A fiber-optic two-color pyrometer with high spatial and temporal resolution has been applied to measure temperatures at an external turning process. Different measurement positions have been realized at the chip and the workpiece. The measurements have been performed at three different workpiece materials: carbon steel AISI 1045, aluminum alloy AA 7075, and titanium alloy Ti6Al4V. The influences of different parameters like cutting speed, feed, and position of the measurement spot on the temperatures have been investigated. The cutting speed has been increased from conventional values up to 100 m/s for AISI 1045, 117 m/s for AA 7075, and 10 m/s for Ti6Al4V. Additionally, a review of radiation thermometry techniques and applications regarding time resolved temperature measurements in metal cutting will be presented.

1.
Ko¨nig
,
W.
,
1987
, “
Chancen und Restriktionen der Hochgeschwindigkeitszerspanung
,”
VDI-Z
,
130
(
6
), pp.
35
41
.
2.
Schmidt
,
A. O.
,
1953
, “
Temperaturmessungen am Werkstu¨ck, Werkzeug und Span
,”
Werkstattstechnik und Maschinenbau
,
43
(
8
), pp.
345
350
.
3.
Schulz
,
H.
,
1989
, “
Aspects in Cutting Mechanism in High Speed Cutting
,”
CIRP Ann.
,
38
(
1
), pp.
51
54
.
4.
Klocke, F., and Hoppe, S., 2001, “Mechanisms of Chip Formation in High Speed Cutting,” Scientific Fundamentals of HSC, H. Schulz, ed., Carl Hanser Verlag, Mu¨nchen—Wien, pp. 1–10.
5.
Mu¨ller
,
B.
, and
Renz
,
U.
,
2001
, “
Development of a Fast Fiber-Optic Two-Color Pyrometer for the Temperature Measurement of Surfaces With Varying Emissivities
,”
Rev. Sci. Instrum.
,
72
(
8
), pp.
3366
3374
.
6.
Lo Casto
,
S.
,
Lo Valvo
,
E.
, and
Micari
,
F.
,
1989
, “
Measurement of Temperature Distribution Within Tool in Metal Cutting. Experimental Tests and Numerical Analysis
,”
J. Mech. Work. Technol.
,
20
, pp.
35
46
.
7.
da Silva
,
M. B.
, and
Wallbank
,
J.
,
1999
, “
Cutting Temperature: Prediction and Measurement Methods—A Review
,”
J. Mater. Process. Technol.
,
88
, pp.
195
202
.
8.
Herbert
,
E. G.
,
1926
, “
The Measurement of Cutting Temperatures
,”
Proc. Inst. Mech. Eng.
,
1
, pp.
289
329
.
9.
Schwerd
,
F.
,
1933
, “
U¨ber die Bestimmung des Temperaturfeldes Beim Spanablauf
,”
Z. VDI
,
9
, p.
211
211
.
10.
Bastien
,
T.
, and
Weisz
,
M.
,
1956
, “
Ein Studium des Einflusses eines Schwefelzusatzes auf die Bearbeitbarkeit eines Stahles von mittelma¨ßigem Kohlenstoffgehalt
,”
Microtechnic
,
6
, p.
283
283
.
11.
Lenz
,
E.
,
1964
, “
Die Temperaturverteilung an der Spanunterseite in der Kontaktzone Span-Werkzeug
,”
Werkstattstechnik
,
2
, pp.
60
62
.
12.
Lenz
,
E.
,
1966
, “
Die Temperaturmessung in der Kontaktzone Span-Werkzeug beim Drehvorgang
,”
CIRP Ann.
,
XIII
, pp.
201
220
.
13.
Lenz
,
E.
,
1966
, “
Die Temperaturverteilung in der Kontaktzone Span-Werkzeug Beim Drehen von Stahl mit Hartmetallwerkzeugen
,”
CIRP Ann.
,
XIV
, pp.
137
144
.
14.
Chu
,
T. H.
, and
Wallbank
,
J.
,
1998
, “
Determination of the Temperature of a Machined Surface
,”
ASME J. Manuf. Sci. Eng.
,
120
, pp.
259
263
.
15.
DeWitt, D. P., and Nutter, G. D., eds., 1988, Theory and Practice of Radiation Thermometry, John Wiley & Sons Inc., New York.
16.
Kottenstette
,
J. P.
,
1986
, “
Measuring Tool-Chip Interface Temperatures
,”
ASME J. Eng. Ind.
,
108
, pp.
101
104
.
17.
Ueda
,
T.
,
Sato
,
M.
, and
Sugita
,
T.
