. Smith & S. Zheng. (2000) High temperature nanoscale mechanical property measurements. Surface Engineering 16:2, pages 143-146.
Read now
B.Ya. Farber, V.I. Orlov, V.I. Nikitenko & A.H. Heuer. (1998) Mechanisms of energy dissipation during displacement- sensitive indentation in Ge single crystals at elevated temperatures. Philosophical Magazine A 78:3, pages 671-677.
Read now

Articles from other publishers (86)

Jinyang Ke, Yufan Fu, Changlin Liu, Jianguo Zhang, Xiao Chen & Jianfeng Xu. (2024) Investigation on system design methodology and cutting force optimization in laser-assisted diamond machining of single-crystal silicon. Journal of Manufacturing Processes 115, pages 1-17.
Crossref
Yuying Lin & Lihua LI. (2022) Optimization design and experiment of parameters for non-isothermal glass molding process. Optimization design and experiment of parameters for non-isothermal glass molding process.
Hosni Idrissi, Philippe Carrez & Patrick Cordier. (2022) On amorphization as a deformation mechanism under high stresses. Current Opinion in Solid State and Materials Science 26:1, pages 100976.
Crossref
Jinyang Ke, Xiao Chen, Changlin Liu, Jianguo Zhang, Hui Yang & Jianfeng Xu. (2021) Enhancing the ductile machinability of single-crystal silicon by laser-assisted diamond cutting. The International Journal of Advanced Manufacturing Technology 118:9-10, pages 3265-3282.
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
Xing Feng, Jianwei Xiao, Bin Wen, Jijun Zhao, Bo Xu, Yanbin Wang & Yongjun Tian. (2021) Temperature-dependent hardness of zinc-blende structured covalent materials闪锌矿结构共价材料的高温硬度. Science China Materials 64:9, pages 2280-2288.
Crossref
Takahito Ohmura & Masato Wakeda. (2021) Pop-In Phenomenon as a Fundamental Plasticity Probed by Nanoindentation Technique. Materials 14:8, pages 1879.
Crossref
Takahito Ohmura. (2021) Recent Advances in Indentation Techniques and Their Application to Mechanical Characterization. MATERIALS TRANSACTIONS 62:4, pages 563-569.
Crossref
Jovana Ruzic, Ikumu Watanabe, Kenta Goto & Takahito Ohmura. (2019) Nano-Indentation Measurement for Heat Resistant Alloys at Elevated Temperatures in Inert Atmosphere. MATERIALS TRANSACTIONS 60:8, pages 1411-1415.
Crossref
Afrooz Barnoush, Peter Hosemann, Jon Molina-Aldareguia & Jeffrey M. Wheeler. (2019) In situ small-scale mechanical testing under extreme environments. MRS Bulletin 44:06, pages 471-477.
Crossref
Miguel A. Monclús & Jon M. Molina-Aldareguia. 2019. Handbook of Mechanics of Materials. Handbook of Mechanics of Materials 2219 2247 .
Saeed Zare Chavoshi & Shuozhi Xu. (2018) A Review on Micro- and Nanoscratching/Tribology at High Temperatures: Instrumentation and Experimentation. Journal of Materials Engineering and Performance 27:8, pages 3844-3858.
Crossref
Miguel A. Monclús & Jon M. Molina-Aldareguia. 2018. Handbook of Mechanics of Materials. Handbook of Mechanics of Materials 1 29 .
Peizhen Li, Haluk E. Karaca & Yang-Tse Cheng. (2017) Rapid Characterization of Local Shape Memory Properties through Indentation. Scientific Reports 7:1.
Crossref
S. Wong, B. Haberl, J. S. Williams & J. E. Bradby. (2016) Phase Transformation Dependence on Initial Plastic Deformation Mode in Si via Nanoindentation. Experimental Mechanics 57:7, pages 1037-1043.
Crossref
Sun Jiapeng, Li Cheng, Jing Han, Aibin Ma & Liang Fang. (2017) Nanoindentation Induced Deformation and Pop-in Events in a Silicon Crystal: Molecular Dynamics Simulation and Experiment. Scientific Reports 7:1.
