Manufacturing Chapter 11.5-11.7
Defects possible in all casting processes
1. Misruns 2. Cold shuts 3. Cold shots 4. Shrinkage cavity 5. Microporosity 6. Hot tearing
Inspection tests
1. Pressure testing to locate leaks in a casting 2. Radiographic methods, magnetic particle tests, use of fluorescent penetrants, and supersonic testing 3. Mechanical tests on tensile strength and hardness
Defects possible only in sand casting
1. Sand blow 2. Pinholes 3. Sand wash 4. Scabs 5. Penetration 6. Mold shift 7. Core shift 8. Mold crack
Causes of misruns
1. The fluidity of the molten metal is insufficient 2. Pouring temperature is too low 3. Pouring is done too slowly 4. Cross-section of the mold cavity is too thin
Foundry inspection methods
1. Visual inspection of defects 2. Dimensional measurements to ensure tolerances have been met 3. Metallurgical, chemical, and physical tests to test quality 4.
Geometric simplicity
Although casting is a process that can be used to produce complex part geometries, simplifying the part design will improve its castability. Avoiding unnecessary complexities simplifies mold making, reduces the need for cores, and improves the strength of the casting.
Pinholes
Caused by the release of gas during pouring, consist of many small gas cavities formed at or slightly below the surface of the casting
When splattering occurs during pouring, solid globules of metal can become entrapped in the casting; this defect is called which one of the following?
Cold shot
Mold shift
Defect caused by a sidewise displacement of the mold cope relative to the drag
Core shift
Defect caused by a vertical displacement of the core relative to the drag
Sand blow
Defect consisting of balloon-shaped gas cavity caused by a release of mold gases during pouring. It occurs at or below the casting surface near the top of the casting. Low permeability, poor venting, and high moisture content are the usual cases
Mold crack
Defect that occurs when old strength is insufficient, and a crack develops, into which liquid metal can seep to form a "fin" on the final casting
Hot tearing
Defect that occurs when the casting is restrained from contraction by an unyielding mold during the final stages of solidification or early stages of cooling after solidification
Cold shots
Defects that occur when two portions of metal flow together but there is a lack of fusion between them from premature freezing
Shrinkage cavity
Depression in the surface or an internal void in the casting, caused by solidification shrinkage that restricts the amount of molten metal available in the last region to freeze
Sand wash
Irregularity on the surface of the casting that results from erosion of the sand mold during pouring, and the contour of the erosion s formed on the surface of the final cast part
Machining allowances
Machining allowances. Tolerances achievable in some casting processes are insufficient to meet functional needs in many applications. Sand casting is the most prominent example of this deficiency. In these cases, portions of the casting must be machined to the required dimensions. Almost all sand castings must be machined to some extent in order for the part to be made functional. Therefore, additional material, called the machining allowance, is left on the casting for machining those surfaces where necessary. Typical machining allowances for sand castings range between 1.5 mm and 3 mm (1/16 in and 1/4 in)
A misrun is which one of the following defects in casting?
Metal that solidifies before filling the cavity.
Microporosity
Network of small voids distributed throughout the casting caused by localized solidification shrinkage of the final molten metal in the dendritic strucutre
Cold shuts
Occur when two portions of the metal flow together but there is a lack of fusion between them from premature freezing. Causes are similar to a misruns
Scabs
Rough areas on the surface of the casting due to encrustations of sand and metal. They are caused by portions of the mold surface flaking off during solidification and becoming imbedded in the casting surface
An irregularity in the surface of the sand casting caused by erosion of the sand during pouring is called which one of the following?
Sand wash
Section thickness
Section thicknesses should be uniform in order to avoid shrinkage cavities. Thicker sections create hot spots in the casting, because greater volume requires more time for solidification and cooling. These are likely locations of shrinkage cavities
Corners
Sharp corners and angles should be avoided, because they are sources of stress concentrations and may cause hot tearing and cracks in the casting. Generous fillets should be designed on inside corners, and sharp edges should be blended
Penetration
Surface defect that occurs when the fluidity of the liquid metal is high, and it penetrates into the sand mold or sand core
Castabiltiy
The ease with which a cast part can be produced. Depends on: 1. Part design 2. Metal used for the casting 3. Proper selection of casting process to economically satisfy production requirement
Dimensional tolerances
There are significant differences in the dimensional accuracies that can be achieved in castings, depending on which process is used
Surface finish
Typical surface roughness achieved in sand casting is around 6 μm (250 μ-in). Similarly poor finishes are obtained in shell molding, while plaster-mold and investment casting produce much better roughness values: 0.75 μm (30 μ-in). Among the permanent-mold processes, die casting is noted for good surface finishes at around 1 μm (40 μ-in).
Misruns
castings that solidify before completely filling the mold cavity
