Advanced search
Publication Cover
The Philosophical Magazine: A Journal of Theoretical Experimental and Applied Physics
Series 8
Volume 26, 1972 - Issue 6
Journal homepage
54
Views
71
CrossRef citations to date
0
Altmetric
Original Articles

Anomalous slip in high-purity niobium single crystals deformed at 77°K in tension

C. J. Bolton Department of Metallurgy, University of Oxford; Central Electricity Generating Board, Berkeley Nuclear Laboratories, Berkeley, Gloucestershire, England
&
G. Taylor Department of Metallurgy, University of Oxford
Pages 1359-1376 | Received 13 Jun 1972, Published online: 20 Aug 2006

Citations (71)

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 (12)

M. Suzuki, A. Fujimura, A. Sato, J. Nagakawa, N. Yamamoto & H. Shiraishi. (1991) In situ deformation of proton-irradiated molybdenum in a high-voltage electron microscope. Philosophical Magazine A 64:2, pages 395-411.
Read now
W. Wasserbäch. (1986) Plastic deformation and dislocation arrangement of Nb[sbnd]34 at.% Ta alloy single crystals. Philosophical Magazine A 53:3, pages 335-356.
Read now
W. Wasserbäch. (1985) Anomalous slip in high-purity tantalum single crystals after tensile deformation at 77 K. Philosophical Magazine A 51:4, pages 619-628.
Read now
J. Nagakawa & M. Meshii. (1982) Examination of surface effects on low-temperature deformation of niobium. Philosophical Magazine A 45:6, pages 983-1002.
Read now
Johsei Nagakawa & M. Meshii. (1981) The deformation of niobium single crystals at temperatures between 77 and 4.2 K. Philosophical Magazine A 44:5, pages 1165-1191.
Read now
A.J. Garratt-reed & G. Taylor. (1979) Optical and electron microscopy of niobium crystals deformed below room temperature. Philosophical Magazine A 39:5, pages 597-646.
Read now
V.K. Sethi & R. Gibala. (1978) Anisotropy of surface oxide softening of niobium single crystals. Philosophical Magazine A 37:3, pages 419-429.
Read now
P.J. Jeffcoat, B.L. Mordike & K.D. Rogausch. (1976) Anomalous slip in Mo-5 at.% Nb and Mo-5 at.% Re alloy single crystals. The Philosophical Magazine: A Journal of Theoretical Experimental and Applied Physics 34:4, pages 583-592.
Read now
H. Saka, K. Noda, T. Imura, H. Matsui & H. Kimura. (1976) HVEM in-situ observation of anomalous (101) slip in molybdenum. The Philosophical Magazine: A Journal of Theoretical Experimental and Applied Physics 34:1, pages 33-48.
Read now
A.J. Garratt-reed & G. Taylor. (1976) Stress-strain curves for niobium crystals deformed at temperatures below ambient. The Philosophical Magazine: A Journal of Theoretical Experimental and Applied Physics 33:4, pages 577-590.
Read now
R.J. Wasilewski, R. Hutchings & M.H. Loretto. (1974) Slip on {110} in 〈001〉 Nb single crystals deformed in compression at 77°K. The Philosophical Magazine: A Journal of Theoretical Experimental and Applied Physics 29:3, pages 521-535.
Read now
G. Taylor, R. Bajaj & O.N. Carlson. (1973) Anomalous slip in high-purity vanadium crystals. The Philosophical Magazine: A Journal of Theoretical Experimental and Applied Physics 28:5, pages 1035-1042.
Read now

Articles from other publishers (59)

