Footer, Beam, Stem Wall – As far as STACK assemblies are concerned, these terms are interchangeable. All refer to structures in the foundation with length, width, and depth measured using a Volume 3D or Linear takeoff.

Column, Pier – these terms refer to concrete that typically has a larger vertical component, whether into the ground or supporting part of the structure above.

Continuous Rebar – This is rebar that runs along the length of the footer or beam

Cages, Stirrups – These terms refer to rebar bent into a circle or rectangle or U-shape surrounding and supporting vertical or continuous rebar.

Horizontal Rebar - this refers to two different types of rebar, depending on the assembly. In the “Concrete Wall – 3D” assembly it refers to rebar that runs along the length of the wall and spaced evenly going up the wall. In footer and beam assemblies, horizontal rebar sits perpendicular to the continuous rebar with length approximately equal to the width of the footing or beam. This type of rebar is sometimes called transverse rebar or cross-bridging.

Bar Lap Count – the number of rebar diameters needed to make up the splice length. This is often confused with the splice length itself. The equation to determine this number is Rebar Diameter X Bar Lap Count = Splice Length. For example, if we have #4 rebar and a 2 foot splice length, our equation is .5 X Bar Lap Count = 24 then Bar Lap Count = 24/.5 = 48.

Number Of Rebar Needed - Enter the number of pieces of rebar needed for each count

Length Of Rebar Need In Feet - Enter the length of each piece of rebar

Rebar for "L Intersection" Corner - Uses both variables and takeoff total for calculations

Rebar for "T Intersections" - Uses both variables and takeoff total for calculations and multiples the result by 2

Rebar for "+ Intersections" - Uses both variables and takeoff total for calculations and multiples the result by 4

Stirrup Spacing In - used to calculate stirrup rebar

Beam Width In - width of the concrete, used to calculate stirrup rebar

Continuous Rebar Count - how many pieces or rebar run along the length of the beam

Rebar Waste 1 to 100 - enter a number as a percentage of waste you want added

Rebar Stock Length Feet - the length of the rebar you typically order

Bar Lap Count - Click here for a description

Crew Production Lbs Per Hour - used to calculate labor hours

Cont Bar Size - the number of rebar you chose from the item group (3, 4, 5, etc.), used for calculating tie wire

Stirrup Bar Size - the number of rebar you chose from the item group (3, 4, 5, etc.), used for calculating tie wire

Beam Depth In - depth of the concrete, used to calculate stirrup rebar

16 Gauge Tie Wire - by the roll, calculated using all variables

Continuous Rebar - rebar by the pound or linear foot

Rebar Stirrups - rebar by the pound or linear foot

Reinforcing Crew For Cont. Bars - yielding crew hours

Column Diameter In – Enter the diameter of the column in inches.

Column Height In – Enter the height (vertical dimension) of the column in inches, can also be the depth if this is a pier.

Vertical Rebar Count – Enter the number of pieces of rebar that run vertically in the column.

Rebar Waste 1 to 100 – Enter a percentage waste factor for rebar.

Cage Rebar Spacing In – Enter the spacing of cages in inches.

Anchors Per Column – The number of anchor bolts required per column.

Vert Bar Size – Used to calculate tie wire and rebar labor crew, enter the vertical rebar’s number (3, 4, 5, etc.).

Cage Bar Size - Used to calculate tie wire and rebar labor crew, enter the cage rebar’s number (3, 4, 5, etc.).

Crew Production Lbs Per Hr – For your rebar placement crew, enter the amount of rebar they can place in pounds.

16 Gauge Tie Wire – based on the number(s) of your rebar chosen in variables and the column dimensions.

Choose Vertical Rebar – Contains rebar items from #3 to #8 in either pounds or feet, calculated based on column dimensions and the rebar count

Choose Cage Rebar - Contains rebar items from #3 to #8 in either pounds or feet, calculated based on column dimensions and the cage spacing

Choose Anchor Bolts – Items calculated based on takeoff total and bolts per column variable

Rebar Crew In Pounds Per Hour – Choose a rebar crew, total hours calculated based on all rebar variables and takeoff total

Column Height In – the column’s vertical dimension, whether height or depth, entered in inches

Vertical Rebar Count – how many pieces of rebar are placed vertically in the column

Rebar Waste 1 To 100 – enter a percentage waste factor for rebar

Cage Rebar Spacing In – enter the spacing of your cages as they go up the column in inches

Column Width In – one of the horizontal dimensions of the column

Column Length In – the other horizontal dimension of the column

Vert Bar Size - enter the vertical rebar's number, used for calculating tie wire

Cage Bar Size - enter the cage rebar's number, used for calculating tie wire

Anchors Per Column - how many anchor bolts you need per column

16 Gauge Tie Wire – based on the number(s) of your rebar chosen in variables and the column dimensions

Choose Concrete – Items for structural concrete from 2500 to 5500 PSI, calculated based on takeoff total and column dimension variables

