Chapter 8 Mortar

Facing brick

Brick with appearance graded for exposed applications

English bond

Alternating stretcher and header courses

Solid bricks

Frequently not 100% solid lol

Molded bricks

Have more variation in texture and dimensional uniformity More expensive

Fly ash brick

Made from waste, sand, and water Molded Steam curing requires only 15% of energy than clay bricks

Brick forming

Molded (soft mud or dry press) Extruded (stiff mud)

Soft mud

Most clay is pressed Struck with water or sand Hand or machine pressing

Lime mortar

No cement Lime and sand used primarily for restoration

Portland cement-Lime Mortar ingredients

Portland cement Aggregate Hydrated Lime Water

Blended hydraulic cement

Portland cement mixed with other cementitious materials Replaces Portland cement in cement lime sand mortar mix

Hollow brick

Up to 60% void Lightweight Require less energy Can accommodate steel reinforcing

Building brick

Used in concealed locations where appearance is not a concern

Special shapes

Used to form arches, water tables, and other forms and features

Running bond

all stretchers

Flemish bond

alternating stretchers and headers in each course

Portland cement is a _____ cement

hydraulic hardens by chemically combining with water-hydration

Sailor

like solider but with broader side visible

Masonry cement

mix of "cementious materials" no added lime lower bond strength than cement-lime mortars

Course

one horizontal row of bricks

Wythe

one vertical stack of bricks

Potable water is suitable in

portland cement-lime mortar

Aggregate

sand, manufactured sand from crushed stone, gravel or furnace slag, Well graded mix with particles from .003-1.82

Head joint

vertical joint between bricks in the same course

Collar joint

vertical joint between wythes

Bed joints

horizontal joint between jourses

Stiff mud

Cheapest Extruded through die then sliced accounts for 90% of US made bricks post extrusion steps can be used to create variation in shape and texture

Most effective joints

Concave and vee joint

Dry-press

Dry and stiff Machine pressed into steel molds at high pressure

Brick firing

Drying and chemical transformation 10 to 40 hours of firing Affects color, uniformity, shape, hardness etc

Brick grade

Durability compressive strength water absroption Freeze thaw resistance

Portland cement

Fine particle size .0005 Calcium silicates Calcium from limestones, marble and other minerals Silica from clay, sand, shale, marl

Admixtures

Improves performa ice/ adjust properties: pigments, bond enhancer (flex/ freeze thaw) accelerators/ retarders (setting time in weather) water repellents workability enhancers

Quicklime

Limestone and other minerals are finely ground and heated to produce calcium and magnesium oxides

Mortar mix

Sand provides basic structural body of hardened mortar Cement binds particles Lime improves workability Water is necessary for consistency

Mortar cement

Similar to masonry cement Produced better comparable strength to

Common bond

Stretcher courses with a header row every 5 or 6 courses

Header

brick laid flat with end visible

Stretcher

brick laid flat with face visible

soldier

brick laid on its end with face visible

Rowlock

brick laid on its face with end visible

Mortar

cushions masonry units, ensuring uniform bearing seals joints between units, minimizing flow of air and water adheres units providing resistance to lateral forces (wind, earthquakes) contributes to appearance