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Roll Forging

Rolling is a metal forming process that uses rotating rolls to reduce the cross-sectional area of a material by passing it through one or more pairs of rolls. As the material passes through the rolls, it elongates and its cross-sectional area decreases. The amount of deformation achieved is determined by the change in thickness before and after rolling. Rolling mills consist of pairs of rolls powered by electric motors that apply pressure to shape the metal. The maximum deformation is based on factors like the roll force, torque, diameter, material properties, and width.

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97 views2 pages

Roll Forging

Rolling is a metal forming process that uses rotating rolls to reduce the cross-sectional area of a material by passing it through one or more pairs of rolls. As the material passes through the rolls, it elongates and its cross-sectional area decreases. The amount of deformation achieved is determined by the change in thickness before and after rolling. Rolling mills consist of pairs of rolls powered by electric motors that apply pressure to shape the metal. The maximum deformation is based on factors like the roll force, torque, diameter, material properties, and width.

Uploaded by

Nirjhar Deb
Copyright
© Attribution Non-Commercial (BY-NC)
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Rolling 

is a process of reduction of the cross-sectional area or shaping a metal piece through the deformation caused by a pair of rotating in opposite directions metal rolls.
A scheme of rolling process is shown in the picture:

The gap between the rotating rolls is less than the thickness of the entering bar H0 therefore a friction force is necessary in order to bite the bar and to pull it through the rolls.
A metal bar passing through the rotating rolls is squeezed, and it elongates while its cross section area decreases.

The amount of deformation “R” achieved in a flat rolling operation (thickness reduction) is determined by the relationship:
R = 100% * (H – H0)/H0
A machine used for rolling metal is called rolling mill.
A typical rolling mill consists of a pair of rolls driven by an electric motor transmitting a torque through a gear and pair of cardans. The rolls are equipped with bearings and mounted in a stand with a screw-down
mechanism.

A force applied to the rolls in vertical direction is called roll separating force.


A rolling mill is characterized by the maximum values of its roll separating force and the torque.

The maximum amount of deformation (thickness reduction) which may be achieved in a single rolling pass is determined by the maximum roll separating force, maximum torque, work roll diameter, friction coefficient
and mechanical strength of the rolled material and its width.
Low roll diameter results in low roll contact area and consequently in low absolute value of the roll separating force and the torque required for achieving a certain thickness reduction.

However such rolls are susceptible to bending and causing non-uniform widthwise strip thickness distribution (convex crown).

Complex rolling mill designs employing back-up rolls are used to diminish the bending effect:

Hot rolling is a rolling operation carried out at a temperature exceeding the recrystallization temperature and permitting large amount of deformation.
Cold rolling is a rolling operation carried out at room temperature. Cold rolling is commonly conducted after hot rolling when good surface quality and low thickness tolerance are needed. Cold rolling causes
material strengthening and may be followed byannealing. 

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Related internal links

 Forging

 Extrusion

 Drawing

 Deep drawing

 Steel strip processing

 Shot peening

 Plastic deformation

 Imperfections of crystal structure


Related external links
https://www.tntech.edu/me/courses/Zhang/ME30103110/Chap11pt5.ppt
http://mechatronic.me.hfu.edu.tw/Luo2/2Forming.pdf
http://courses.washington.edu/courseli/me355/Lectures/Sp2006/ lecture10-11-Bulk%20Deformation%20Processes.ppt
http://iesu5.ust.hk/dfaculty/ajay/courses/ieem215/lecs/3_forming.pdf
to Metals

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