Form Material – Contains sonotube items from 8” to 48” diameter

Vertical Rebar – Contains rebar items from #3 to #8 in either pounds or feet, calculated based on column dimensions and the rebar count

Cage Rebar - Contains rebar items from #3 to #8 in either pounds or feet, calculated based on column dimensions and the cage spacing

Formwork Crew In Columns Per Hour – Choose a forming crew, total hours calculated based on takeoff total and form production variable

Concrete Crew In Cubic Yards Per Hour – Choose a concrete placement crew, total hours calculated based on total concrete and place production variable

Anchor Bolts – Items calculated based on takeoff total and bolts per column variable

Rebar Crew In Pounds Per Hour – Choose a rebar crew, total hours calculated based on all rebar variables and takeoff total

Wall height In - enter the height of the concrete, used to calculate vertical and horizontal rebar

Rebar Waste 1 To 100 - enter a percentage waste factor for rebar

Vertical Rebar Spacing In - enter rebar spacing in inches

Horizontal Rebar Spacing In - enter rebar spacing in inches

Rebar Mat Count - how many mats of rebar are to be installed in the wall

Rebar Stock Length Feet - the length of the rebar you typically order

Bar Lap Count - Click here for a description

Vert Bar Size - the number of the rebar you chose

Horz Bar Size - the number of the rebar you chose

Crew Production Lbs Per Hr - the productivity of the labor crew you chose

16 Gauge Tie Wire - based on the number(s) of your rebar chosen in variables and the wall dimensions

Vertical Rebar Reinforcing - choose rebar by the foot or pound, length of each will be the wall height, the total considers linear takeoff and rebar spacing variable

Horizontal Rebar Reinforcing - choose rebar by the foot or pound, length will be figured using the wall height, linear takeoff, spacing variable and bar lap count

Rebar Crew In Pounds Per Hour - choose a labor crew whose productivity is specified in the associated variable

Footer Width In - width of the concrete, used to figure horizontal/transverse rebar

Continuous Rebar Count - how many runs of rebar go along the length of the concrete

Horizontal Rebar Spacing In - used to calculate horizontal/transverse rebar

Vertical Dowel Spacing In - used to calculate vertical dowels

Vertical Dowel Length Ft - total length of each vertical dowel, including hooks, bends, etc.

Rebar Waste 1 To 100 - enter a percentage waste factor

Rebar Stock Length Feet - the length of the rebar you typically order

Bar Lap Count - Click here for a description

Cont Bar Size - the number of the rebar you chose

Cross Bar Size - the number of the rebar you chose

Vert Dowel Size - the number of the rebar you chose

Crew Production Lbs Per Hr - the productivity of the labor crew you chose

Stirrup Spacing In Feet - used to calculate stirrup rebar

Stirrup Length In Feet - total length of each stirrup

16 Gauge Tie Wire - based on the number(s) of your rebar chosen in variables and the footing dimensions

Choose Continuous Rebar Reinforcing - choose rebar by the pound or linear foot, calculated using count variable, takeoff measurement and bar lap count

Choose Rebar Cross-Bridging - choose rebar by the foot or pound, calculated using takeoff length and horizontal/transverse/cross variables

Add Rebar Chairs - calculated at one chair per continuous rebar run and every 4 feet

Add Vertical Dowels (if used) - choose rebar by the foot or pound, calculated using takeoff length and vertical dowel variables

Rebar Crew In Pounds Per Hour - choose a labor crew whose productivity is specified in the associated variable

Rebar For Stirrups (if used) - Choose rebar by the foot or pound, calculated using takeoff length and stirrup variables

Footer Width Ft - One horizontal dimension of the footing

Footer Height Ft - the other horizontal dimension of the footing

Rebar Count - how many pieces of rebar go one way, this assumes both ways have the same count, so if they are different, an average count should suffice

Top Bar Size - the number of the rebar chosen

Bot Bar Size - the number of the rebar chosen

Crew Production Lbs Per Hr - the productivity of the labor crew chosen

16 Gauge Tie Wire - based on the number(s) of your rebar chosen in variables and the footing dimensions

Rebar Each Way @ Bottom - Choose rebar by the foot or by the pound, calculated using the footing dimensions and rebar count

Rebar Each Way @ Top - Choose rebar by the foot or by the pound, calculated using the footing dimensions and rebar count

Rebar Crew In Pounds Per Hr - choose a labor crew whose productivity is specified in the associated variable

