Casting

#### Overview of Casting Technology

1. Q: What is casting in manufacturing?

A: A process where solid metal is melted, poured into a mold, and solidified into a desired shape in one step.

2. Q: What is a foundry?

A: A factory equipped for making molds, melting metal, casting, and finishing parts, staffed by foundrymen.

3. Q: What are the five basic steps of the casting process?

A: (1) Make mold, (2) Melt metal, (3) Pour into mold, (4) Solidify, (5) Remove from mold.

4. Q: Name two advantages of casting.

A: Can create complex geometries and has no size limit.

5. Q: What is a common disadvantage of sand casting?

A: Poor dimensional accuracy and surface finish.

6. Q: Give an example of a large part made by casting.

A: Engine block for automotive vehicles.

#### Casting Processes

7. Q: What distinguishes expendable mold processes?

A: The mold is destroyed after casting (e.g., sand, plaster).

8. Q: What material is typically used for permanent molds?

A: Metal (or sometimes ceramic refractory material).

9. Q: Which casting process is more economical for high production?

A: Permanent mold processes.

#### Fundamentals of Casting

10. Q: What are the six basic requirements for casting?

A: Mold cavity, melting process, pouring technique, solidification process, mold removal, finishing/inspection.

11. Q: What is the cope in a mold?

A: The upper half of the mold.

12. Q: Why is the mold cavity made oversized?

A: To account for shrinkage during solidification and cooling.

13. Q: What is the purpose of a riser in casting?

A: To supply molten metal to compensate for shrinkage during solidification.

14. Q: What is draft in casting?

A: A taper on patterns or cavities to allow easy removal from the mold.

#### Heating and Pouring

15. Q: What three types of heat are needed to melt metal for casting?

A: Heat to reach melting point, heat of fusion, and heat to superheat for pouring.

16. Q: What factors determine successful pouring?

A: Pouring temperature, pouring rate, and turbulence control.

17. Q: What is fluidity in casting?

A: The ability of molten metal to flow and fill a mold before freezing.

18. Q: How does high surface tension affect fluidity?

A: It reduces fluidity.

#### Solidification and Cooling

19. Q: How does a pure metal solidify differently from an alloy?

A: Pure metals solidify at a constant temperature; alloys freeze over a temperature range.

20. Q: What is the chill zone in a casting?

A: A layer of fine equiaxed grains formed by rapid cooling near the mold wall.

21. Q: What is Chvorinov’s Rule used to calculate?

A: Total solidification time (TST = Cm (V/A)^n).

22. Q: Which shape solidifies fastest: sphere, cube, or cylinder (same volume)?

A: Cube (highest surface area-to-volume ratio).

23. Q: What are the three stages of shrinkage in casting?

A: (1) Liquid contraction, (2) Solidification shrinkage, (3) Solid metal contraction.

24. Q: What is directional solidification?

A: A process where remote areas freeze first, progressing toward risers to minimize shrinkage voids.

25. Q: What causes gas porosity in castings?

A: Entrapped gases rejected during cooling due to lower solubility in solid metal.

#### Design and Engineering

26. Q: Why must a riser’s V/A ratio be higher than the casting’s?

A: To ensure the riser solidifies after the casting, feeding shrinkage.

27. Q: What does Bernoulli’s Theorem describe in casting?

A: The conservation of energy (pressure, kinetic, head) in fluid flow, used to calculate pouring velocity.

28. Q: How can aspiration in a sprue be prevented?

A: By tapering the sprue so the cross-sectional area adjusts with height.

29. Q: What is a general design rule for casting gates?

A: Gates should feed into thick sections of the casting.

30. Q: Why should casting designs avoid hot spots?

A: Hot spots (uneven sections) solidify last, causing shrinkage cavities.


General Bulk Deformation

Q: What are bulk deformation processes?

A: Metal forming operations causing significant shape change by plastic flow of bulk forms like bars, billets, or slabs.

Q: Name the four basic bulk deformation processes.

A: Rolling, forging, extrusion, wire and bar drawing.

Q: What is a key benefit of hot working in bulk deformation?

A: Allows significant shape change due to reduced strength and increased ductility.

Q: How does cold working enhance bulk deformation parts?

A: Increases strength through strain hardening.

Q: What does "near net shape" mean in bulk deformation?

A: Parts require little or no subsequent machining.

Q: What are typical starting forms for bulk deformation?

A: Cylindrical bars, billets, rectangular billets, and slabs.

Rolling

Q: What is rolling in metalworking?

A: A process where slab or plate thickness is reduced by compressive forces between opposing rolls.

Q: What percentage of deformed materials undergo rolling?

A: Over 90%.

Q: What is flat rolling used for?

A: Reducing thickness of a rectangular cross section.

Q: What is shape rolling?

A: Forming a square cross section into shapes like I-beams or rails.

