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6th International Symposium on High-Temperature Metallurgical Processing

  • Tao Jiang
  • Jiann-Yang Hwang
  • Gerardo R. F. Alvear F.
  • Onuralp Yücel
  • Xinping Mao
  • Hong Yong Sohn
  • Naiyang Ma
  • Phillip J. Mackey
  • Thomas P. Battle

Table of contents

  1. Front Matter
    Pages i-xxii
  2. High Efficiency New Metallurgical Process and Technology

    1. Front Matter
      Pages 1-1
    2. Tao Jiang, Zhuoxuan Li, Lin Yang, Guanghui Li, Yuanbo Zhang, Jinghua Zeng
      Pages 3-10
    3. Zhi-he Dou, Cong Wang, Shi-gang Fan, Guan-yong Shi, Ting-an Zhang
      Pages 11-17
    4. Bhagyadhar Bhoi, Pravas Ranjan Behera, Chitta Ranjan Mishra
      Pages 19-26
    5. Mehmet Buğdaycı, Ayşe Ece Yıldızçelik, Onuralp Yücel
      Pages 27-34
    6. Zhihe Dou, Cong Wang, Guanyong Shi, Ting’an Zhang, Hongyan Zhang
      Pages 35-42
    7. Qiuye Cai, Jianliang Zhang, Kexin Jiao, Cui Wang
      Pages 43-49
  3. Fundamental Research of Metallurgical Process I

    1. Front Matter
      Pages 51-51
    2. D. Gregurek, A. Ressler, A. Spanring, C. Pichler
      Pages 53-60
    3. Onuralp Yucel, Hasan Ozer, Murat Alkan, Ahmet Turan
      Pages 61-66
    4. Mao Chen, Weidong Zhang, Zhixing Zhao, Dongqing Wang, Tim Evans, Baojun Zhao
      Pages 67-74
    5. Zhengwei Yu, Ruijun Wang, Feng Zhou, Yuanbo Zhang, Guanghui Li, Tao Jiang
      Pages 75-82
    6. GermainKouma Ndong, Jilai Xue, Luxing Feng, Jun Zhu
      Pages 83-90
    7. Jian Pan, Hongbin Yu, Deqing Zhu, Xun Hu, Yanhong Luo
      Pages 91-98
    8. Dong Fang, Qie Jun-mao, Deng Hao-hua
      Pages 99-104
    9. Zhongliang Tian, Xun Hu, Yanqing Lai, Shu Yang, Shaolong Ye, Jie Li
      Pages 105-112
    10. Xiaofei Dou, Mingmei Zhu, Tiancheng Lin, Yu Wang, Bin Xie, Bin Zhu et al.
      Pages 113-120
  4. Fundamental Research of Metallurgical Process II

    1. Front Matter
      Pages 121-121
    2. Joseph Hamuyuni, Pekka Taskinen
      Pages 123-130
    3. Yong-bin Yang, Yan Zhang, Qiang Zhong, Tao Jiang, Qian Li, Bin Xu
      Pages 131-138
    4. Deqing Zhu, Congcong Yang, Jian Pan, Yang Zhong
      Pages 139-146
    5. Zhijia Zhang, Jianliang Zhang, Kexin Jiao, Huichang Song, Zhengjian Liu
      Pages 147-153
    6. Kaifa Zhang, Shengli Wu, Wei Huang, Xinliang Liu, Juan Zhu, Kaiping Du
      Pages 155-161
    7. Li-chen Hou, Qian Li, Jian-jun Hu, Yong-bin Yang, Bing Xu, Tao Jiang
      Pages 163-170
    8. Wei-feng Li, Jing Zhan, Chuan-fu Zhang, Li-Hua Jiang, Tian-Zu Yang, Yan-qing Fan et al.
      Pages 171-178
    9. Xiangwei Zheng, Xuewei Lv, Changyang Ji, Chengyi Ding, Rende Zhang
      Pages 179-186
    10. Yi Qian, Jianliang Zhang, Kexin Jiao, Chao Zhang
      Pages 187-192
    11. Changyuan Lu, Xionggang Lu, Xingli Zou, Hongwei Cheng, Guangshi Li, Yuyang Bian et al.
      Pages 193-200
  5. Materials Preparation

