Acta Metall Sin  1992, Vol. 28 Issue (5): 64-68    DOI:

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LIQUIDUS OF TERNARY SYSTEM LaCl_3-MgCl_2-LiCl

ZHENG Chaogui;LIU Hongping;QIAO Zhiyu;YE Yupu Peking University; Beijing Correspondent associate professor; Department of Chemistry; Peking University; Beijing 100871

ZHENG Chaogui;LIU Hongping;QIAO Zhiyu;YE Yupu Peking University; Beijing Correspondent associate professor; Department of Chemistry; Peking University; Beijing 100871. LIQUIDUS OF TERNARY SYSTEM LaCl_3-MgCl_2-LiCl. Acta Metall Sin, 1992, 28(5): 64-68.

Abstract References Related Articles Recommended Metrics Download:  PDF(410KB)  Export:  BibTeX | EndNote (RIS)       Abstract  Two surfaces corresponding to LaCl_3 and α-solid solution (MgCl_2, LiCl)respectively, and one secondary crystallization curve with a minimum M at 63.8wt-%LaCl_3, 2.0wt-%MgCl_2, 34.2 wt-%LiCl; 492℃ were found by means of DTA. Incombination with liquidus determination, an approach was also made to the alteration inLnCl_3-MgCl_2-LiCl system, where Ln denotes La, Ce, Pr or Nd. Key words:  LaCl_3-MgCl_2-LiCl      LaCl_3      system      phase diagram      Received:  18 May 1992      Service E-mail this article Add to citation manager E-mail Alert RSS （） Articles by authors URL:  https://www.ams.org.cn/EN/     OR     https://www.ams.org.cn/EN/Y1992/V28/I5/64 1 郑朝贵,叶于浦.第5届全国相图会议论文集,第3卷,武汉,1988:18 2 Qiao Zhiyu (乔芝郁),Wang Mingsheng (王明生),Zheng Chaogui(郑朝贵),Duan Shuzhen(段淑贞).北京科技大学学报,1989;11:598 3 Vogel G, Schneider A. Inorg Nucl Chem Lett, 1972; 8: 513 4 Sandonnini C. Atti Accad Naz Lincei, Rend Cl Sci Fis, Mat Nat, 1931; 22: 631 5 苏勉曾,李根培.化学通报,1979;4;322 6 郑朝贵,张亚钢,陈集林,叶于浦.北京大学学报(自然科学版),1987;(6) :72 7 郑朝贵,叶于浦.高等学校化学学报,1988;9:423 8 郑朝贵,靳军,叶于浦.金属学报,1989;25:B67 9 Shannon R D.Acta Crystallogr,1976;A32:751 10 郑朝贵,张荔红,乔芝郁,叶于浦.化学热力学和量热国际会议论文集(ICCTC-89) ,Bejing,1989:C32 11 郑朝贵,靳军,乔芝郁,叶于浦.中国稀土学报,1989;7(1) :81 12 张翊凤,郑朝贵,叶于浦.化学学报,1989;470) :14 13 苏勉曾,裘炳毅.科学通报,1966;17(2) :72 l4 Seifert H J, Fink H, Thiel G. J Less--Common Met, l985; l l0: l39 [1] WANG Hanyu, LI Cai, ZHAO Can, ZENG Tao, WANG Zumin, HUANG Yuan. Direct Alloying of Immiscible Tungsten and Copper Based on Nano Active Structure and Its Thermodynamic Mechanism[J]. 金属学报, 2023, 59(5): 679-692. [2] CHEN Wei, CHEN Hongcan, WANG Chenchong, XU Wei, LUO Qun, LI Qian, CHOU Kuochih. Effect of Dilatational Strain Energy of Fe-C-Ni System on Martensitic Transformation[J]. 金属学报, 2022, 58(2): 175-183. [3] GAO Xiang, ZHANG Guikai, XIANG Xin, LUO Lizhu, WANG Xiaolin. Effects of Alloying Elements on the Adsorption of Oxygen on V(110) Surfaces: A First-Principles Study[J]. 