Zhen-Jun Zhang, Shuang-Li Lu, Jin-Bo Yang & Zhe-Feng Zhang. (2022) The criterion of anomalous slip at 0 K in body centered cubic metals. Tungsten 5:1, pages 160-168.
Crossref
Roman Gröger. (2022) Origin of variable propensity for anomalous slip in body-centered cubic metals. Modelling and Simulation in Materials Science and Engineering 30:8, pages 085007.
Crossref
Rui Wang, Xiaoxiao Ma, Linfeng Zhang, Han Wang, David J. Srolovitz, Tongqi Wen & Zhaoxuan Wu. (2022) Classical and machine learning interatomic potentials for BCC vanadium. Physical Review Materials 6:11.
Crossref
Daniel Caillard, Baptiste Bienvenu & Emmanuel Clouet. (2022) Anomalous slip in body-centred cubic metals. Nature 609:7929, pages 936-941.
Crossref
Benqi Jiao, Qinyang Zhao, Yongqing Zhao, Laiping Li, Zhongwu Hu, Xuanqiao Gao, Wen Zhang & Jianfeng Li. (2021) The relationship between slip behavior and dislocation arrangement for large-size Mo-3Nb single crystal at room temperature. Journal of Materials Science & Technology 92, pages 208-213.
Crossref
Mohammad Hasan Joudivand S & Eralp Demir. (2021) A physically based model for bcc materials including non-Schmid effects and its application to single crystals of α-iron at different model scales. Modelling and Simulation in Materials Science and Engineering 29:5, pages 055016.
Crossref
Andriy Ostapovets & Anna Serra. (2020) Review of Non-Classical Features of Deformation Twinning in hcp Metals and Their Description by Disconnection Mechanisms. Metals 10:9, pages 1134.
Crossref
Z.Y. Xia, Z.J. Zhang, J.X. Yan, J.B. Yang & Z.F. Zhang. (2019) General yield behaviors of the {1 1 0} hexagonal dislocation networks in body centered cubic metal molybdenum. Computational Materials Science 170, pages 109116.
Crossref
Roman Gröger, Zdeněk Chlup, Tereza Kuběnová & Ivo Kuběna. (2018) Interplay of slip and twinning in niobium single crystals compressed at 77 K. Journal of Materials Research 34:2, pages 261-270.
Crossref
Carsten Bonnekoh, Ute Jäntsch, Jan Hoffmann, Harald Leiste, Alexander Hartmaier, Daniel Weygand, Andreas Hoffmann & Jens Reiser. (2019) The brittle-to-ductile transition in cold rolled tungsten plates: Impact of crystallographic texture, grain size and dislocation density on the transition temperature. International Journal of Refractory Metals and Hard Materials 78, pages 146-163.
Crossref
Chai Ren, Z. Zak Fang, Lei Xu, Jonathan P. Ligda, James D. Paramore & Brady G. Butler. (2019) An investigation of the microstructure and ductility of annealed cold-rolled tungsten. Acta Materialia 162, pages 202-213.
Crossref
R. Gröger, V. Vitek & T. Lookman. (2017) Mesoscale plastic texture in body-centered cubic metals under uniaxial load. Physical Review Materials 1:6.
Crossref
Yi-Shen Lin, M Mrovec & V Vitek. (2016) Importance of inclusion of the effect of s electrons into bond-order potentials for transition bcc metals with d-band mediated bonding. Modelling and Simulation in Materials Science and Engineering 24:8, pages 085001.
Crossref
Yi-Shen Lin, M. Mrovec & V. Vitek. (2016) Bond-order potential for magnetic body-centered-cubic iron and its transferability. Physical Review B 93:21.
Crossref
Daniel WeygandMatous Mrovec, Thomas Hochrainer & Peter Gumbsch. (2015) Multiscale Simulation of Plasticity in bcc Metals. Annual Review of Materials Research 45:1, pages 369-390.
Crossref
Anirban Patra, Ting Zhu & David L. McDowell. (2014) Constitutive equations for modeling non-Schmid effects in single crystal bcc-Fe at low and ambient temperatures. International Journal of Plasticity 59, pages 1-14.
Crossref
K. Srivastava, R. Gröger, D. Weygand & P. Gumbsch. (2013) Dislocation motion in tungsten: Atomistic input to discrete dislocation simulations. International Journal of Plasticity 47, pages 126-142.
