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Search Symbol (Half-width) Description of Search Symbols
Space "AND" indicates the intertwining of key terms used in a search
Double Quotation Marks ("") ( " " ) Double quotation marks indicate the beginning and end of a phrase, and the search will only include terms that appear in the same order of those within the quotations. Example: "image process" : " image process "
? Indicates a variable letter. Entering two ? will indicate two variable letters, and so on. Example: "Appl?", search results will yield apple, apply… e , appl y … ( (often used to English word searches) )
* Indicates an unlimited number of variable letters to follow, from 1~n. Example: Enter "appl*", search results will yield apple, apples, apply, applied, application…(often used in English word searches) e , appl es , appl y , appl ied , appl ication … ( (often used to English word searches) )

Boolean logic combinations of key words is a skill used to expand or refine search parameters.
(1) AND (1) AND: Refines search parameters
(2) OR (2) OR: Expands search parameters (3) NOT: Excludes irrelevant parameters


DOI stands for Digital Object Identifier ( D igital O bject I dentifier ) ,
and is the unique identifier for objects on the internet. It can be used to create persistent link and to cite articles.

Using DOI as a persistent link

To create a persistent link, add「」 「 」 before a DOI.
For instance, if the DOI of an article is 10.5297/ser.1201.002 , you can link persistently to the article by entering the following link in your browser: 10.5297/ser.1201.002
The DOI link will always direct you to the most updated article page no matter how the publisher changes the document's position, avoiding errors when engaging in important research.

Cite a document with DOI

When citing references, you should also cite the DOI if the article has one. If your citation guideline does not include DOIs, you may cite the DOI link.

DOIs allow accurate citations, improve academic contents connections, and allow users to gain better experience across different platforms. Currently, there are more than 70 million DOIs registered for academic contents. If you want to understand more about DOI, please visit airiti DOI ) 。

Abstract 〈TOP〉
Parallel Abstract 〈TOP〉
Reference ( 78 ) 〈TOP〉
  1. [5] F. Yoshikawa and J. Szekely, "Mechanism of Blast Furnace Hearth Erosion," Ironmaking and Steelmaking, vol. 8, pp. 159-168, 1981.
  2. [9] J. Szekely and K. Nakanishi, "Stirring and its Effects on Aluminum Deoxidation in the ASEA-SKF Furnace: Part II. Mathematical Representation of the Turbulent Flow Field and of Tracer Dispersion," Metallurgical and Materials Transactions B, vol. 6B, pp. 245-256, 1975.
  3. [10] J. Szekely, J. J. Wang, and K. M. Kiser, "Flow Pattern Velocity and Turbulence Energy Measurements and Predictions in a Water Model of an Argon-Stirred Ladle " Metallurgical and Materials Transactions B, vol. 7B, pp. 287-295, 1976.
  4. [12] A. Preuer, J. Winter, and H. Hiebler, "Computation of the Iron Flow in the Hearth of a Blast Furnace," Steel research, vol. 63, pp. 139-146, 1992.
  5. [13] S. K. Dash, D. N. Jha, S. K. Ajmani, and A. Upadhyaya, "Optimisation of Taphole Angle to Minimise Flow Induced Wall Shear Stress on the Hearth," Ironmaking and Steelmaking, vol. 31, pp. 207-215, 2004.
Times Cited (4) 〈TOP〉
  1. 林忠豪(2009)。高爐爐下部鐵水流動中鈦化合物濃度分佈之數值模擬。中興大學化學工程學系所學位論文。2009。1-130。 
  2. 葉晉佑(2009)。鐵水流動中爐蕊飄浮高度影響高爐爐床底部侵蝕之數值模擬。中興大學化學工程學系所學位論文。2009。1-80。
  3. 張家銘(2010)。利用CFD技術預測高爐爐床與高爐流道侵蝕狀況。中興大學化學工程學系所學位論文。2010。1-114。
  4. 鄭煇煌(2012)。高爐爐腹以下爐襯應力解析。中興大學精密工程學系所學位論文。2012。1-128。
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