Chapter 8 - Shaping Processes for Plastics

Question 1

What are some of the reasons why plastic shaping processes are important? (5)

Answer 1

1) Many of the processes are net shape processes.
2) In general, less energy is employed than in metalworking processes
3) Lower temperatures are required to process plastics than metals of ceramics
4) There is great flexibility in geometry
5) Painting and other finishing processes are generally not required.

Question 2

Identify the main categories of plastics shaping processes, as classified by the resulting product geometry.

Answer 2

1) Extrusion
2) Molding
3) Forming of continuous sheets and films
4) Fibers
5) Foamed products
6) Discrete formed sheets and films

Question 3

Viscosity is an important property of a polymer melt in plastic shaping processes. Upon what parameters does viscosity depend? (3)

Answer 3

1) Temperature
2) Shear rate
3) Molecular weight of polymer

Question 4

How does the viscosity of a polymer melt differ from most fluids that are Newtonian?

Answer 4

A polymer melt exhibits pseudoplasticity, which means that its value decreases with increasing shear rate.

Question 5

What does viscoelasticity mean, when applied to a polymer melt?

Answer 5

Viscoelasticity is the combination of viscous and elastic properties which cause the melt to exhibit memory - the tendency to return to its previous shape, as exhibited by die swell in extrusion.

Question 6

Define die swell in extrusion.

Answer 6

Die swell is the tendency of the extrudate to expand in cross-sectional dimensions immediately on exiting the die orifice. It results from the viscoelastic properties of the polymer melt.

Question 7

Briefly describe the plastic extrusion process.

Answer 7

In plastic extrusion, a polymer melt is compressed to flow through a die orifice and thus the continuous length of the plastic assumes a cross sectional shape that is approximately the same as that of the orifice.

Question 8

The barrel and screw of an extruder are generally divided into three sections. Identify the sections.

Answer 8

1) The feed section, in which the feed stock is fed from the hopper and heated.
2) The compression section, in which the polymer changes to a viscous fluid.
3) The metering section, in which pressure is developed to pump the plastic through the die orifice.

Question 9

What are the functions of the screen pack and breaker plate at the die end of the extruder barrel?

Answer 9

1) Filter dirt and lumps.
2) Build pressure
3) Straighten the flow and remove memory of the polymer melt.

Question 10

What are the various forms of extruded shapes and corresponding dies?

Answer 10

1) Solid profiles, such as rounds and L shapes
2) Hollow profiles, such as tubes
3) Wire and cable coating
4) Sheet and film
5) Filaments (continuous fibers)

Question 11

What is the distinction between plastic sheet and film?

Answer 11

The distinction is based on thickness. Sheet stock has a thickness greater than 0.5mm while film stock is less than 0.5mm thick.

Question 12

What is the blown film process for producing film stock?

Answer 12

The blown film process is a widely used process for making thin polyethylene film for packaging. It combines extrusion and blowing to produce a tube of thin film. The process begins with the extrusion of a tube that is immediately drawn upward while still molten and simultaneously expanded in size by air inflated into it through the die mandrel.

Question 13

Describe the calendaring process.

Answer 13

Calendaring is a process for producing sheet and film stock out of rubber or rubbery thermoplastics. In the process, the initial feedstock is passed through a series of rolls to work the material and reduce its thickness to the desired gage.

Question 14

Polymer fibers and filaments are used in several applications; what is the most important application commercially?

Answer 14

Textiles.

Question 15

Technically, what is the difference between a fiber and a filament?

Answer 15

A fiber is a long, thin strand of material whose length is at least 100 times its diameter; a filament is a fiber of continuous length.

Question 16

Among the synthetic fiber materials, which are the most important?

Answer 16

Polyester followed by nylon, acrylics, and rayon.

Question 17

Briefly describe the injection molding process.

Answer 17

Injection molding is a process in which a polymer is heated to a highly plastic state and forced to flow under high pressure into a mold cavity, where it solidifies. The molding is then removed from the cavity.

Question 18

An injection molding machine is divided into two principal components. Name them.

Answer 18

1) Injection unit

2) Clamping unit

Question 19

What are the two basic types of clamping units?

Answer 19

1) Mechanical toggle clamp

2) Hydraulic

Question 20

What is the function of gates in injection molds?

Answer 20

To constrict the flow of molten plastic into the cavity, which increases the shear rate and reduces the viscosity of the polymer melt.

Question 21

What the the advantages of a three-plate mold over a two-plate mold in injection molding?

Answer 21

As the mold opens, the three-plate mold automatically separates the molded parts from the runner system.

Question 22

Discuss some of the defects that can occur in plastic injection molding.

Answer 22

1) Short shots, in which the polymer melt solidifies before filling the cavity.
2) Flashing, in which the polymer melt is squeezed into the parting surfaces between the mold halves and around ejection pins.
3) Sink marks, in which the surface is drawn into the molding by contraction of internal material.
4) Weld lines, where the melt has flowed around a core or other convex detail in the mold cavity and met from opposite directions.

Question 23

Describe structural foam molding.

Answer 23

l