Kalpakjian Schmid Manufacturing Engineering and Technology © 2001 Prentice-Hall Page 10-1 CHAPTER 10 Fundamentals of Metal-Casting.

Slides:



Advertisements
Similar presentations
Metal Alloys: Structure and Strengthening by Heat Treatment
Advertisements

Fundamental of Metal Casting
Ken YoussefiMechanical Engineering Dept., SJSU 1 Fundamentals of Casting Casting, one of the oldest manufacturing processes, dates back to 4000 B.C. when.
ME 330 Manufacturing Processes CASTING PROCESSES (cont.)
FUNDAMENTALS OF CASTING
INTRODUNCTION Casting process is one of the earliest metal shaping techniques known to human being. Casting process consists of pouring molten metal into.
CHAPTER 2 DR . Ahmad Hassan.
Fundamental of Metal Casting Chapter 10
FUNDAMENTALS OF METAL CASTING
Casting Processes Example Parts Requirements Terminology
ME 3351 Manufacturing Processes Tutorial 2 Eng. Ahmad Aljazea.
MT-284 MANUFACTURING PROCESSES
授課教師:楊宏智教授 1 【本著作除另有註明外,採取創用 CC 「姓名標示 -非商業性-相同方式分享」台灣 3.0 版授權釋出】創用 CC 「姓名標示 -非商業性-相同方式分享」台灣 3.0 版 【本著作除另有註明外,採取創用 CC 「姓名標示 -非商業性-相同方式分享」台灣 3.0 版授權釋出】創用.
Manufacturing, Engineering & Technology, Fifth Edition, by Serope Kalpakjian and Steven R. Schmid. ISBN © 2006 Pearson Education, Inc.,
CHAPTER 5 Ferrous Metals and Alloys: Production, General Properties, and Applications.
Kalpakjian Schmid Manufacturing Engineering and Technology © 2001 Prentice-Hall Page 12-1 CHAPTER 12 Metal Casting: Design, Materials, and Economics.
Chapter 3 Structure and Manufacturing Properties of Metals
NITC. Some basics - you had in FoundrySand casting. Steps: »1.Mechanical Drawing of the part »2. Making pattern- about pattern material. »3.Making cores-
Solidification and Grain Size Strengthening
Fundamentals of Casting Manufacturing Processes
MSE 440/540: Processing of Metallic Materials
Metal Casting Processes
FUNDAMENTALS OF METAL CASTING
Manufacturing Processes
Casting Workshop Technology
11.1 Introduction Six activities and their sequence for almost every manufactured products Design Material selection Process selection Manufacture Inspection.
0 Casting since about 4000 BC… Ancient Greece; bronze statue casting circa 450BC Iron works in early Europe, e.g. cast iron cannons from England circa.
IE 337: Materials & Manufacturing Processes
MT-284 MANUFACTURING PROCESSES INSTRUCTOR: SHAMRAIZ AHMAD MS-Design and Manufacturing Engineering Topic: Casting Defects and Mold.
Casting Processes I Dermot Brabazon Ref: Kalpakjian, Serope, Manufacturing engineering and technology. - 3rd ed. Reading, Mass : Addison-Wesley, 1995.
Manufacturing, Engineering & Technology, Fifth Edition, by Serope Kalpakjian and Steven R. Schmid. ISBN © 2006 Pearson Education, Inc.,
METAL CASTING PROCESSES 1.Permanent Mold Casting Processes ©2007 John Wiley & Sons, Inc. M P Groover, Fundamentals of Modern Manufacturing 3/e.
Manufacturing, Engineering & Technology, Fifth Edition, by Serope Kalpakjian and Steven R. Schmid. ISBN © 2006 Pearson Education, Inc.,