Rebar Waste 1 To 100 - Enter a percentage waste factor

Rebar Stock Length Feet - the length of rebar you typically order

Bar Lap Count - Click here for a description

Rebar Spacing In - the "on-center" number, spacing of the rebar in inches

Bar Size - the number of the rebar you chose

Crew Production Lbs Per Hr - productivity of the crew chosen

Reinforcing Chairs Sq Ft Per Each - square foot spacing of rebar chairs

16 Gauge Tie Wire - based on the number of your rebar chosen in variables and the takeoff dimensions

Rebar Reinforcing (On Center Each Way) - choose rebar in feet or pounds

Reinforcing Crew - choose a crew with productivity rate in the related variable

Choose Rebar Chairs - chairs will be calculated based on total takeoff area and spacing variable

Rebar Waste 1 To 100 - enter a percentage waste factor

Sqft Per Rebar Chair - square foot spacing of rebar chairs

Top Rebar Spacing In - the on-center number for the top mat of rebar

Bottom Rebar Spacing In - the on-center number for the bottom mat of rebar

Rebar Stock Length Feet - the length of rebar you typically order

Bar Lap Count - Click here for a description

Bot Bar Size - the number of rebar chosen

Top Bar Size - the number of rebar chosen

Crew Production Lbs Per Hr - productivity of the crew chosen

16 Gauge Tie Wire - based on the number(s) of your rebar chosen in variables and the takeoff dimensions

Bottom Rebar Reinforcing (On Center Each Way) - choose rebar by the foot or pound, calculated using the takeoff total, spacing variable, bar lap count and stock length

Top Rebar Reinforcing (On Center Each Way) - choose rebar by the foot or pound, calculated using the takeoff total, spacing variable, bar lap count and stock length

Add Rebar Chairs (sf per each chair) - calculated using takeoff measurement and spacing variable

Rebar Crew Production - choose a labor crew, calculated by takeoff value and productivity variable

Footer Width Ft - One of the horizontal dimensions of the column/pier

Footer Height Ft - The other horizontal dimension

Footer Depth In - the vertical dimension of the column/pier

Concrete Waste 1 To 100 - enter a percentage waste factor for the concrete

Rebar Count - how many pieces of rebar go "one way"

Anchor Bolts Per Column - necessary if using anchor bolts

Excavate Production Cy Per Hr - productivity rate of the excavation crew you choose

Place Production Cy Per Hr - productivity rate of the concrete crew you choose

Depth To Top Of Footer In - if excavating and the top of your footing is below ground level, this is the distance from the top of the footing to ground level, used to calculate total dirt excavated

Top Bar Size - the number (size) of rebar on the top mat

Bot Bar Size - the number (size) of rebar on the bottom mat

Crew Production Lbs Per Hr - productivity rate of the rebar crew you choose

Foundation, Square Feet - total square footage viewed from the top

Footer Count - takeoff count total

Excavation Quantity - total amount excavated equaling the volume of concrete plus volume above determined by "Depth To Top Of Footer In" variable

16 Gauge Tie Wire - determined by rebar calculations and bar size variables

Concrete - calculated using the takeoff total and dimension variables

Rebar @ Bottom - the bottom mat of rebar calculated using rebar count and horizontal concrete dimension variables

Rebar @ Top - the top mat of rebar calculated using rebar count and horizontal concrete dimension variables

Anchor Bolts - based on takeoff total and anchor bolt variable

Excavation Crew In Cubic Yards Per Hour - calculated using excavation volume and productivity variable

Concrete Placing Crew - calculated using concrete volume and productivity variable

Rebar Crew In Pounds Of Steel Per Hour - calculated using rebar total and productivity variable

Column Diameter In – Enter the diameter of the column in inches.

Column Height In – Enter the height (vertical dimension) of the column in inches, can also be the depth if this is a pier.

Concrete Waste 1 to 100 – Enter a percentage waste factor for concrete.

Vertical Rebar Count – Enter the number of pieces of rebar that run vertically in the column.

Rebar Waste 1 to 100 – Enter a percentage waste factor for rebar.

Cage Rebar Spacing In – Enter the spacing of cages in inches.

Form Production Column Per Hr – For your forming labor crew, enter the number of columns your forming crew can install in one hour.

Place Production Cy Per Hr – For your concrete placement crew, enter the amount of concrete they can place in cubic yards in one hour.

Anchors Per Column – The number of anchor bolts required per column.

Vert Bar Size – Used to calculate tie wire and rebar labor crew, enter the vertical rebar’s number (3, 4, 5, etc.).

Cage Bar Size - Used to calculate tie wire and rebar labor crew, enter the cage rebar’s number (3, 4, 5, etc.).

Crew Production Lbs Per Hr – For your rebar placement crew, enter the amount of rebar they can place in pounds.