Q: What is the purpose of backing rolls in a four-high rolling mill?

A: To support smaller work rolls and reduce deflection.

Q: How does a tandem rolling mill operate?

A: Uses a sequence of two-high mills for continuous reduction.

Q: What is a common defect in flat rolling due to high friction?

A: Wavy edges.

Q: What causes alligatoring in rolling?

A: Excessive deformation or sticking leading to surface splitting.

Q: What is the role of camber in rolling mills?

A: Compensates for roll bending to ensure uniform strip thickness.

Q: Why is hot rolling more common than cold rolling?

A: It allows large deformations due to lower material strength.

Q: What improves in cold-rolled sheet compared to hot-rolled?

A: Surface finish and dimensional tolerances.

Q: What is thread rolling?

A: A cold working process to form threads on cylindrical parts using dies.

Q: What is an advantage of thread rolling over machining?

A: Stronger threads due to work hardening.

Q: What does ring rolling produce?

A: Thin-walled rings of larger diameter from thick-walled rings.

Rolling-Related Processes

Q: What is roll piercing used for?

A: Creating seamless tubes by exploiting internal cracks in a compressed bar.

Q: What controls the hole size in roll piercing?

A: A mandrel.

Q: What is roll forging also known as?

A: Cross-rolling.

Q: What are examples of roll-forged products?

A: Tapered leaf springs and knives.

Q: What happens in ball rolling?

A: Steel balls are formed by skew-rolling or upsetting for bearings.

Forging

Q: What is forging?

A: Controlled plastic deformation of metal into a predefined shape by pressure or impact.

Q: How old is the forging process?

A: Dates back to about 5000 BC.

Q: What is an advantage of forging over casting?

A: Work hardening increases strength.

Q: What are the three main types of forging dies?

A: Open-die, impression-die, flashless.

Q: What is open-die forging also called?

A: Upsetting or upset forging.

Q: What causes barreling in open-die forging?

A: Friction between work and die surfaces.

Q: What is the role of flash in impression-die forging?

A: Constrains metal flow to fill the die cavity.

Q: Why is impression-die forging often manual?

A: Requires skilled operators under adverse conditions.

Q: What is a limitation of impression-die forging?

A: Not capable of close tolerances; machining is often needed.

Q: How does flashless forging differ from impression-die forging?

A: No excess flash is created; the work is fully constrained.

Q: What is coining in forging?

A: A flashless process to mint coins with sharp details.

Q: What is upsetting used for?

A: Forming heads on nails, bolts, and similar hardware.

Q: What is swaging?

A: A process using rotating dies to taper a workpiece radially.

Q: What is a typical swaged product?

A: Tapered rods or tubes.

Q: What equipment applies an impact load in forging?

A: Drop hammers (gravity or power).

Forging Equipment and Economics

Q: What is the speed range of a hydraulic forging press?

A: 0.06-0.30 m/s.

Q: Which forging equipment has the highest speed range?

A: Counterblow hammer (4.5-9.0 m/s).

Q: Why are hydraulic presses expensive in forging?

A: High initial cost, though easier to maintain.

Q: When is forging more economical than casting for a connecting rod?

A: For large quantities.

Q: What reduces setup and tooling costs in forging?

A: Increasing the number of pieces forged with the same die.

Extrusion

Q: What is extrusion?

A: A process forcing metal through a die opening to form a uniform cross-sectional shape.

Q: What are the two basic types of extrusion?

A: Direct (forward) and indirect (backward/reverse).

Q: What is the "butt" in direct extrusion?

A: The small portion of billet that cannot be forced through the die.

Q: Why is indirect extrusion limited?

A: Lower rigidity of the hollow ram and difficulty supporting the extruded product.

Q: What enhances grain structure in cold extrusion?

A: Work hardening.

Q: What is a disadvantage of cold extrusion?

A: High stresses on machinery and die wear without lubrication.

Q: What defect can occur in extrusion with high friction?

A: Pipe (extrusion) defect.

Q: What is impact extrusion?

A: High-speed cold extrusion, often for collapsible tubes.

Q: What should be avoided in extruded cross-section design?

A: Sharp corners and non-uniform thicknesses.

Wire and Bar Drawing

Q: How does wire drawing differ from extrusion?

A: Work is pulled through the die instead of pushed.

Q: What is the typical cross-sectional shape in wire drawing?

A: Circular.

Q: What distinguishes wire drawing from bar drawing?

A: Wire drawing uses smaller diameter stock (down to 0.03 mm).

Q: What limits the maximum reduction per pass in drawing?

A: Draw stress exceeding the yield strength causes elongation instead of reduction.

Q: What is the purpose of annealing in wire drawing?

A: Relieves work hardening between dies.

Q: What is a common product of bar drawing?

A: Metal bars for machining or forging.