Crossref
M. Budnitzki & M. Kuna. (2017) Experimental and numerical investigations on stress induced phase transitions in silicon. International Journal of Solids and Structures 106-107, pages 294-304.
Crossref
Saeed Zare Chavoshi, Santiago Corujeira Gallo, Hanshan Dong & Xichun Luo. (2017) High temperature nanoscratching of single crystal silicon under reduced oxygen condition. Materials Science and Engineering: A 684, pages 385-393.
Crossref
M. Budnitzki & M. Kuna. (2016) Stress induced phase transitions in silicon. Journal of the Mechanics and Physics of Solids 95, pages 64-91.
Crossref
Bo Woon Soon, You Qian, Eldwin J. Ng, Vu A. Hong, Yushi Yang, Chae Hyuck Ahn, Thomas W. Kenny & Chengkuo Lee. (2015) Investigation of a Vacuum Encapsulated Si-to-Si Contact Microswitch Operated From −60 °C to 400 °C. Journal of Microelectromechanical Systems 24:6, pages 1906-1915.
Crossref
M. S. R. N. Kiran, T. T. Tran, L. A. Smillie, B. Haberl, D. Subianto, J. S. Williams & J. E. Bradby. (2015) Temperature-dependent mechanical deformation of silicon at the nanoscale: Phase transformation versus defect propagation. Journal of Applied Physics 117:20.
Crossref
Mangalampalli S.R.N. Kiran, Bianca Haberl, Jodie E. Bradby & James S. Williams. 2015. Defects in Semiconductors. Defects in Semiconductors 165 203 .
Ronaldo E. Trentin, Aline L. Bandeira, Felipe Cemin, Mónica Morales, Cintia L.G. Amorim, César Aguzzoli, Fernando Alvarez, Israel J.R. Baumvol, M.C.M. Farias & Carlos A. Figueroa. (2014) Physicochemical, structural, mechanical, and tribological characteristics of Si3N4–MoS2 thin films deposited by reactive magnetron sputtering. Surface and Coatings Technology 254, pages 327-332.
Crossref
Arjun Dey & Anoop MukhopadhyayArjun Dey & Anoop Mukhopadhyay. 2014. Nanoindentation of Brittle Solids. Nanoindentation of Brittle Solids 387 394 .
Hongwei Zhao, Peng Zhang, Chengli Shi, Chuang Liu, Lei Han, Hongbing Cheng & Luquan Ren. (2014) Molecular Dynamics Simulation of the Crystal Orientation and Temperature Influences in the Hardness on Monocrystalline Silicon. Journal of Nanomaterials 2014, pages 1-8.
Crossref
Jian Chen, Ben D. Beake, Hanshan Dong & Gerard A. Bell. 2014. Nanomechanical Analysis of High Performance Materials. Nanomechanical Analysis of High Performance Materials 63 84 .
H. Lee, Y. Chen, A. Claisse & C.A. Schuh. (2013) Finite Element Simulation of Hot Nanoindentation in Vacuum. Experimental Mechanics 53:7, pages 1201-1211.
Crossref
Takahito OHMURA. (2013) Evaluation of Mechanical Properties by Nano-scale Characterization. Journal of the Japan Society for Technology of Plasticity 54:633, pages 886-890.
Crossref
Takahito OHMURA. (2013) Prospects of Nanoindentation and Related Techniques. Journal of the Japan Society for Precision Engineering 79:12, pages 1181-1184.
Crossref
Takahito Ohmura. (2013) Analysis of local deformation behavior in metallic materials through nanoindentation technique. Journal of Japan Institute of Light Metals 63:2, pages 65-72.
Crossref
Hussein Nili, Kourosh Kalantar-zadeh, Madhu Bhaskaran & Sharath Sriram. (2013) In situ nanoindentation: Probing nanoscale multifunctionality. Progress in Materials Science 58:1, pages 1-29.
Crossref
S. K. Bhuyan, J. E. Bradby, S. Ruffell, B. Haberl, C. Saint, J. S. Williams & P. Munroe. (2012) Phase stability of silicon during indentation at elevated temperature: evidence for a direct transformation from metallic Si-II to diamond cubic Si-I. MRS Communications 2:1, pages 9-12.