16 Gauge Tie Wire – based on the number(s) of your rebar chosen in variables and the column dimensions.

Poured Columns, Round – a Summary type item that simply reflects the takeoff total.

Choose Concrete – Items for structural concrete from 2500 to 5500 PSI, calculated based on takeoff total and column dimension variables

Form Material – Contains sonotube items from 8” to 48” diameter

Vertical Rebar – Contains rebar items from #3 to #8 in either pounds or feet, calculated based on column dimensions and the rebar count

Cage Rebar - Contains rebar items from #3 to #8 in either pounds or feet, calculated based on column dimensions and the cage spacing

Formwork Crew In Columns Per Hour – Choose a forming crew, total hours calculated based on takeoff total and form production variable

Concrete Crew In Cubic Yards Per Hour – Choose a concrete placement crew, total hours calculated based on total concrete and place production variable

Anchor Bolts – Items calculated based on takeoff total and bolts per column variable

Rebar Crew In Pounds Per Hour – Choose a rebar crew, total hours calculated based on all rebar variables and takeoff total

Column Height In – the column’s vertical dimension, whether height or depth, entered in inches

Concrete Waste 1 To 100 – enter a percentage waste factor for concrete

Vertical Rebar Count – how many pieces of rebar are placed vertically in the column

Rebar Waste 1 To 100 – enter a percentage waste factor for rebar

Cage Rebar Spacing In – enter the spacing of your cages as they go up the column in inches

Column Width In – one of the horizontal dimensions of the column

Column Length In – the other horizontal dimension of the column

Form Production SF Per Hour – how many square feet of forming can your forming crew place in an hour

Place Production CY Per Hour – how many cubic yards of concrete your placing crew can do in an hour

Anchors Per Column - how many anchor bolts you need per column

16 Gauge Tie Wire – based on the number(s) of your rebar chosen in variables and the column dimensions

Poured Columns, Round – a Summary type item that reflects the takeoff total

Choose Concrete – Items for structural concrete from 2500 to 5500 PSI, calculated based on takeoff total and column dimension variables

Form Material – Contains sonotube items from 8” to 48” diameter

Vertical Rebar – Contains rebar items from #3 to #8 in either pounds or feet, calculated based on column dimensions and the rebar count

Cage Rebar - Contains rebar items from #3 to #8 in either pounds or feet, calculated based on column dimensions and the cage spacing

Formwork Crew In Columns Per Hour – Choose a forming crew, total hours calculated based on takeoff total and form production variable

Concrete Crew In Cubic Yards Per Hour – Choose a concrete placement crew, total hours calculated based on total concrete and place production variable

Anchor Bolts – Items calculated based on takeoff total and bolts per column variable

Rebar Crew In Pounds Per Hour – Choose a rebar crew, total hours calculated based on all rebar variables and takeoff total

Concrete Waste 1 To 100 - enter a percentage waste factor

Stirrup Spacing In - used to calculate stirrup rebar

Beam Width In - the other horizontal dimension of the footing, used to calculate excavation totals and stirrup rebar

Beam Depth In - the vertical dimension of the beam, used to calculate excavation totals and stirrup rebar

Continuous Rebar Count - how many runs of rebar go along the length of the beam

Formed Side Count - how many sides of the beam need forms

Form Production Lf Per Hr - productivity rate for the forming crew chosen

Place Production Cy Per Hr - productivity rate for the concrete crew chosen

Rebar Waste 1 To 100 - enter a percentage waste factor

Excavation Width In - width of trench to be excavated

Excavation Depth In - depth of trench to be excavated

Excavate Production Cy Per Hr - productivity rate for the excavation crew chosen

Rebar Stock Length Feet - the length of rebar you typically order

Bar Lap Count - Click here for a description

Cont Bar Size - the number of the rebar chosen

Stirrup Bar Size - the number of the rebar chosen

Crew Production Lbs Per Hr - productivity rate for the rebar crew chosen

Grade Beam Linear Feet - summary item reflecting the linear component of your takeoff

16 Gauge Tie Wire - calculated using the rebar totals and size variables

Excavation Quantity - total amount to be excavated

Choose Concrete - based on takeoff volume

Continuous Rebar - by the foot or pound, based on linear footage from the takeoff, bar lap count and continuous count variable

Rebar Stirrups - choose rebar by the foot or pound, calculated using beam dimensions and spacing variable

Add Form Panels - based on beam dimensions and count variable

Choose Excavation Crew - requires the productivity variable to calculate

Choose Forming Crew - requires the productivity variable to calculate

Choose Concrete Placing Crew - requires the productivity variable to calculate

Rebar Crew In Pounds Of Steel - requires the productivity variable to calculate

Concrete Waste 1 To 100 - enter a percentage waste factor

Rebar Waste 1 To 100 - enter a percentage waste factor

Sqft Per Rebar Chair - the square foot spacing of rebar chairs

Top Rebar Spacing In - your on center number in inches

Bottom Rebar Spacing In - your on center number in inches

Depth To Top Of Footer Inches - if excavating and the top of your footing is below ground level, this is the distance from the top of the footing to ground level, used to calculate total dirt excavated

