Advanced search
Publication Cover
Metal Science Volume 8, 1974 - Issue 1
Journal homepage
31
Views
41
CrossRef citations to date
0
Altmetric
Articles

The Peritectic Reaction in the System Pb–Bi

N. J. W. Barker
&
A. Hellawell
Pages 353-356 | Published online: 18 Jul 2013

Citations (41)

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 (5)

D. Ma, Y. Li, S.C. Ng & H. Jones. (2001) Unidirectional solidification of a Zn-rich Zn–2.17 wt%Cu hypo-peritectic alloy. Science and Technology of Advanced Materials 2:1, pages 127-130.
Read now
J. W. Rutter, M. G. Julien & G. R. Purdy. (1998) Plane front solidification of two phase peritectic tin-cadmium alloys: Part 2. Materials Science and Technology 14:3, pages 182-186.
Read now
H. W. Kerr & W. Kurz. (1996) Solidification of peritectic alloys. International Materials Reviews 41:4, pages 129-164.
Read now
J. W. Rutter, M. G. Julien & G. R. Purdy. (1995) Plane front solidification of two phase peritectic tin–cadmium alloys: Part 1. Materials Science and Technology 11:12, pages 1233-1240.
Read now
H. Fredriksson & T. Nylén. (1982) Mechanism of peritectic reactions and transformations. Metal Science 16:6, pages 283-294.
Read now

Articles from other publishers (36)