Crossref
Luke L. Hsiung. (2010) On the mechanism of anomalous slip in bcc metals. Materials Science and Engineering: A 528:1, pages 329-337.
Crossref
R. Gröger, V. Racherla, J.L. Bassani & V. Vitek. (2008) Multiscale modeling of plastic deformation of molybdenum and tungsten: II. Yield criterion for single crystals based on atomistic studies of glide of 1/2〈111〉 screw dislocations. Acta Materialia 56:19, pages 5412-5425.
Crossref
R. Gröger, A.G. Bailey & V. Vitek. (2008) Multiscale modeling of plastic deformation of molybdenum and tungsten: I. Atomistic studies of the core structure and glide of 1/2〈111〉 screw dislocations at 0K. Acta Materialia 56:19, pages 5401-5411.
Crossref
A. Seeger & W. Wasserb�ch. (2002) Anomalous Slip - A Feature of High-Purity Body-Centred Cubic Metals. physica status solidi (a) 189:1, pages 27-50.
Crossref
Benji Maruyama, Leon L. Shaw, Mark C. Waterbury & Daniel B. Miracle. (1996) Automated deformation mapping in metal matrix composites. Materials Science and Engineering: A 205:1-2, pages 101-109.
Crossref
W. Wasserbäch. (1995) Anomalous Slip in High-Purity Niobium and Tantalum Single Crystals. Physica Status Solidi (a) 147:2, pages 417-446.
Crossref
Z. Yao & R.H. Wagoner. (1993) Active slip in aluminum multicrystals. Acta Metallurgica et Materialia 41:2, pages 451-468.
Crossref
Yasuhisa AonoEiichi Kuramoto & Naoaki Yoshida. (1993) Effects of 14 MeV Neutron Irradiation on Mechanical Properties of High-Purity Molybdenum Single Crystals. Materials Transactions, JIM 34:11, pages 1130-1136.
Crossref
A Christian, O Kanert & J.Th.M De Hosson. (1990) Dislocation dynamics in vanadium: A nuclear magnetic resonance and transmission electron microscopic study. Acta Metallurgica et Materialia 38:12, pages 2479-2484.
Crossref
J. Th. M. De Hosson & O. Kanert. (2011) Dislocation Dynamics In B.C.C. Metals: A Nuclear Magnetic Resonance and Transmission Electron Microscopic Study. MRS Proceedings 209.
Crossref
J.C. Huang & G.T. GrayIIIIII. (1988) Substructure evolution and deformation modes in shock-loaded niobium. Materials Science and Engineering: A 103:2, pages 241-255.
Crossref
W. Wasserbäch & V. Novák. (1985) Optical investigation of anomalous slip-line patterns in high purity niobium and tantalum single crystals after tensile deformation at 77 K. Materials Science and Engineering 73, pages 197-202.
Crossref
Y. Aono, E. Kuramoto & K. Kitajima. (1984) Orientation dependence of slip in niobium single crystals at 4.2 and 77 K. Scripta Metallurgica 18:3, pages 201-205.
Crossref
A Karimi. (1984) Plastic flow study using the microgrid technique. Materials Science and Engineering 63:2, pages 267-276.
Crossref
F Ackermann, H Mughrabi & A Seeger. (1983) Temperature- and strain-rate dependence of the flow stress of ultrapure niobium single crystals in cyclic deformation. Acta Metallurgica 31:9, pages 1353-1366.
Crossref
J. W. Christian. (1983) Some surprising features of the plastic deformation of body-centered cubic metals and alloys. Metallurgical Transactions A 14:7, pages 1237-1256.
Crossref
Shin Takeuchi, Tatsuo Hashimoto & Koji Maeda. (1982) Plastic Deformation of <I>bcc</I> Metal Single Crystals at Very Low Temperatures. Transactions of the Japan Institute of Metals 23:2, pages 60-69.
Crossref
L.N. Chang, G. Taylor & J.W. Christian. (1982) A stress asymmetry in niobium single crystals deformed at 77 K. Scripta Metallurgica 16:1, pages 95-98.
Crossref
J. Nagakawa & M. Meshii. (1981) Electron irradiation hardening in niobium single crystals. Journal of Nuclear Materials 101:1-2, pages 162-171.
Crossref
E. N. Kaspruk, A. Ya. Krasovskii & O. I. Marusii. (1979) Effect of surface orientation of Mo single crystals on high-temperature creep and type of fracture. Strength of Materials 11:2, pages 169-174.