Excavate Production Cy Per Hr - the productivity rate of the crew chosen

Place Production Cy Per Hr - the productivity rate of the crew chosen

Anchor Bolt Count - number of bolts per footer

Rebar Mat Count - this variable is not currently used

Rebar Stock Length Feet - the length of rebar you typically order

Bar Lap Count - Click here for a description

Bot Bar Size - the number of the rebar you chose

Top Bar Size - the number of the rebar you chose

Crew Production Lbs Per Hr - the productivity rate of the crew chosen

Foundation, Square Feet - summary item showing the area of the footing from the top

16 Gauge Tie Wire - calculated using the rebar totals and size variables

Excavation Quantity - calculated using the concrete total, takeoff area and depth to top of footing variable

Choose Concrete - based on takeoff total volume

Bottom Rebar Reinforcing (On Center Each Way) - choice of rebar by the foot or pound, giving you one of the mats of rebar in the footing

Top Rebar Reinforcing (On Center Each Way) - choice of rebar by the foot or the pound, giving you one of the mats of rebar in the footing

Add Rebar Chairs (sf per each chair) - calculated using the area component from your takeoff and the spacing variable

Excavation Crew (depth to footer & cy per hour) - requires the productivity variable to calculate

Crew To Place Concrete - requires the productivity variable to calculate

Choose Anchor Bolts - total count of footers times the anchor bolt variable

Rebar Crew In Pounds Of Steel Per Hour - requires the productivity variable to calculate

Wall Height In - the height of the concrete wall, used to calculate rebar

Concrete Waste 1 To 100 - enter a percentage waste factor

Rebar Waste 1 To 100 - enter a percentage waste factor

Waler Runs - used for calculating waler brackets and snap ties

Vertical Rebar Spacing In - on center spacing for vertical rebar along the length of the wall

Horizontal Snap Tie Spacing In - on center spacing of snap ties along the length of the wall

Horizontal Rebar Spacing In - on center spacing of horizontal rebar going up the wall

Form Production Sf Per Hr - the productivity rate of the crew chosen

Place Production Cy Per Hr - the productivity rate of the crew chosen

Linear Ft Per Anchor Bolt - anchor bolt spacing

Rebar Mat Count - how many mats or "grids" of rebar present in the wall

Rebar Stock Length Feet - the length of rebar you typically order

Bar Lap Count - Click here for a description

Vert Bar Size - the number of the rebar you chose

Horz Bar Size - the number of the rebar you chose

Crew Production Lbs Per Hr - the productivity rate of the crew chosen

16 Gauge Tie Wire - calculated using the rebar totals and size variables

Poured Wall, Linear Feet - summary item reflecting the linear component of the takeoff

Poured Wall, Square Feet - summary item reflecting the square footage of the wall

A16 Omni Wedge - based on the linear footage of the takeoff, waler run variable and snap tie spacing

Concrete (Optional) - calculated using the takeoff total

Rebar Vertical Reinforcing - available by the foot or pound, calculated using wall dimensions, spacing variable and mat count

Rebar Horizontal Reinforcing - available by the foot or pound, calculated using wall dimensions, spacing variable and bar lap count

Form Panels (Optional) - calculated using wall dimensions

Add For Waler Brackets - calculated using the length of the wall and waler bracket variable

Snap Ties (optional) - calculated using the length of the wall, snap tie spacing and waler bracket variables

Form Crew - requires the productivity variable to calculate

Concrete Placing Crew - requires the productivity variable to calculate

Anchor Bolts (optional) - calculated using the length of the wall and anchor bolt spacing variable

Waterstop (Optional) - equals the length of the wall

Rebar Crew In Pounds of Steel - requires the productivity variable to calculate

Footer Width In - used to calculate concrete volume and transverse rebar

Concrete Waste 1 To 100 - enter a percentage waste factor

Continuous Rebar Count - the number of rebar runs going along the length of the footing

Horizontal Rebar Spacing In - used to calculate horizontal/transverse rebar

Vertical Dowel Spacing In - used to calculate vertical dowels

Vertical Dowel Length Ft - the total length of one vertical dowel, including any bends, J's or hooks

Excavate Production Lf Per Hr - the productivity rate of the crew you chose

Place Production Cy Per Hr - the productivity rate of the crew you chose

Rebar Waste 1 To 100 - enter a percentage waste factor

Depth To Top Of Footer In - if excavating and the top of your footing is below ground level, this is the distance from the top of the footing to ground level, used to calculate total dirt excavated