Fundamentals of Metal Casting
Chapter 11: Fundamentals of Casting
Chapter 11 Fundamentals of Casting (Review) EIN 3390 Manufacturing Processes Spring 2012.
Manufacturing, Engineering & Technology, Fifth Edition, by Serope Kalpakjian and Steven R. Schmid. ISBN © 2006 Pearson Education, Inc.,
材料科学与工程学院 College of Materials Science & Engineering Page 1 Page 1 Fundamental of Materials Forming - Metal Casting: Design, Materials, and Economics.
Lecture 15 Extrusion die design
Manufacturing Engineering Technology in SI Units, 6th Edition PART II: Metal Casting Processes and Equipment Presentation slide for courses, classes,
Fundamentals of Metal Casting
Manufacturing, Engineering & Technology, Fifth Edition, by Serope Kalpakjian and Steven R. Schmid. ISBN © 2006 Pearson Education, Inc.,
Casting & Welding Engineering (IE 203) Second Year, Industrial Engineering Dept., Faculty of Engineering, Fayoum University Dr. Ahmed Salah Abou Taleb.
Landmark University, MECH DEPT., MCE 329, ADEDIRAN A.A
Kalpakjian Schmid Manufacturing Engineering and Technology © 2001 Prentice-Hall Page 12-1 CHAPTER 12 Metal Casting: Design, Materials, and Economics.
Fundamentals of Casting Prepared by : Hossein.A.Tabibian ASNT LEVEL III Spring, Nazeran Daghigh Tadbir
Manufacturing, Engineering & Technology, Fifth Edition, by Serope Kalpakjian and Steven R. Schmid. ISBN © 2006 Pearson Education, Inc.,
11.1 Introduction Six activities and their sequence for almost every manufactured products Design Material selection Process selection Manufacture Inspection.
Chapter 11 Fundamentals of Casting EIN 3390 Manufacturing Processes Summer A, 2012.
1Module 4b Casting process (continued). Module 4a2 Casting Principle of the process Structure Process modeling Defects/quality control Design and DFM.
Chapter 11 Fundamentals of Casting EIN 3390 Manufacturing Processes Spring 2011.
CASTING PROCESS.
Chapter 5: Metal-Casting Processes and Equipment; Heat Treatment
CASTING DEFECTS -Occurs because some steps in manufacture cycle do not get properly controlled and somewhere goes wrong 1.Blow Holes - appear as cavities.
1 CASTING DEFECTS Submitted to, A.R.Patel M.K.Patel Submitted by, Jaymin Panchal Subject : MP-II.
Extrusion and Drawing of Metals
MSE 440/540: Processing of Metallic Materials
DR S. & S. S. GHANDHY GOVERNMENT ENGINEERING COLLEGE , SURAT.
CHAPTER 5 Ferrous Metals and Alloys: Production, General Properties, and Applications.
Fundamentals of Metal Casting
Fundamentals of Metal-Casting
Chapter 12 Metal Casting: Design, Materials, and Economics
Part II Metal-Casting Processes and Equipment
Casting Design Modifications
FUNDAMENTALS OF METAL CASTING
Solidification Time Whether the casting is pure metal or alloy, solidification takes time. The total solidification time is the time required for the casting.
Sand casting. Steps: 1.Mechanical Drawing of the part
Fundamentals of Metal Casting
Metal Casting: Design, Materials, and Economics
Presentation transcript:

