Ch32 brazing soldering

Chapter 32
Brazing, Soldering, Adhesive-Bonding, and
Mechanical-Fastening Processes
Manufacturing, Engineering & Technology, Fifth Edition, by Serope Kalpakjian and Steven R. Schmid.
ISBN 0-13-148965-8. © 2006 Pearson Education, Inc., Upper Saddle River, NJ. All rights reserved.

Brazed and Soldered Parts
(a) (b)
(c) (d) (e)
Figure 32.1 Examples of brazed and soldered parts. (a) Resistance brazed light bulb
filament; (b) brazed radiator heat exchangers; (c) soldered circuit board; (d) brazed ring
housing; (e) brazed heat exchanger. Source: Courtesy of Edison Welding Institute.

Furnace Brazing
Figure 32.2 An example of furnace brazing: (a) before and (b) after brazing.
The filler metal is a shaped wire and moves into the interfaces by capillary
action with the application of heat.

Joint Designs used in Brazing
Figure 32.3 Joint designs commonly used in brazing operations. The
clearance between the two parts being brazed in an important factor in
joint strength. If the clearance is too small, the molten braze metal will not
penetrate the interface fully. If it is too large, there will be insufficient
capillary action for the molten metal to fill the interface.

Typical Filler Metals for Brazing Various Metals
and Alloys

Effect of Joint Clearance on Strength of Brazed Joints
Figure 32.4 The effect of joint clearance on tensile and shear strength of
brazed joints. Note that unlike tensile strength, shear strength continually
decreases as the clearance increases.

Induction-Brazing
Figure 32.5 Schematic illustration of a continuous
induction-brazing setup for increased productivity.

Good and Poor Brazing Design
Figure 32.6 Examples of good and poor design for brazing.
Source: American Welding Society.

Solder Types and Applications

Wave-
Soldering
(WS)
Figure 32.7 (a) Screening solder paste onto a printed circuit board in reflow
soldering. (b) Schematic illustration of the wave-soldering process. (c) SEM image
of a wave-soldered joint on surface0mount device. Source: (a) After V. Solberg.

Soldering Joint Designs
Figure 32.8 Joint designs commonly used for soldering.

Typical Properties and Characteristics of
Chemically Reactive Structural Adhesives

General
Characteristics of
Adhesives

Peeling Test of Brittle and Tough Adhesives
Figure 32.9 Characteristic behavior of (a) brittle and (b) tough adhesives in a peeling
test. This test is similar to the peeling of adhesive tape from a solid surface.

Joint Designs in Adhesive Bonding
Figure 32.10 Various joint designs in adhesive bonding. Note that the good
designs require large contact areas between the members to be joined.

Desirable
Configurations for
Adhesively Bonded
Joints
Figure 32.11 Desirable
configurations for adhesively
bonded joints: (a) single lap, (b)
double lap, (c) scarf, and (d)
strap.

Cobe Laboratories
Blood Reservoir
Figure 32.13 The Cobe Laboratories blood
reservoir. The lid is bonded to the bowl with
an airtight adhesive joint and tongue-in-groove
joint. Source: Courtesy of Cobe
Laboratories.

Rivets
Figure 32.14 Examples of rivets: (a) solid, (b) tubular,
(c) split or bifurcated, and (d) compression.

Riveting Design Guidelines
Figure 32.15 Design guidelines for riveting. (a) Exposed shank is too long; the
result is buckling instead of upsetting. (b) Rivets should be placed sufficiently far
from edges to avoid stress concentrations. (c) Joined sections should allow
ample clearance for the riveting tools. (d) Section curvature should not interfere
with the riveting process. Source: After J. G. Bralla.

Metal Stitching
Figure 32.16 Typical examples of metal stitching.

Double-Lock Seam
Figure 32.17 Stages in forming a double-lock seam.

Crimping
Figure 32.18 Two examples of mechanical joining by crimping.

Spring and Snap-In Fasteners
Figure 32.19 Examples of spring and snap-in fasteners used to facilitate assembly.

Ch32 brazing soldering

More Related Content

What's hot (20)

Viewers also liked (20)

Similar to Ch32 brazing soldering (20)

Recently uploaded (20)

Ch32 brazing soldering