Rebar Stock Length Feet - the length of rebar you typically order

Bar Lap Count - Click here for a description

Footer Depth In - the vertical dimension of the footing

Cont Bar Size - the number of rebar you chose

Cross Bar Size - the number of rebar you chose

Vert Dowel Size - the number of rebar you chose

Crew Production Lbs Per Hr - the productivity rate of the crew you chose

Stirrup Spacing In Feet - used for calculating stirrup rebar

Stirrup Length In Feet - total length of one stirrup piece

Foundation, Linear Feet - summary item reflecting the linear takeoff total

16 Gauge Tie Wire - calculated using the rebar totals and size variables

Foundation, Square Feet - summary item reflecting the area of the footing when viewed from above

Excavation Quantity - total amount of dirt excavated calculated using footing volume and depth to top of footer variable

Choose Concrete - calculated using the takeoff total and dimension variables

Rebar Continuous Reinforcing - by the foot or pound, calculated using linear takeoff total, rebar count variable and bar lap count

Rebar Cross-Bridging (IF USED) - transverse rebar by the foot or pound, calculated using linear takeoff total, rebar spacing variable and footing width variable

Add Rebar Chairs - one chair per continuous rebar count spaced at 4 feet

Add Rebar Vertical Dowels - by the foot or pound, calculated using linear takeoff total, length and spacing variables

Excavation Crew By linear Feet Of Trench - requires the productivity variable to calculate

Rebar Crew By Pounds Of Steel - requires the productivity variable to calculate

Concrete Placing Crew - requires the productivity variable to calculate

Rebar Stirrups (IF USED) - by the foot or pound, calculated using the linear takeoff total, length and spacing variables

Footer Width In - used to calculate horizontal/transverse rebar

Concrete Waste 1 To 100 - enter a percentage waste factor

Continuous Rebar Count - the number of rebar runs going along the length of the footing

Horizontal Rebar Spacing In - used to calculate horizontal/transverse rebar

Vertical Dowel Length Ft - used to calculate vertical rebar

Excavate Production Lf Per Hr - the productivity rate of the crew you chose

Reinforcing Production Lf Per Hr - the productivity rate of the crew you chose

Place Production Cy Per Hr - the productivity rate of the crew you chose

Rebar Waste 1 To 100 - enter a percentage waste factor

Depth To Top Of Footer In - if excavating and the top of your footing is below ground level, this is the distance from the top of the footing to ground level, used to calculate total dirt excavated

Rebar Stock Length Feet - the length of rebar you typically order

Bar Lap Count - Click here for a description

Cont Bar Size - the number of rebar you chose

Cross Bar Size - the number of rebar you chose

Vert Dowel Size - the number of rebar you chose

Vertical Dowel Spacing In - used to calculate vertical dowels

Crew Production Lbs Per Hr - the productivity rate of the crew you chose

Excavation Production Cy Per Hour - the productivity rate of the crew you chose

Stirrup Spacing In Feet - used to calculate stirrups

16 Gauge Tie Wire - calculated using the rebar totals and size variables

Foundation, Linear Feet - summary item reflecting the linear takeoff total

Foundation, Square Feet - summary item reflecting the area of the footing when viewed from above

Excavation Quantity - total amount of dirt excavated calculated using footing volume and depth to top of footer variable

Select Concrete - calculated using the takeoff volume total

Add Continuous Reinforcing - by the foot or pound, calculated using linear takeoff total, rebar count variable and bar lap count

Add Rebar Cross-Bridging (IF USED) - transverse rebar by the foot or pound, calculated using linear takeoff total, rebar spacing variable and footing width variable

Add Rebar Chairs - one chair per continuous rebar count spaced at 4 feet

Add Rebar Vertical Dowels - by the foot or pound, calculated using linear takeoff total, length and spacing variables

Excavation Crew Per linear Feet Of Trench - requires the productivity variable to calculate

Reinforcing Crew Per linear Feet Of Trench - requires the productivity variable to calculate

Concrete Placing Crew - requires the productivity variable to calculate

Reinforcing Crew per Pound - requires the productivity variable to calculate

Excavation Crew Per CY - requires the productivity variable to calculate

Rebar Stirrups (IF USED) - by the foot or pound, calculated using the linear takeoff total, length and spacing variables

Base Depth In - used to calculate aggregate base

Concrete Waste 1 To 100 - enter a percentage waste factor

Place Finish Production Sf Per Hr - the productivity rate of the crew you chose

Finish Grade Production Sf Per Hr - the productivity rate of the crew you chose

Reinforcing Chairs Sq Ft Per Ea - the square foot spacing of rebar chairs

Choose Concrete - calculated using the takeoff volume

Choose If Using WWM Reinforcing - calculated based on the square footage from the takeoff

