A No one really knows the age of brick masonry.
B Common sense would dictate that the lack of construction materials for shelter in lands where no natural stone was available, would lead to innovations with whatever material is at hand
C Where there was land there was soil, and if there was water there was mud. And soil particles stick together and form a hard mass when the sun dries the moisture.
D Mud bricks were molded by hand and allowed to dry in the sun, and stockpiled for future use. Small units were easily handled.
2. History of Brick Masonry
A No one really knows the age of brick masonry.
B Common sense would dictate that the lack of
construction materials for shelter in lands where
no natural stone was available, would lead to
innovations with whatever material is at hand
C Where there was land there was soil, and if
there was water there was mud. And soil particles
stick together and form a hard mass when the sun
dries the moisture.
D Mud bricks were molded by hand and allowed
to dry in the sun, and stockpiled for future use.
Small units were easily handled.
3. E Mud bricks were stacked with mud mortar,
which varied in thickness to accommodate
irregular shapes.
F It was learned that the best bricks were made
of soil that had very tiny particles and became
sticky when wet. The material we call clay.
G In the southwest regions of North America,
“Adobe” bricks were made of a clay that has
come to be known as adobe clay, which was
particularly good for making mud bricks. Adobe
was further strengthened by adding short strands
of straw to the mix. Adobe bricks are still made
and used today.
4. H Consistency of size did not become prevalent
until units were cast into molds, which greatly
facilitated ease of assembly.
I The industrial revolution of the late 1800s
brought about the firing of masonry in kilns,
which made the units very hard and strong.
J In the early 1900s other materials surpassed
brick in use because of strength requirements for
buildings too tall and heavy to be supported by a
“mass” type wall.
K But brick has and intimacy about it that
remains a warm and friendly material for use in
construction of residences and office buildings
5. BRICK MORTAR
A Mortar is a vital part of brick construction.
B As bricks are made of clay, then fired in a
furnace to remove the moisture and make them
hard, they are impossible to make in exact,
consistent size – but in modern day it is close.
C In early times, mortar was used as a cushion to
align the assembly process to maintain square
and plumb in a structure. Additional strength in
the mortar mix was not necessary because it was
made of the same material as brick.
D But since fired bricks are much stronger than
the original sun-dried clay, the strength of mortar
was improved to make stronger buildings.
6. E With the development of natural cement for the
manufacture of concrete, it became a natural
matrix for masonry mortar.
F Mortar is a mix much like concrete; which
consists of stone aggregates held together by a
matrix. In the case of concrete, that consists of a
gradation of large rocks, smaller rocks, and still
smaller particles (sand) – all mixed consistently
and held together by a paste of cement and water,
which hardens by a chemical process called
hydration.
G Masonry mortar is a mixture of sand, cement,
and water, with the addition of lime to lend
smoothness and workability to the mix.
7. Mortar Functions
Provides for full bearing of weight
Maintains the strength of the masonry wall
Seals against moisture and vermin
Bonds the masonry units together
It should be a part of the
aesthetic value of a
building.
8. MAKING BRICKS
A Early molding of bricks was done by shaping a
mass of mud by hand.
B Then individual single molds made of wood
increased production and consistency of size.
C Then multiple molds made of wood increased
production even more.
D Today, very sophisticated methods exist for
shaping bricks by extruding clay through a steel
form, then cutting to individual units with wire.
10. E The making of bricks became more
sophisticated with units extruded and wire cut,
then fired in gas kilns. Production and quality of
units increased tremendously.
F The color of bricks up until approximately 20
years ago depended upon the color of clay, which
was found in large deposits in the ground.
G Constant use of brick as a veneer in residential
and commercial construction as population grew,
led to depletion of consistent color clay deposits.
H Now, nearly all brick used in residential
construction are made of any clay, but given their
color by a slurry mix that is applied to the units
before firing.
11. Basic types of brick:
○ Common brick: Units made of clay where
color and surface finish are not a factor,
because of use as a “backup” structural
material in an area where it will never be seen.
○ Face brick: Units made where appearance is
the main consideration. Face brick for
commercial use is still made with specific
colors of clay.
○ Special bricks may be made for specific
purposes. Should an Architect desire a
special shape to be used in creating an
unusual desired effect in a design, brick
companies will custom make the units.
12. ○ Fire brick is made of a specific type of white
clay, with special additives for use in the
firebox of fireplaces, ovens, kilns, and other
firing mechanisms.
○ Bricks, generally are made with holes (except
fire brick) to reduce the weight of material not
needed for structure, and to provide a method
for additional adherence of mortar.
○ Bricks made of the same material as concrete
masonry units are available on a limited basis,
but have never been accepted for widespread
use.
13. BRICK SHAPES AND SIZES
The text shows a chart with 12 sizes of bricks, but
all available sizes and shapes are not listed.