Kalpakjian Schmid Manufacturing Engineering and Technology © 2001 Prentice-Hall Page 10-1 CHAPTER 10 Fundamentals of Metal-Casting

Kalpakjian Schmid Manufacturing Engineering and Technology © 2001 Prentice-Hall Page 10-2 Cast Structures of Metals Figure 10.1 Schematic illustration of three cast structures of metals solidified in a square mold: (a) pure metals; (b) solid-solution alloys; and (c) structure obtained by using nucleating agents. Source: G. W. Form, J. F. Wallace, J. L. Walker, and A. Cibula.

Kalpakjian Schmid Manufacturing Engineering and Technology © 2001 Prentice-Hall Page 10-3 Preferred Texture Development Figure 10.2 Development of a preferred texture at a cool mold wall. Note that only favorably oriented grains grow away from the surface of the mold.

Kalpakjian Schmid Manufacturing Engineering and Technology © 2001 Prentice-Hall Page 10-4 Alloy Solidification Figure 10.3 Schematic illustration of alloy solidification and temperature distribution in the solidifying metal. Note the formation of dendrites in the mushy zone.

Kalpakjian Schmid Manufacturing Engineering and Technology © 2001 Prentice-Hall Page 10-5 Solidification Patterns Figure 10.4 (a) Solidification patterns for gray cast iron in a 180-mm (7-in.) square casting. Note that after 11 min. of cooling, dendrites reach each other, but the casting is still mushy throughout. It takes about two hours for this casting to solidify completely. (b) Solidification of carbon steels in sand and chill (metal) molds. Note the difference in solidification patterns as the carbon content increases. Source: H. F. Bishop and W. S. Pellini.

Kalpakjian Schmid Manufacturing Engineering and Technology © 2001 Prentice-Hall Page 10-6 Cast Structures Figure 10.5 Schematic illustration of three basic types of cast structures: (a) columnar dendritic; (b) equiaxed dendritic; and (c) equiaxed nondendritic. Source: D. Apelian. Figure 10.6 Schematic illustration of cast structures in (a) plane front, single phase, and (b) plane front, two phase. Source: D. Apelian.

Kalpakjian Schmid Manufacturing Engineering and Technology © 2001 Prentice-Hall Page 10-7 Riser-Gated Casting Figure 10.7 Schematic illustration of a typical riser-gated casting. Risers serve as reservoirs, supplying molten metal to the casting as it shrinks during solidification. See also Fig Source: American Foundrymen’s Society.

Kalpakjian Schmid Manufacturing Engineering and Technology © 2001 Prentice-Hall Page 10-8 Fluidity Test Figure 10.8 A test method for fluidity using a spiral mold. The fluidity index is the length of the solidified metal in the spiral passage. The greater the length of the solidified metal, the greater is its fluidity.

Kalpakjian Schmid Manufacturing Engineering and Technology © 2001 Prentice-Hall Page 10-9 Temperature Distribution Figure 10.9 Temperature distribution at the interface of the mold wall and the liquid metal during solidification of metals in casting.

Kalpakjian Schmid Manufacturing Engineering and Technology © 2001 Prentice-Hall Page Solidification Time Figure Solidified skin on a steel casting. The remaining molten metal is poured out at the times indicated in the figure. Hollow ornamental and decorative objects are made by a process called slush casting, which is based on this principle. Source: H. F. Taylor, J. Wulff, and M. C. Flemings.

Kalpakjian Schmid Manufacturing Engineering and Technology © 2001 Prentice-Hall Page Solidification Contraction for Various Cast Metals

Kalpakjian Schmid Manufacturing Engineering and Technology © 2001 Prentice-Hall Page Hot Tears Figure Examples of hot tears in castings. These defects occur because the casting cannot shrink freely during cooling, owing to constraints in various portions of the molds and cores. Exothermic (heat-producing) compounds may be used (as exothermic padding) to control cooling at critical sections to avoid hot tearing.

Kalpakjian Schmid Manufacturing Engineering and Technology © 2001 Prentice-Hall Page Casting Defects Figure Examples of common defects in castings. These defects can be minimized or eliminated by proper design and preparation of molds and control of pouring procedures. Source: J. Datsko.

Kalpakjian Schmid Manufacturing Engineering and Technology © 2001 Prentice-Hall Page Internal and External Chills Figure Various types of (a) internal and (b) external chills (dark areas at corners), used in castings to eliminate porosity caused by shrinkage. Chills are placed in regions where there is a larger volume of metals, as shown in (c).

Kalpakjian Schmid Manufacturing Engineering and Technology © 2001 Prentice-Hall Page Solubility of Hydrogen in Aluminum Figure Solubility of hydrogen in aluminum. Note the sharp decrease in solubility as the molten metal begins to solidify.