Crossref
Anthony C. Fischer-CrippsAnthony C. Fischer-Cripps. 2011. Nanoindentation. Nanoindentation 163 180 .
Jonathan C. Trenkle, Corinne E. Packard & Christopher A. Schuh. (2010) Hot nanoindentation in inert environments. Review of Scientific Instruments 81:7.
Crossref
J. Rabier, L. Pizzagalli & J.L. Demenet. 2010. 47 108 .
Zhi Chao Duan & Andrea M. Hodge. (2009) High-temperature nanoindentation: New developments and ongoing challenges. JOM 61:12, pages 32-36.
Crossref
Yong-Bo XU. (2009) Indentation-induced Plasticity, Damage and Fracture in Si and GaAs Single Crystals. Journal of Inorganic Materials 24:6, pages 1081-1089.
Crossref
Z.J. Lin, M.J. Zhuo, Z.Q. Sun, P. Veyssière & Y.C. Zhou. (2009) Amorphization by dislocation accumulation in shear bands. Acta Materialia 57:9, pages 2851-2857.
Crossref
S Ruffell, J E Bradby, J S Williams, D Munoz-Paniagua, S Tadayyon, L L Coatsworth & P R Norton. (2009) Nanoindentation-induced phase transformations in silicon at elevated temperatures. Nanotechnology 20:13, pages 135603.
Crossref
R G Jasinevicius, J G Duduch, L Montanari & P S Pizani. (2008) Phase transformation and residual stress probed by Raman spectroscopy in diamond-turned single crystal silicon. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture 222:9, pages 1065-1073.
Crossref
E. Le Bourhis & G. Patriarche. (2008) Structure of nanoindentations in heavily n- and p-doped (001) GaAs. Acta Materialia 56:7, pages 1417-1426.
Crossref
Shanling Wang & Pirouz Pirouz. (2007) Mechanical properties of undoped GaAs. III: Indentation experiments. Acta Materialia 55:16, pages 5526-5537.
Crossref
J. Rabier, P. O. Renault, D. Eyidi, J. L. Demenet, J. Chen, H. Couvy & L. Wang. (2007) Plastic deformation of silicon between 20 °C and 425 °C. physica status solidi c 4:8, pages 3110-3114.
Crossref
R G Jasinevicius, J G Duduch & P S Pizani. (2007) Structure evaluation of submicrometre silicon chips removed by diamond turning. Semiconductor Science and Technology 22:5, pages 561-573.
Crossref
M. M. O. Khayyat, D. G. Hasko & M. M. Chaudhri. (2007) Effect of sample temperature on the indentation-induced phase transitions in crystalline silicon. Journal of Applied Physics 101:8.
Crossref
Paulo S. Pizani, Renato G. Jasinevicius & Ricardo A. Zanatta. (2006) Non-Hydrostatic Pressure Induced Structural Phase Transitions of Silicon Analyzed by Raman Scattering. Defect and Diffusion Forum 258-260, pages 276-281.
Crossref
P. S. Pizani, R. G. Jasinevicius & A. R. Zanatta. (2006) Effect of the initial structure of silicon surface on the generation of multiple structural phases by cyclic microindentation. Applied Physics Letters 89:3.
Crossref
Christopher A. Schuh, Corinne E. Packard & Alan C. Lund. (2006) Nanoindentation and contact-mode imaging at high temperatures. Journal of Materials Research 21:3, pages 725-736.
Crossref
Renato Goulart Jasinevicius, Arthur José Vieira Porto, Paulo Sérgio Pizani, Jaime Gilberto Duduch & Francisco José Santos. (2005) Characterization of structural alteration in diamond turned silicon crystal by means of micro raman spectroscopy and transmission electron microscopy. Materials Research 8:3, pages 261-268.
Crossref
L. Largeau, G. Patriarche, E. Le Bourhis & J. P. Riviere. (2005) Conservative indentation flow throughout thin (011) InP foils. Journal of Materials Science 40:14, pages 3809-3811.