    1. Front Matter
      Pages 201-201
    2. Tobias Dubberstein, Hans-Peter Heller
      Pages 203-210
    3. Buket Tunçer, Mehmet Buğdaycı, Onuralp Yücel
      Pages 211-214
    4. Eduardo Brocchi, Douglas Torres, Rogério Navarro, Rodrigo Souza, José Brant
      Pages 223-230
    5. Lingen Luo, Jianjun Wang, Jiaqing Peng, Yinghe Lin, Zhenbang li
      Pages 231-238
    6. Aimin Liu, Kaiyu Xie, Liangxing Li, Zhongning Shi, Xianwei Hu, Junli Xu et al.
      Pages 239-246
  6. Direct Reduction and Smelting Reduction

    1. Front Matter
      Pages 247-247
    2. Jose Carlos D’Abreu, Helio Marques Kohler, Edelink Efrain Tinoco Falero, Mauricio Marcos Otaviano
      Pages 249-256
    3. Mao Chen, Zhixiang Cui, Baojun Zhao
      Pages 257-264
    4. Guanghui Li, Peidan Wen, Zhixiong You, Yuanbo Zhang, Tao Jiang
      Pages 265-272
    5. Yongbin Yang, Qiang Zhong, Tao Jiang, Qian Li, Bin Xu
      Pages 273-280
    6. Bo Zhang, Jienan Liu, Yanfeng Yang, Luming Liu, Jiechao Liu, Lijian Luo et al.
      Pages 281-287
    7. Tao Zhang, Bing Xie, Xuan Liu, Jiang Diao, Zhen Zhang, Hong-Yi Li
      Pages 289-296
    8. Qian Li, Yonggang Wei, Bo Li, Shiwei Zhou, Hua Wang, Baozhong Ma et al.
      Pages 297-304
    9. Yanling Zhang, Wenming Guo, Xinlei Jia
      Pages 305-312
    10. Guang Wang, Qingguo Xue, Xuefeng She, Jingsong Wang
      Pages 313-319
  7. Coking, New Energy and Environment

    1. Front Matter
      Pages 321-321
    2. Alberto Nogueira, Cyro Takano, Marcelo Mourão, Adolfo Pillihuaman
      Pages 323-330

About this book

Introduction

The analysis, development, and/or operation of high temperature processes that involve the production of ferrous and nonferrous metals, alloys, and refractory and ceramic materials are covered in the book. The innovative methods for achieving impurity segregation and removal, by-product recovery, waste minimization, and/or energy efficiency are also involved. Eight themes are presented: 1: High Efficiency New Metallurgical Process and Technology 2: Fundamental Research of Metallurgical Process 3: Alloys and Materials Preparation 4: Direct Reduction and Smelting Reduction 5: Coking, New Energy and Environment 6: Utilization of Solid Slag/Wastes and Complex Ores 7: Characterization of High Temperature Metallurgical Process

Keywords

high temperature metallurgical process preparation of metals, alloys, and ceramics high temperature processing of minerals treatment and recycling of metallurgical by-products metallurgical energy and environment

Editors and affiliations

  • Tao Jiang
    • 1
  • Jiann-Yang Hwang
    • 2
    • 3
  • Gerardo R. F. Alvear F.
    • 4
  • Onuralp Yücel
    • 5
  • Xinping Mao
    • 6
  • Hong Yong Sohn
    • 7
  • Naiyang Ma
    • 8
  • Phillip J. Mackey
    • 9
  • Thomas P. Battle
    • 10
  1. 1.School of Minerals Processing & BioengineeringCentral South UniversityChina
  2. 2.Materials Science and EngineeringMichigan Technological UniversityUSA
  3. 3.Wuhan Iron and Steel Group CompanyChina
  4. 4.Extractive and Processing DivisionThe Minerals, Metals & Materials Society (TMS)USA
  5. 5.Istanbul Technical University (ITU)Turkey
  6. 6.Research and Development CenterWuhan Iron and Steel (Group) CorporationChina
  7. 7.University of CaliforniaBerkeleyUSA
  8. 8.ArcelorMittal Global R&DEast Chicago LaboratoriesUSA
  9. 9.University of New South WalesAustralia
  10. 10.Midrex TechnologiesPinevilleUSA

Bibliographic information