A. Ludwig, J.P. Mogeritsch & T. Pfeifer. (2017) In-situ observation of coupled peritectic growth in a binary organic model alloy. Acta Materialia 126, pages 329-335.
Crossref
Peiman Shahbeigi-Roodposhti & Harold Brody. 2017. Light Metals 2017. Light Metals 2017 1035 1041 .
Georg F. Zellmer, Naoya Sakamoto, Nozomi Matsuda, Yoshiyuki Iizuka, Anja Moebis & Hisayoshi Yurimoto. (2016) On progress and rate of the peritectic reaction Fo + SiO2→ En in natural andesitic arc magmas. Geochimica et Cosmochimica Acta 185, pages 383-393.
Crossref
Leigang Cao, Robert F. Cochrane & Andrew M. Mullis. (2015) Microstructural Evolution and Phase Formation in Rapidly Solidified Ni-25.3 At. Pct Si Alloy. Metallurgical and Materials Transactions A 46:10, pages 4705-4715.
Crossref
Koji Maiwa, Hiroaki Nakamura & Hideo Kimura. (2015) The Effect of Growth Kinetics on the Formation of Peritectic Microstructures in a Sr(NO 3 ) 2 –H 2 O System . Crystal Growth & Design 15:9, pages 4672-4675.
Crossref
Zhilin Liu, Dong Qiu, Feng Wang, John A. Taylor & Mingxing Zhang. (2015) Crystallography of grain refinement in cast zinc–copper alloys. Journal of Applied Crystallography 48:3, pages 890-900.
Crossref
Doru Michael StefanescuDoru Michael Stefanescu. 2015. Science and Engineering of Casting Solidification. Science and Engineering of Casting Solidification 197 250 .
Z. R. Feng, J. Shen, W. Wang, L. S. Wang, J. F. Zhang, Y. J. Du & H. Z. Fu. (2012) Microstructure Evolution in Directionally Solidified Fe-Ni Alloys in Diffusive Regime. Metallurgical and Materials Transactions A 44:2, pages 640-649.
Crossref
H Yasuda, T Nagira, M Yoshiya, M Uesugi, N Nakatsuka, M Kiire, A Sugiyama, K Uesugi & K Umetani. (2012) In-situ observation of peritectic solidification in Sn-Cd and Fe-C alloys . IOP Conference Series: Materials Science and Engineering 27, pages 012084.
Crossref
Xiao Wu Hu, Hong Yan & Wen Jing Chen. (2011) Microstructure Formation in Pb-30wt.%Bi Peritectic Alloy. Advanced Materials Research 236-238, pages 1532-1536.
Crossref
N. Liu, G.C. Yang, X. Cao, C.L. Yang, F. Liu & Y.H. Zhou. (2009) Solidification behaviour of undercooled peritectic Fe81.68Co18.32 alloy. Journal of Alloys and Compounds 485:1-2, pages L12-L15.
Crossref
N. Liu, F. Liu, C.L. Yang, Y.Z. Chen, G.C. Yang & Y.H. Zhou. (2008) Peritectic solidification of undercooled Fe–Co alloys. Journal of Alloys and Compounds 465:1-2, pages 391-395.
Crossref
M. Gündüz, H. Kaya, E. Çadırlı, N. Maraşlı, K. Keşlioğlu & B. Saatçi. (2007) Effect of solidification processing parameters on the cellular spacings in the Al–0.1wt% Ti and Al–0.5wt% Ti alloys. Journal of Alloys and Compounds 439:1-2, pages 114-127.
Crossref
Doru M. Stefanescu. (2006) Microstructure Evolution during the Solidification of Steel. ISIJ International 46:6, pages 786-794.
Crossref
T.S. Lo, S. Dobler, M. Plapp, A. Karma & W. Kurz. (2003) Two-phase microstructure selection in peritectic solidification: from island banding to coupled growth. Acta Materialia 51:3, pages 599-611.
Crossref
Tak Shing Lo, Alain Karma & Mathis Plapp. (2001) Phase-field modeling of microstructural pattern formation during directional solidification of peritectic alloys without morphological instability. Physical Review E 63:3.
Crossref
D. Ma, Y. Li & S.C. Ng. (2000) Evaluation of composition region for peritectic coupled growth. Journal of Crystal Growth 219:3, pages 300-306.
Crossref
M. Vandyoussefi, H.W. Kerr & W. Kurz. (2000) Two-phase growth in peritectic Fe–Ni alloys. Acta Materialia 48:9, pages 2297-2306.
Crossref
Hideyuki Yasuda, Naohiro Notake, Kentaro Tokieda & Itsuo Ohnaka. (2000) Periodic structure during unidirectional solidification for peritectic Cd–Sn alloys. Journal of Crystal Growth 210:4, pages 637-645.
Crossref
D. Ma, Y. Li, S.C. Ng & H. Jones. (2000) Unidirectional solidification of Zn-rich Zn–Cu peritectic alloys—I. Microstructure selection. Acta Materialia 48:2, pages 419-431.
Crossref
Hideyuki Yasuda, Kentaro Tokieda & Itsuo Ohnaka. (2000) Effect of Magnetic Field on Periodic Structure Formation in Pb–Bi and Sn–Cd Peritectic Alloys. Materials Transactions, JIM 41:8, pages 1005-1012.
Crossref
Kentaro Tokieda, Hideyuki Yasuda & Itsuo Ohnaka. (1999) Formation of banded structure in Pb–Bi peritectic alloys. Materials Science and Engineering: A 262:1-2, pages 238-245.
Crossref
Hideyuki Yasuda, Itsuo Ohnaka, Kentaro Tokieda & Naohiro Notake. (1999) A Model for Oscillatory Structure during Unidirectional Solidification of Peritectic Alloys. Materials Transactions, JIM 40:5, pages 373-376.
Crossref
E. Sudhakar Reddy & T. Rajasekharan. (2011) Microstructural studies of PrBa 2 Cu 3 O y during melt processing . Journal of Materials Research 13:12, pages 3389-3393.
Crossref
O. Hunziker, M. Vandyoussefi & W. Kurz. (1998) Phase and microstructure selection in peritectic alloys close to the limit of constitutional undercooling. Acta Materialia 46:18, pages 6325-6336.
Crossref
A. Karma, W. -J. Rappel, B. C. Fuh & R. Trivedi. (1998) Model of banding in diffusive and convective regimes during directional solidification of peritectic systems. Metallurgical and Materials Transactions A 29:5, pages 1457-1470.
Crossref
Kathryn L. Zeisler-Mashl & Thomas A. Lograsso. (1997) The occurrence and periodicity of oscillating peritectic microstructures developed during directional solidification. Metallurgical and Materials Transactions A 28:7, pages 1543-1552.
Crossref
W. Kurz & R. Trivedi. (1996) Banded solidification microstructures. Metallurgical and Materials Transactions A 27:3, pages 625-634.
Crossref
Hideyuki Yasuda, Itsuo Ohnaka, Yasuo Matsunaga & Yuh Shiohara. (1996) In-situ observation of peritectic growth with faceted interface. Journal of Crystal Growth 158:1-2, pages 128-135.
Crossref
R. Trivedi. (1995) Theory of layered-structure formation in peritectic systems. Metallurgical and Materials Transactions A 26:6, pages 1583-1590.
Crossref
N. Pellerin, P. Odier, P. Simon & D. Chateigner. (1994) Nucleation and growth mechanisms of textured YBaCuO and the influence of Y2BaCuO5. Physica C: Superconductivity 222:1-2, pages 133-148.
Crossref
Charles A. Bateman, Lijie Zhang, Helen M. Chan & Martin P. Harmer. (2005) Mechanism for the Peritectic Reaction and Growth of Aligned Grains in YBa 2 Cu 3 O 6+ x . Journal of the American Ceramic Society 75:5, pages 1281-1283.
Crossref
D.H. StJohn. (1990) The peritectic reaction. Acta Metallurgica et Materialia 38:4, pages 631-636.
Crossref
T.A. Lograsso & A. Hellawell. (1984) Temperature gradient zone melting: Approach to steady state. Journal of Crystal Growth 66:3, pages 531-540.
Crossref
D.H.St. John & L.M. Hogan. (1977) The peritectic transformation. Acta Metallurgica 25:1, pages 77-81.
Crossref
I Maxwell & A Hellawell. (1975) The constitution and solidification of peritectic alloys in the system Al-Ti. Acta Metallurgica 23:8, pages 895-899.
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.