Crossref
G Patriarche, L Largeau, J P Rivière & E Le Bourhis. (2005) Polarity influence on the indentation punching of thin {111} GaAs foils at elevated temperatures. Journal of Physics D: Applied Physics 38:8, pages 1140-1147.
Crossref
Ichiro Yonenaga. (2005) Hardness, Yield Strength, and Dislocation Velocity in Elemental and Compound Semiconductors. MATERIALS TRANSACTIONS 46:9, pages 1979-1985.
Crossref
Shanling Wang, Ming Zhang, Jodie Bradby & Pirouz Pirouz. (2011) Static Microindentation and Displacement-Sensitive Indentation Tests on Undoped GaAs. MRS Proceedings 904.
Crossref
C F Sanz-Navarro, S D Kenny & R Smith. (2004) Atomistic simulations of structural transformations of silicon surfaces under nanoindentation. Nanotechnology 15:5, pages 692-697.
Crossref
M. Munawar Chaudhri. 2004. 447 550 .
Anthony C. Fischer-CrippsAnthony C. Fischer-Cripps. 2004. Nanoindentation. Nanoindentation 144 158 .
Maha M Khayyat, Godsway K Banini, David G Hasko & M Munawar Chaudhri. (2003) Raman microscopy investigations of structural phase transformations in crystalline and amorphous silicon due to indentation with a Vickers diamond at room temperature and at 77 K. Journal of Physics D: Applied Physics 36:11, pages 1300-1307.
Crossref
Z.C Li, L Liu, X Wu, L.L He & Y.B Xu. (2002) Indentation induced amorphization in gallium arsenide. Materials Science and Engineering: A 337:1-2, pages 21-24.
Crossref
M. Algueró, A. J. Bushby, M. J. Reece & A. Seifert. (2002) Anelastic deformation of Pb(Zr,Ti)O3 thin films by non-180° ferroelectric domain wall movements during nanoindentation. Applied Physics Letters 81:3, pages 421-423.
Crossref
Z.C Li, L Liu, X Wu, L.L He & Y.B Xu. (2002) TEM observation of the phase transition in indented GaAs. Materials Letters 55:3, pages 200-204.
Crossref
Ichiro Yonenaga. (2014) Hardness of bulk single-crystal GaN and AlN. MRS Internet Journal of Nitride Semiconductor Research 7.
Crossref
Yu.V. Milman, S.I. Chugunova & I.I. Timofeeva. (2001) The resistance of silicon carbide to static and impact local loading. International Journal of Impact Engineering 26:1-10, pages 533-542.
Crossref
David Roundy & Marvin L. Cohen. (2001) Ideal strength of diamond, Si, and Ge. Physical Review B 64:21.
Crossref
Anil Gannepalli & Surya K Mallapragada. (2001) Molecular dynamics studies of plastic deformation during silicon nanoindentation. Nanotechnology 12:3, pages 250-257.
Crossref
Konrad J Böhm, Roland Stracke, Peter Mühlig & Eberhard Unger. (2001) Motor protein-driven unidirectional transport of micrometer-sized cargoes across isopolar microtubule arrays. Nanotechnology 12:3, pages 238-244.
Crossref
J Rabier, P Cordier, J.L Demenet & H Garem. (2001) Plastic deformation of Si at low temperature under high confining pressure. Materials Science and Engineering: A 309-310, pages 74-77.
Crossref
Renato G. Jasinevicius, Jaime G. Duduch & Arthur J. V. Porto. (2001) Investigation on diamond turning of silicon crystal - generation mechanism of surface cut with worn tool. Journal of the Brazilian Society of Mechanical Sciences 23:2, pages 241-252.
Crossref
Vladislav Domnich & Yury Gogotsi. 2001. Advances in Surface Science. Advances in Surface Science 355 445 .
Vladislav Domnich & Yury Gogotsi. 2001. Handbook of Surfaces and Interfaces of Materials. Handbook of Surfaces and Interfaces of Materials 195 237 .