Add Aggregate Base If Required - calculated using square footage from the takeoff and the base depth variable

Add Vapor Barrier If Required - calculated using the square footage from the takeoff

Add For Fibrous Reinforcing - based on the volume from the takeoff

Choose Finish - summary or labor items reflecting the square footage of the takeoff

Choose Crew For Place & Finish - requires the productivity variable to calculate

Choose Crew For Finish Grade Work - requires the productivity variable to calculate

Rebar Chairs - calculated using the area from the takeoff and spacing variable

Base Depth In - used to calculate aggregate base

Concrete Waste 1 To 100 - enter a percentage waste factor

Place Finish Production Sf Per Hr - the productivity rate of the crew you chose

Finish Grade Production Sf Per Hr - the productivity rate of the crew you chose

Choose Concrete - calculated using the takeoff volume

Choose If Using WWM Reinforcing - calculated based on the square footage from the takeoff

Add Aggregate Base If Required - calculated using square footage from the takeoff and the base depth variable

Add Vapor Barrier If Required - calculated using the square footage from the takeoff

Add For Fibrous Reinforcing - based on the volume from the takeoff

Choose Finish - summary or labor items reflecting the square footage of the takeoff

Choose Crew For Place & Finish - requires the productivity variable to calculate

Choose Crew For Finish Grade Work - requires the productivity variable to calculate

Base Depth In - used to calculate aggregate base

Concrete Waste 1 To 100 - enter a percentage waste factor

Place Finish Production Sf Per Hr - the productivity rate of the crew you chose

Finish Grade Production Sf Per Hr - the productivity rate of the crew you chose

Choose Concrete - calculated using the takeoff volume

Choose If Using WWM Reinforcing - calculated based on the square footage from the takeoff

Add Aggregate Base If Required - calculated using square footage from the takeoff and the base depth variable

Add Vapor Barrier If Required - calculated using the square footage from the takeoff

Add For Fibrous Reinforcing - based on the volume from the takeoff

Choose Finish - summary or labor items reflecting the square footage of the takeoff

Choose Crew For Place & Finish - requires the productivity variable to calculate

Choose Crew For Finish Grade Work - requires the productivity variable to calculate

Concrete Waste 1 To 100 - enter a percentage waste factor

Place Finish Production Sf Per Hr - the productivity rate of the crew you chose

Choose Concrete - calculated using the takeoff volume

Choose Finish - summary or labor items reflecting the square footage of the takeoff

Choose Crew For Place & Finish - requires the productivity variable to calculate

Concrete Waste 1 To 100 - enter a percentage waste factor

Stirrup Spacing In - used to calculate stirrups

Beam Width In - the horizontal dimension (along with the length from the takeoff) of the beam, used to calculate stirrups

Beam Depth In - the vertical dimension of the beam, used to calculate stirrups

Continuous Rebar Count - how many runs of rebar go along the length of the beam

Formed Side Count - how many side of the beam need forms

Form Production Lf Per Hr - the productivity rate of the crew you chose

Place Production Cy Per Hr - the productivity rate of the crew you chose

Rebar Waste 1 To 100 - enter a percentage waste factor

Rebar Stock Length Feet - the length of rebar you typically order

Bar Lap Count - Click here for a description

Stirrup Bar Size - the number of rebar you chose

Crew Production Lbs Per Hr - the productivity rate of the crew you chose

Cont Bar Size - the number of rebar you chose

16 Gauge Tie Wire - calculated based on the takeoff volume

Elevated Concrete Beam - Summary item reflecting the linear component of your takeoff

Shoring Jack - one every 4 feet of takeoff length

Choose Concrete - calculated using the takeoff volume

Continuous Rebar - by the foot or pound, calculated using linear takeoff total, rebar count variable and bar lap count

Rebar Stirrups - by the foot or pound, calculated using beam dimensions and spacing variables

Add Form Panels - calculated using the linear footage from the takeoff and side count variable

Form Crew In Linear Feet per Hour - requires the productivity variable to calculate

Rebar Crew In Pounds Per Hour - requires the productivity variable to calculate

Concrete Placing Crew In Cubic Yards Per Hour - requires the productivity variable to calculate

Concrete Waste 1 To 100 - enter a percentage waste factor

Place Finish Production Sf Per Hr - the productivity rate of the crew you chose

Choose Concrete - calculated using the takeoff volume

Choose If Using WWM Reinforcing - based on the area component of the takeoff

Add For Fibrous Reinforcing - based on the volume of the takeoff

Choose Finish - summary or labor items reflecting the square footage of the takeoff

