Porosity in Thermite Welds
Transcript of Porosity in Thermite Welds
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Porosity in Thermite Welds
Y. Chen & F. V. Lawrence
Civil and Environmental Engineering DepartmentUniversity of Illinois at Urbana-Champaign
FCP -2001
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What is Thermite Welding?
• Thermite weld -- A welding technique to utilizeAluminothermic reaction to join massive industrialcomponents.
• Aluminothermic reaction:
3FeO + 2Al = 3Fe + Al2O3 + 783 KJ / mole
Fe2O3 + 2Al = 2Fe + Al2O3 + 759 KJ / mole
3Fe3O4 + 8Al = 9Fe + 4Al2O3 + 3010 KJ / mole
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What is Thermite Welding?
• Equipment used for thermite rail welding:
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Thermite Charges
• Iron oxide particles– with ferroalloy pellets
• Aluminum powder– 10~15% in excess ofstoichiometric amount– Size: 3-500µm
• Additives– help slag-metalseparation
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Problems associated with Thermite welds
• Low tensile ductility– Rails: 14% reduction area.– Thermite welds: 1~3% reduction area.
• Low impact toughness– Rails: ~ 6 J Charpy V-notch.– Thermite welds: 1.5~2.8 J Charpy V-notch.
• Coarse grain, dendrite microstructure.
• Inclusion and porosity– Develop internal fatigue cracks, and offer easy crack
propagation path.– Pores are much more serious defects.
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Porosity and fatigue strength
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Source of porosity in thermite welds
• Dissolved gases in molten metal.– Due to small solubility of gas element in solid metal.– Form tiny, distributed gas pores in welds.– Weakly depends on solidification pattern.
• Gas pores– Trapped gas during pouring.– Chemical reaction products (eg. CO, CH4)– Relatively large pores.– Depends on solidification condition and impurity.
• Shrinkage pores– Volume contraction during solidification.– Very large pores, or pore cluster.– Strongly depends on solidification condition.
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Measurement of porosity content
Radiographs of thermite weldsF_1
N_3
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Measurement of porosity content
Optical measurement ofThermite welds
N_3
N_6
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Measurement of porosity content
Table 1: Porosity content in thermite weld.
Sample Name L_1 F_1 F_3 F_4 N_1 N_2 N_3 N_6 N_7 N_8
x-ray 0.84 0.92 0.4 0.4 0.6 0.96 1.2 0.4 0.56 0.56Porosity (vol.%)
optical 0.93 1.01 - - - - 1.28 0.48 - -
• There is a wide variation of porosity content in different welds.
• Porosity content measured by radiograph method is lower thanthat of optical measurement.
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SEM observationMn inclusion
Fe
MnS
MatrixFe
Al inclusionAl
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SEM observation
X-ray mapping ofinclusions in welds
SE BSE
Al Kα S Kα
Fe KαMn Kα
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Porosity distribution
L_1
0
1 104
2 104
3 104
4 104
5 104
6 104
-1 -0.5 0 0.5 1
Arb
itrar
ygr
ey-s
cale
(bla
ck=
0,w
hite
=65
535)
Arbitrary distance from center
Grey-scale variation across sample
Arbitrary distance from center
Arb
itrar
yG
rey-
scal
e
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Porosity distribution and preheat
Long preheat (7 min) Short preheat (2 min)
10 mm
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Width of melt-back
0
5
10
15
20
0 2 4 6 8
Wid
thof
mel
tbac
k(c
m)
Distance from the rail base (cm)
Fusion width and standard deviation across thermite weld
Rail base
Rail head
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Summary
1. Porosity content in thermite welds is measured byradiography method. Because of the present ofAl2O3, radiograph method underestimates the totalporosity content.
2. There is a wide variation of porosity content indifferent welds.
3. Pores are very often associated with inclusions.
4. Porosity cluster is often observed along centerlineof weld.
5. Preheat time can affect the formation centerlineporosity cluster.
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Future work
• Modeling the thermite welding process (2-D and 3-D).– Effect of preheating: flame temperature + time.– Influence of tapping time.– Heat input: amount of thermite charges.– Ambient temperature.
preheat tap solidification cooling
Heat flowWeld
Melt-back
Tm
Interface temp.
Time
Tin
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• Understand the key controlling factors for thermite welds,and what can be done to improve.
• Experimentally fabricate thermite weld in a well controlledenvironment and verify the theoretical study.
Future work