Yu. V. Milman, D. V. Lotsko, A. M. Bilous & S. M. Dub. 2001. Functional Gradient Materials and Surface Layers Prepared by Fine Particles Technology. Functional Gradient Materials and Surface Layers Prepared by Fine Particles Technology 289 296 .
J Rabier, P Cordier, T Tondellier, J L Demenet & H Garem. (2000) Dislocation microstructures in Si plastically deformed at RT. Journal of Physics: Condensed Matter 12:49, pages 10059-10064.
Crossref
J. Rabier & J.L. Demenet. (2000) Low Temperature, High Stress Plastic Deformation of Semiconductors: The Silicon Case. physica status solidi (b) 222:1, pages 63-74.
Crossref
V. I. Trefilov, Yu. V. Mil’man, D. V. Lotsko, A. N. Belous, S. I. Chugunova, I. I. Timofeeva & A. I. Bykov. (2000) Studies of mechanical properties of quasicrystalline Al-Cu-Fe phase by the indentation technique. Doklady Physics 45:8, pages 363-366.
Crossref
Renato G Jasinevicius, Francisco J dos Santos, Paulo S Pizani, Jaime G Duduch & Arthur J.V Porto. (2000) Surface amorphization in diamond turning of silicon crystal investigated by transmission electron microscopy. Journal of Non-Crystalline Solids 272:2-3, pages 174-178.
Crossref
Vladislav Domnich, Yury Gogotsi & Sergey Dub. (2000) Effect of phase transformations on the shape of the unloading curve in the nanoindentation of silicon. Applied Physics Letters 76:16, pages 2214-2216.
Crossref
Vladislav Domnich, Yury Gogotsi & Michael Trenary. (2011) Identification of Pressure-Induced Phase Transformations Using Nanoindentation. MRS Proceedings 649.
Crossref
Yu.V. Milman, S.I. Chugunova, I.V. Goncharova, T. Chudoba, W. Lojkowski & W. Gooch. (1999) Temperature dependence of hardness in silicon–carbide ceramics with different porosity. International Journal of Refractory Metals and Hard Materials 17:5, pages 361-368.
Crossref
Y. Kamimura, H.O.K. Kirchner & T. Suzuki. (1999) Yield strength and brittle-to-ductile transition of boron-nitride and gallium-nitride. Scripta Materialia 41:6, pages 583-587.
Crossref
Y. Q. Wu, G. Y. Shi & Y. B. Xu. (2011) Cross-sectional observation on the indentation of [001] silicon. Journal of Materials Research 14:6, pages 2399-2401.
Crossref
J. S. Williams, Y. Chen, J. Wong-Leung, A. Kerr & M. V. Swain. (2011) Ultra-micro-indentation of silicon and compound semiconductors with spherical indenters. Journal of Materials Research 14:6, pages 2338-2343.
Crossref
Y.Q Wu, X.Y Yang & Y.B Xu. (1999) Cross-sectional electron microscopy observation on the amorphized indentation region in [001] single-crystal silicon. Acta Materialia 47:8, pages 2431-2436.
Crossref
Y. Q. Wu & Y. B. Xu. (2011) Lattice-distortion-induced amorphization in indented [110] silicon. Journal of Materials Research 14:3, pages 682-687.
Crossref
Yu. V. Milman. 1999. Materials Science of Carbides, Nitrides and Borides. Materials Science of Carbides, Nitrides and Borides 323 336 .
Xingzhong Zhao & Bharat Bhushan. (1998) Material removal mechanisms of single-crystal silicon on nanoscale and at ultralow loads. Wear 223:1-2, pages 66-78.
Crossref
B.Ya. Farber, B.Ya. Farber, V. I. Orlov, V. I. Orlov & A. H. Heuer. (1998) Energy Dissipation during High Temperature Displacement-Sensitive Indentation in Cubic Zirconia Single Crystals. physica status solidi (a) 166:1, pages 115-126.
Crossref
A. Shimatani, T. Nango, Suprijadi & H. Saka. (2011) FLB/TEM Observation of Defect Structure Underneath an Indentation in Silicon. MRS Proceedings 522.
Crossref

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.