,
1995
, “
Measurement of Tool-Workpiece Interface Temperature by Two-Color Pyrometer
,”
Journal—Japan Society for Precision Engineering
,
61
(
10
), pp.
1448
1452
.
18.
Ueda
,
T.
,
Sato
,
M.
,
Sugita
,
T.
, and
Nakayama
,
K.
,
1995
, “
Thermal Behavior of Cutting Grain in Grinding
,”
CIRP Ann.
,
44
(
1
), pp.
325
328
.
19.
Ueda
,
T.
,
Sato
,
M.
, and
Nakayama
,
K.
,
1998
, “
The Temperature of a Single Crystal Diamond Tool in Turning
,”
CIRP Ann.
,
47
(
1
), pp.
41
44
.
20.
Mu¨ller-Hummel, P., and Lahres, M., 1993, “Infrared Temperature Measurement on Diamond-Coated Tools During Machining,” Proc. 4th European Conference on Diamond, Diamond-like and Related Coatings, Elsevier, Oxford, p. 765.
21.
Mu¨ller-Hummel
,
P.
, and
Lahres
,
M.
,
1996
, “
Temperaturmessung an diamantbeschichteten Werkzeugen wa¨hrend der Zerspanung
,”
IDR
,
1
, pp.
8
12
.
22.
Hack, K., ed., 1996, The SGTE Casebook: Thermodynamics at Work, Institute of Materials, London.
23.
Afran, A., 1994, “Analysis of the Thermal Runaway Properties of Germanium Using the Variable Temperature Cell,” application note, Specac Ltd.
24.
Pyatt
,
E. C.
,
1954
, “
Some Considerations of the Errors of Brightness and Two-Color Types of Spectral Radiation Pyrometer
,”
Br. J. Appl. Phys.
,
5
, pp.
264
268
.
25.
Oikari
,
R.
,
Laurila
,
T.
, and
Hernberg
,
R.
,
1997
, “
High-Temperature Effects in Fluorine-Doped, Fused Synthetic Silica Fibers
,”
Appl. Opt.
,
36
(
21
), pp.
5058
5063
.
26.
Nutter, G. D., 1988, “Radiation Thermometers: Design Principles and Operating Characteristics,” Theory and Practice of Radiation Thermometry, DeWitt, D. P. and Nutter, G. D., eds., John Wiley & Sons Inc., New York.
27.
Mu¨ller
,
B.
, and
Renz
,
U.
,
2003
, “
Time Resolved Temperature Measurements in Manufacturing
,”
Measurement
,
34
(
4
), pp.
363
370
.
28.
Raman
,
S.
, and
Cohen
,
P. H.
,
1993
, “
Remote Sensing for On-Line Temperature Estimation in Machining: A Basic Framework
,”
J. Mater. Process. Technol.
,
38
, pp.
613
632
.
29.
Vieregge, G., 1970, Zerspanung der Eisenwerkstoffe, Verlag Stahleisen mbH, Du¨sseldorf.
30.
Spaans, C., 1971, “The Fundamentals of Three-Dimensional Chip Curl, Chip Breaking and Chip Control,” Dissertation, TH Delft, NL.
31.
Mu¨ller, B., and Renz, U., 2001, “Temperature Measurements With a Fibre-Optic Two-Color-Pyrometer,” Scientific Fundamentals of HSC, H. Schulz, ed., Carl Hanser Verlag, Mu¨nchen—Wien, pp. 181–186.
32.
Mu¨ller, B., and Renz, U., 2000, “Temperaturmessung mit Einem Zwei-Farben-Pyrometer,” Spanen metallischer Werkstoffe mit hohen Geschwindigkeiten, H. K. To¨nshoff and F. Hollmann, eds., Verlag der Universita¨t Hannover, pp. 217–224.
33.
Mu¨ller, B., and Renz, U., 2002, “Thermographic Measurements of High Speed Metal Cutting,” Thermosense XXIV, X. P. Maldague and A. E. Rozlosnik, eds., Proceedings of SPIE, Vol. 4710, pp. 126–134.
34.
Mu¨ller, B., 2004, “Thermische Analyse des Zerspanens metallischer Werkstoffe bei konventionellen und hohen Schnittgeschwindigkeiten,” Dissertation, RWTH Aachen, Germany.
35.
Davies
,
M. A.
,
Cao
,
Q.
,
Cooke
,
A. L.
, and
Ivester
,
R.
,
2003
, “
On the Measurement and Prediction of Temperature Fields in Machining AISI 1045 Steel
,”
CIRP Ann.
52
(
1
), pp.
77
80
.
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