Choose Crew For Place & Finish - requires the productivity variable to calculate

Concrete Waste 1 To 100 - enter a percentage waste factor

Form Production Sf Per Hr - the productivity rate of the crew you chose

Place Finish Production Sf Per Hr - the productivity rate of the crew you chose

Erection Production Sf Hr - the productivity rate of the crew you chose

Form Release, Wood Forms - calculated using the area from the takeoff

Choose Concrete - based on the volume from the takeoff

Choose Form Crew - requires the productivity variable to calculate

Choose Place & Finish Crew - requires the productivity variable to calculate

Choose Erection Crew - requires the productivity variable to calculate

Concrete Waste 1 To 100 - enter a percentage waste factor

Form Production Sf Per Hr - the productivity rate of the crew you chose

Place Finish Production Sf Per Hr - the productivity rate of the crew you chose

Erection Production Sf Hr - the productivity rate of the crew you chose

Form Release, Wood Forms - calculated using the area from the takeoff

Choose Concrete - based on the volume from the takeoff

Choose Form Liner - equal to the area from the takeoff

Choose Form Crew - requires the productivity variable to calculate

Choose Place & Finish Crew - requires the productivity variable to calculate

Choose Erection Crew - requires the productivity variable to calculate

Gutter Width In - horizontal dimension used to calculate the gutter portion of concrete

Curb Height In - vertical dimension used to calculate the curb portion of concrete

Gutter Depth In - vertical dimension used to calculate the gutter portion of concrete

Concrete Waste Percentage - enter a percentage waste factor

Base Stone Width In - horizontal dimension used to calculate aggregate base

Base Stone Depth In - vertical dimension used to calculate aggregate base

Form Production Lf Per Hr - the productivity rate of the crew you chose

Place Finish Production Lf Per Hr - the productivity rate of the crew you chose

Grading Production Lf Per Hr - the productivity rate of the crew you chose

Curb Width In - horizontal dimension used to calculate the curb portion of concrete

Choose Concrete - based on the linear footage from the takeoff and curb dimension variables

Choose Curb Type - offers summary items describing the curb and reflecting the linear footage from the takeoff

Add Aggregate Base Stone - calculated using Linear takeoff total and stone dimension variables

Choose Grading Crew - requires the productivity variable to calculate

Choose Form Crew - requires the productivity variable to calculate

Choose Place & Finish Crew - requires the productivity variable to calculate

Curb Width In - one horizontal dimension of the concrete

Curb Height In - the vertical dimension of the concrete

Concrete Waste 1 To 100 - enter a percentage waste factor

Stone Base Depth In - used to calculate aggregate base

Grade Production Lf Per Hr - the productivity rate of the crew you chose

Form Production Lf Per Hr - the productivity rate of the crew you chose

Place Finish Production Lf Per Hr - the productivity rate of the crew you chose

DOT Flush Curb & Gutter - a summary item reflecting the linear footage from the takeoff

Choose Concrete - based on the linear footage from the takeoff and curb dimension variables

Add Aggregate Base Stone - calculated using Linear takeoff total and stone depth variable

Choose Grading Crew - requires the productivity variable to calculate

Choose Form Crew - requires the productivity variable to calculate

Choose Place & Finish Crew - requires the productivity variable to calculate

Curb Width In - one horizontal dimension of the concrete

Curb Height In - the vertical dimension of the concrete

Concrete Waste 1 To 100 - enter a percentage waste factor

Stone Base Depth In - used to calculate aggregate base

Grade Production Lf Per Hr - the productivity rate of the crew you chose

Form Production Lf Per Hr - the productivity rate of the crew you chose

Place Finish Production Lf Per Hr - the productivity rate of the crew you chose

Box Curb - a summary item reflecting the linear footage from the takeoff

Choose Concrete - based on the linear footage from the takeoff and curb dimension variables

Add Aggregate Base Stone - calculated using Linear takeoff total and stone depth variable

Choose Grading Crew - requires the productivity variable to calculate

Choose Form Crew - requires the productivity variable to calculate

Choose Place & Finish Crew - requires the productivity variable to calculate

Stake Spacing In Feet - required to calculate the stakes items

Group 2 Forms - calculated by dividing the linear perimeter of the takeoff by the length of the chosen board

Group 1 Forms - calculated by dividing the linear perimeter of the takeoff by the length of the chosen board

Stakes - calculated using the linear perimeter of the takeoff and stake spacing variable

Stake Spacing In Feet - required to calculate the stakes items

Group 2 Forms - calculated by dividing the linear perimeter of the takeoff by the length of the chosen board and multiplying by 2

Group 1 Forms - calculated by dividing the linear perimeter of the takeoff by the length of the chosen board and multiplying by 2

Stakes - calculated using the linear perimeter of the takeoff and stake spacing variable