Two shapes of brick are commonly used, but
many others are made for specific purpose.
○ Modular Brick – nominally lay 8” long, 4” thick,
& 3 courses high = 8”. Texas Tech uses
modular brick. For use where strength and
appearance is important.
○ King Size Brick – nominally lay 10” long, 3”
thick, & 2 ½” high. For use as a veneer where
economy is the main concern.
14. Eight modular size bricks are required to lay
one square foot of surface wall, but it takes only
5.4 king size bricks for the same area. So, king
size brick are made strictly for economy.
Bricks shapes made for appearance:
○ Roman brick – basically 12” long, 4” thick, 1
½” high.
○ Norman brick – basically 12” long, 4” thick, 3
courses = 8” high.
○ Big Johns – basically 12” long, 4” thick, 4”
high.
15. BRICK ARRANGEMENT TERMINOLOGY
A Bricks are laid in a variety of arrangements,
mostly today for the sake of appearance. In
earlier times when a wall consisted of several
layers thickness, bricks were turned endways
through the wall for structural bond. Named
patterns evolved in the process, such as English
bond, Flemish bond, etc.
B Common course pattern for structure and
appearance:
Stretcher – Bricks laid flat end to end.
Soldier – Laid vertically so the outside long
edge shows.
Rowlock - Laid so the end shows,
vertically.
Header – Laid so the end shows, horizontally
17. Brickwork Terminology
Header - Bonds two wythes together
Wythe: vertical layer 1 unit thick
Soldier - Laid on its end, face parallel
Rowlock -
laid on face,
end visible
Stretcher - long dimension horizontal
& face parallel to the wall
18. Brick Masonry - Sizes and Shapes
There is No standard size
Normal coursing - 3 modular bricks = 8”
Larger sizes available
Custom shapes & colors are available
19.
20. Masonry Joints
Various tools are used
to treat the surface
finish of mortar joints.
Some are done to
repel water, but most
are done for
appearance.
Concave
Flush
Raked
Stripped
Struck
Weathered
Vee
Rich History
MANY OF THE GREAT WORKS OF ARCHITECTURE (EGYPTIANS, ROMANS, ETC)
MANY STILL STANDING TODAY
Through the mid-1800’s
Primary Building Materials
MASONRY, STONE, WOOD
Late 1800’s
New Products Developed
REINF. CONCRETE, STRUCTURAL STEEL
Ended Masonry’s Dominance
MASONRY HEAVY - LABOR INTENSIVE
LIMITED HEIGHTS & MASSIVE FDN
LIGHTER, MORE VERSATILE, MORE ECONOMICAL
SAME TIME - CMU
CHEAPER THAN CUT STONE, < LABOR THAN BRICK
OFTEN COMBINED WITH BRICK/STONE
Provides for “full” bearing
MASONRY UNITS IRREGULAR
“CUSHIONS” FULL BEARING
Seals between masonry units
WATER
WIND
Adheres / bonds masonry units
STRUCTURAL BOND
Aesthetics
USUALLY 20% OF SURFACE
IMPORTANT CONSIDERATION
GENERALY
“MOCKUP”
ARCHITECT / OWNER APP’L
PRIOR TO THE START OF MASONRY
20th Century Developments
Steel Reinforced Masonry
GREATER SUPPORT / LESS WEIGHT
High Strength Mortars
GREATER STRENGTH
IMPROVED RESISTANCE TO THE ELEMENTS
High Strength Masonry Units
Variety of Sizes, Colors & Coatings
IMPROVED “ARCHITECTURAL” VARIETY
REFER TO PAGE 269
Course
HORIZONTAL LAYER OF MASONRY UNITS
Head & Bed Joints
Wythe
VERTICAL LAYER OF UNITS - ONE UNIT THICK
Stretcher
FACE PARALLEL TO WALL
LONG DIMENSION HORIZONTAL
Header
LAID TO BOND TWO WYTHES TOGETHER
Soldier
LAID ON ITS END
FACE PARALLEL TO WALL
USES- VISUAL EFFECT
Rowlock
LAID ON ITS FACE
END VISIBLE
USES - CAPS, SILLS
SLIDE 4280-3
No “standard” size
SOME “COMMON” BRICK SIZES
“Normal” coursing - 3 bricks = 8”
MATCH CMU COURSING
Larger sizes
MORE ECONOMICAL TO LAY
HIGHER STRENGTH
BUT - CHANGE WALL APPEARANCE
Custom Shapes & Colors
AVAILABLE - BUT
LEAD TIME
COST
Size
1/4 TO 1/2, TYPICALLY - 3/8”
Joint Tooling
USE A “TOOL”
COMPACT MORTAR
IMPROVE RESISTANT TO H2O WIND
VISUAL APPEARANCE
Joint Profiles