金属学报, 2020, 56(6): 919-928. [4] BAO Feiyang, LI Yanfen, WANG Guangquan, ZHANG Jiarong, YAN Wei, SHI Quanqiang, SHAN Yiyin, YANG Ke, XU Bin, SONG Danrong, YAN Mingyu, WEI Xuedong. Corrosion Behaviors and Mechanisms of ODS Steel Exposed to Static Pb-Bi Eutectic at 600 and 700 ℃[J]. 金属学报, 2020, 56(10): 1366-1376. [5] WANG Zumin,ZHANG An,CHEN Yuanyuan,HUANG Yuan,WANG Jiangyong. Research Progress on Fundamentals and Applications of Metal-Induced Crystallization[J]. 金属学报, 2020, 56(1): 66-82. [6] Baojun ZHAO,Yuhong ZHAO,Yuanyang SUN,Wenkui YANG,Hua HOU. Effect of Mn Composition on the Nanometer Cu-Rich Phase of Fe-Cu-Mn Alloy by Phase Field Method[J]. 金属学报, 2019, 55(5): 593-600. [7] Ming HE, Xianliang LI, Qingwei WANG, Lianyu WANG, Qiang WANG. Influence of Magnetic Shielding on the Power Loss of Induction Heating Power Supply in the Electro-magnetic Induction Controlled Automated Steel Teeming System[J]. 金属学报, 2019, 55(2): 249-257. [8] Ke YANG, Wei YAN, Zhiguang WANG, Yiyin SHAN, Quanqiang SHI, Xianbo SHI, Wei WANG. DEVELOPMENT OF A NOVEL STRUCTURAL MATERIAL (SIMP STEEL) FOR NUCLEAR EQUIPMENT WITH BALANCED RESIS-TANCES TO HIGH TEMPERATURE, RADIATION AND LIQUID METAL CORROSION[J]. 金属学报, 2016, 52(10): 1207-1221. [9] Shoudong CHEN,Xianghua LIU,Lizhong LIU,Meng SONG. CRYSTAL PLASTICITY FINITE ELEMENT SIMULA- TION OF SLIP AND DEFORMATION IN ULTRA- THIN COPPER STRIP ROLLING[J]. 金属学报, 2016, 52(1): 120-128. [10] Lü Baochen LIU Haitao REN Xin WANG Xiaoliang LI Gang SUN Yuejun. AN ATOM DENSE PACKING MODEL FOR METALLIC GLASS WITH HIGH SOLUTE CONCENTRATION IN (PSEUDO–) TERNARY SYSTEMS[J]. 金属学报, 2012, 48(2): 240-244. [11] LI Hongxiao REN Yuping MA Qianqian JIANG Min QIN Gaowu. PHASE EQUILIBRIUM IN THE LOW-Ca SIDE OF Mg-Zn-Ca SYSTEM AT 400 ℃[J]. 金属学报, 2012, 48(1): 70-75. [12] LI Hongxiao MA Qianqian REN Yuping JIANG Min QIN Gaowu. TERNARY COMPOUNDS AND RELATIVE PHASE EQUILIBRIA IN THE Mg-RICH SIDE OF THE Mg-Zn-Ca SYSTEM[J]. 金属学报, 2011, 47(4): 385-390. [13] ZHANG Weibin SHA Chunsheng DU Yong WEN Guanghua XIE Wen WANG Shequan. COMPUTER SIMULATIONS AND VERIFICATION OF GRADIENT ZONE FORMATION IN CEMENTED CARBIDES[J]. 金属学报, 2011, 47(10): 1307-1314. [14] . The method to determine characteristic atom sequences of binary alloy systems[J]. 金属学报, 2008, 44(6): 764-768 . [15] ;. Research on the ternary compound T1 with low Nd content in the Mg-Zn-Nd alloys[J]. 金属学报, 2008, 44(4): 385-390 . No Suggested Reading articles found! Viewed Full text Abstract Cited   Shared      Discussed