Crossref
J. Nagakawa & M. Meshii. 1979. Strength of Metals and Alloys. Strength of Metals and Alloys 989 994 .
J.P. Millour & A. Kobylanski. (1978) Interaction entre des dislocations lors d'un cisaillement parallele a un plan (011) de cristaux de molybdene. Scripta Metallurgica 12:1, pages 17-20.
Crossref
R. Creten, J. Bressers & P. de Meester. (1977) Anomalous slip in high-purity vanadium crystals deformed in compression. Materials Science and Engineering 29:1, pages 51-53.
Crossref
V.K. Sethi & R. Gibala. (1977) Surface oxide softening of niobium single crystals. Acta Metallurgica 25:3, pages 321-332.
Crossref
J. Bressers & R. Creten. (1977) Suppression of anomalous slip by oxygen interstitials in vanadium. Scripta Metallurgica 11:1, pages 33-36.
Crossref
D.G. Attwood & P.M. Hazzledine. (1976) A fiducial grid for high-resolution metallography. Metallography 9:6, pages 483-501.
Crossref
R.E. Reed & R.J. Arsenault. (1976) Further observations of anomalous slip in niobium single crystals. Scripta Metallurgica 10:11, pages 1003-1006.
Crossref
H. Matsui & H. Kimura. (1976) Anomalous {110} slip in high-purity molybdenum single crystals and its comparison with that in V(a) metals. Materials Science and Engineering 24:2, pages 247-256.
Crossref
H. Saka, H. Matsui, K. Noda, H. Kimura & T. Imura. (1976) Direct observation of () anomalous slip in molybdenum by HVEM. Scripta Metallurgica 10:1, pages 59-62.
Crossref
H. Matsui & H. Kimura. (1975) Anomalous {110} slip and the role of co-planar double slip in BCC metals. Scripta Metallurgica 9:9, pages 971-978.
Crossref
F. Louchet & L.P. Kubin. (1975) A possible explanation for the anomalous slip of B.C.C. metals from “in situ” experiments. Scripta Metallurgica 9:9, pages 911-916.
Crossref
Shin Takeuchi & Eiichi Kuramoto. (1975) Thermally Activated motion of a Screw Dislocation in a Model B.C.C. Crystal. Journal of the Physical Society of Japan 38:2, pages 480-487.
Crossref
R.J. ARSENAULT. 1975. Plastic Deformation of Materials. Plastic Deformation of Materials 1 99 .
J.A. Shields, S.H. Goods, R. Gibala & T.E. Mitchell. (1975) Deformation of high purity tantalum single crystals at 4.2 K. Materials Science and Engineering 20, pages 71-81.
Crossref
F. Louchet & L.P. Kubin. (1975) Dislocation substructures in the anomalous slip plane of single crystal niobium strained at 50 K. Acta Metallurgica 23:1, pages 17-21.
Crossref
S. Takeuchi & E. Kuramoto. (1974) Anomalous slip in a B.C.C. crystal observed in computer simulation of screw dislocation motion. Scripta Metallurgica 8:7, pages 785-789.
Crossref
H. Matsui, H. Saka, K. Noda, H. Kimura & T. Imura. (1974) Direct observation of active “Unexpected slip” in molybdenum by HVEM. Scripta Metallurgica 8:5, pages 467-474.
Crossref
H. Matsui & H. Kimura. (1974) Reply to comments on ‘a mechanism of the unexpected [110] slip observed in B.C.C. metals deformed at low temperatures’. Scripta Metallurgica 8:5, pages 463-466.
Crossref
G. Taylor. (1974) Comments on ‘a mechanism of the unexpected [110] slip observed in B.C.C. metals deformed at low temperatures’. Scripta Metallurgica 8:5, pages 459-461.
Crossref
E. Kuramoto, F. Minami & S. Takeuchi. (1974) Computer simulation of motion of screw dislocation in model B.C.C. lattices. II. Orientation dependence of slip. Physica Status Solidi (a) 22:2, pages 411-419.
Crossref
Harmon D. Nine. (1973) Asymmetric deformation in fatigue of body‐centered‐cubic single crystals. Journal of Applied Physics 44:11, pages 4875-4881.
Crossref
H. Matsui & H. Kimura. (1973) A mechanism of the “unexpected {110} slip” observed in BCC metals deformed at low temperatures. Scripta Metallurgica 7:9, pages 905-913.
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.