dura bar iron

Products >  Dura Bar Iron Alloys
Atlas Bronze carries Dura bar's Continuous Cast Iron Products in number of shapes and sizes.  We carry G2 Gray Iron (Class 40) and Ductile Iron's 65-45-12 and 80-55-06. 
Full list of Continuous Cast Iron Alloys:
Automatic Molding Machine Ductile Iron - 65-45-12
Plates - Continuous Cast


Ductile Iron - 80-55-06
Solid Bar - Continuous Cast
Rectangle - Continuous Cast
Ingots - Continuous Cast


What is the Continuous Process?
It is the process where molten metal is poured into a die that is composed of carbon graphite. This die is surrounded by a cooling "jacket" where water flows thus chilling and solidifying the cast tube, bar or shape.  As the die exits from the furnace by gravity, the casting solidifies into it's intended shape. The solidified casting is then removed by pull rolls.  The "chilling" process  reduces the size of the grain allowing the casting to exit from the lower section of the holding furnace yielding a casting with a homogenous micro-structure.

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 Solid Bar
Cored Bars
Ingot
(Round/Rectangle)
Rectangle / Square
The NEW Atlas Bronze brochure featuring the whole product line with some NEW features!


Grade
Matrix 
/Graphite
Ductile Irons:
65-45-12
80-55-06

Gray Iron:
G2
Tensile 
Strength 
Yield
Strength

Elongation
Fatigue
Strength
65,000 psi
80,000 psi


40,000 psi *
45,000 psi
55,000 psi


       n/a
12
6


n/a
40,000 psi
40,000 psi


20,000 psi
Which one do you need?  Compare:
Legend:
FlakeNodular
Ferritic                               Pearlitic
Available Shapes:
What is the Continuous Process?
It is the process where molten metal is poured into a die that is composed of carbon graphite. This die is surrounded by a cooling "jacket" where water flows thus chilling and solidifying the cast tube, bar or shape.  As the die exits from the furnace by gravity, the casting solidifies into it's intended shape. The solidified casting is then removed by pull rolls.  The "chilling" process  reduces the size of the grain allowing the casting to exit from the lower section of the holding furnace yielding a casting with a homogenous micro-structure.

What is the Continuous Process?
It is the process where molten metal is poured into a die that is composed of carbon graphite. This die is surrounded by a cooling "jacket" where water flows thus chilling and solidifying the cast tube, bar or shape.  As the die exits from the furnace by gravity, the casting solidifies into it's intended shape. The solidified casting is then removed by pull rolls.  The "chilling" process  reduces the size of the grain allowing the casting to exit from the lower section of the holding furnace yielding a casting with a homogenous micro-structure.

What is the Continuous Process?
It is the process where molten metal is poured into a die that is composed of carbon graphite. This die is surrounded by a cooling "jacket" where water flows thus chilling and solidifying the cast tube, bar or shape.  As the die exits from the furnace by gravity, the casting solidifies into it's intended shape. The solidified casting is then removed by pull rolls.  The "chilling" process  reduces the size of the grain allowing the casting to exit from the lower section of the holding furnace yielding a casting with a homogenous micro-structure.

What is the Continuous Process?
It is the process where molten metal is poured into a die that is composed of carbon graphite. This die is surrounded by a cooling "jacket" where water flows thus chilling and solidifying the cast tube, bar or shape.  As the die exits from the furnace by gravity, the casting solidifies into it's intended shape. The solidified casting is then removed by pull rolls.  The "chilling" process  reduces the size of the grain allowing the casting to exit from the lower section of the holding furnace yielding a casting with a homogenous micro-structure.