Chvorinov's rule is an applied physics relationship first expressed by Czech engineer Nicolas Chvorinov in 1940,[1][2] that relates the solidification time for a simple casting to the volume and surface area of the casting.
Ruleedit
According to the rule, a casting with a big surface area and small volume will cool more quickly than a casting with a small surface area and a large volume under otherwise comparable conditions. The relationship can be written as:[3]
where t is the solidification time, V is the volume of the casting, A is the surface area of the casting that contacts the mold, n is a constant, and B is the mold constant.
The ratio of the casting's volume to its surface area is the modulus M:
The mold constant B depends on the properties of the metal, such as density, heat capacity, heat of fusion and superheat, and the mold, such as initial temperature, density, thermal conductivity, heat capacity and wall thickness.
Mold Constant (B)edit
The S.I. units of the mold constant B are s/m2.[4] According to Askeland, the constant n is usually 2, however Degarmo claims it is between 1.5 and 2.[3][5] The mold constant of Chvorinov's rule, B, can be calculated using the following formula:
where
Tm = melting or freezing temperature of the liquid (in kelvins),
T0 = initial temperature of the mold (in kelvins),
ΔTs = Tpour − Tm = superheat (in kelvins),
L = latent heat of fusion (in [J·kg−1]),
k = thermal conductivity of the mold (in [W·m−1·K−1)]),
ρ = density of the mold (in [kg·m−3]),
c = specific heat of the mold (in [J·kg−1·K−1]),
ρm = density of the metal (in [kg·m−3]),
cm = specific heat of the metal (in [J·kg−1·K−1]).
It is most useful in determining if a riser will solidify before the casting, because if the riser solidifies first then defects like shrinkage or porosity can form.[5][6]
Referencesedit
^Chvorinov, Nicolas (1940). "Theorie der Erstarrung von Gussstücken" [Theory of the Solidification of Castings]. Giesserei (in German). 27 (10–12): 177–186, 201–208, 222–225.
^Tiryakioglu, M.; Tiryakioglu, E.; Askeland, D. R. "Statistical Investigation of the Effects of Shape, Size and Superheat on Solidification Times of Castings". AFS Transactions: 907–913.
^ abAskeland, Donald R.; Phule, Pradeep P. (2004), Essentials of Materials Science and Engineering, Ontario, Canada: Thomson
^Groover, Mikell P. (2010). Fundamentals of Modern Manufacturing: Materials, Processes, and Systems. Hoboken, NJ: John Wiley & Sons, Inc. p. 223.
^ abDegarmo, E. Paul; Black, J. T.; Kohser, Ronald A. (2003), Materials and Processes in Manufacturing (9th ed.), Wiley, p. 282, ISBN0-471-65653-4
^(PDF). Georgia Institute of Technology. Archived from the original (PDF) on 14 January 2015. Retrieved 14 January 2015.
December 15, 2023
chvorinov, rule, applied, physics, relationship, first, expressed, czech, engineer, nicolas, chvorinov, 1940, that, relates, solidification, time, simple, casting, volume, surface, area, casting, rule, editaccording, rule, casting, with, surface, area, small, . Chvorinov s rule is an applied physics relationship first expressed by Czech engineer Nicolas Chvorinov in 1940 1 2 that relates the solidification time for a simple casting to the volume and surface area of the casting Rule editAccording to the rule a casting with a big surface area and small volume will cool more quickly than a casting with a small surface area and a large volume under otherwise comparable conditions The relationship can be written as 3 t B V A n displaystyle t B left frac V A right n nbsp where t is the solidification time V is the volume of the casting A is the surface area of the casting that contacts the mold n is a constant and B is the mold constant The ratio of the casting s volume to its surface area is the modulus M M V A displaystyle M left frac V A right nbsp The mold constant B depends on the properties of the metal such as density heat capacity heat of fusion and superheat and the mold such as initial temperature density thermal conductivity heat capacity and wall thickness Mold Constant B editThe S I units of the mold constant B are s m2 4 According to Askeland the constant n is usually 2 however Degarmo claims it is between 1 5 and 2 3 5 The mold constant of Chvorinov s rule B can be calculated using the following formula B r m L T m T 0 2 p 4 k r c 1 c m D T s L 2 displaystyle B left frac rho mathrm m L left T mathrm m T 0 right right 2 left frac pi 4k rho c right left 1 left frac c mathrm m Delta T mathrm s L right 2 right nbsp where Tm melting or freezing temperature of the liquid in kelvins T0 initial temperature of the mold in kelvins DTs Tpour Tm superheat in kelvins L latent heat of fusion in J kg 1 k thermal conductivity of the mold in W m 1 K 1 r density of the mold in kg m 3 c specific heat of the mold in J kg 1 K 1 rm density of the metal in kg m 3 cm specific heat of the metal in J kg 1 K 1 It is most useful in determining if a riser will solidify before the casting because if the riser solidifies first then defects like shrinkage or porosity can form 5 6 References edit Chvorinov Nicolas 1940 Theorie der Erstarrung von Gussstucken Theory of the Solidification of Castings Giesserei in German 27 10 12 177 186 201 208 222 225 Tiryakioglu M Tiryakioglu E Askeland D R Statistical Investigation of the Effects of Shape Size and Superheat on Solidification Times of Castings AFS Transactions 907 913 a b Askeland Donald R Phule Pradeep P 2004 Essentials of Materials Science and Engineering Ontario Canada Thomson Groover Mikell P 2010 Fundamentals of Modern Manufacturing Materials Processes and Systems Hoboken NJ John Wiley amp Sons Inc p 223 a b Degarmo E Paul Black J T Kohser Ronald A 2003 Materials and Processes in Manufacturing 9th ed Wiley p 282 ISBN 0 471 65653 4 Casting Analysis 2 Solidification and cooling Surface tension Gas solubility and porosity PDF Georgia Institute of Technology Archived from the original PDF on 14 January 2015 Retrieved 14 January 2015 Retrieved from https en wikipedia org w index php title Chvorinov 27s rule amp oldid 1146778646, wikipedia, wiki, book, books, library,
