Coated milling insert

Cutters – for shaping – Comprising tool of specific chemical composition

Reexamination Certificate

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Details

C407S118000, C428S216000, C051S309000

Reexamination Certificate

active

06250855

ABSTRACT:

BACKGROUND OF THE INVENTION
The present invention relates to a coated cemented carbide cutting tool(indexable inserts) for the milling, particularly at high cutting speeds, of stainless steels of different composition and microstructure such as austenitic, ferritic, duplex, superaustenitic and precipitation hardened stainless steels but also for the milling of non-stainless steels such as low carbon steels and low and medium alloyed steels.
It is well known that for cemented carbide cutting tools used in the machining of steels, the cutting edge is worn by different wear mechanisms such as chemical and abrasive wear, but the tool edge may also fracture under a heavy intermittent cutting load resulting in so called edge chipping which is usually initiated by cracks formed perpendicularly to the cutting edge. This type of cracks are named comb cracks. Furthermore, different cutting conditions such as cutting speed, depth of cut, cutting feed rate and also external conditions, such as dry or wet machining, heavy vibrations of the work piece, etc., require a plurality of different properties of the cutting edge. For example, when applying a carbide cutting insert in the milling of a workpiece of a non-stainless steel or a stainless steel where the surface of the workpiece is covered by so called cast skin, or when milling under difficult external conditions such as heavy vibrations of the workpiece, a coated cemented carbide insert must be used where the insert includes a substrate of a tough cemented carbide grade and on the surface of the substrate, a hard and wear resistant refractory coating is deposited. The coating should be adherently bonded to the substrate and covering all functional parts of the insert. In addition, when milling a stainless steel, still another wear mechanism is active called adhesive wear which is caused by the adhesive force between the stainless steel chip and the cutting edge material. When the adhesive force grows large enough, edge chipping in the vicinity of the above mentioned comb cracks on the cutting edge will occur and, hence, the tool life will be shortened.
When using a cemented carbide cutting tool for the milling of a stainless steel at high cutting speeds (150-300 meter/min depending on the composition of the stainless steel), the thermal energy developed in the cutting edge is considerable and the entire tool edge may plastically deform. This type of wear mechanism is known as plastic deformation wear and, therefore, yet another requirement of the coated cemented carbide insert when being used at high cutting speeds, is that the selection of the carbide composition and the coating material results in a cutting edge exhibiting a high resistance to plastic deformation.
Commercial cemented carbide tools suitable for the machining of stainless steels and, in particular, carbide tools suitable for the milling of stainless steels are usually only optimized with respect to one or two of the required tool properties mentioned above i.e. high resistance to chemical, abrasive, adhesive and plastic deformation wear of a tough cemented carbide substrate coated with a wear resistant and an adherently bonded coating.
WO 97/20083 discloses a coated cemented carbide cutting tool particularly designed for the wet and dry milling of workpieces of low and medium alloyed steels or stainless steels, with or without abrasive surface zones, in machining operations requiring a high degree of toughness of the carbide cutting edge. The external cutting conditions are characterized by complex shapes of the workpiece, vibrations, chip hammering, recutting of the chips etc. The described cutting insert comprises a coated cemented carbide substrate containing WC with an average grain size of 1.7 &mgr;m together with cubic carbides and 11-12 wt % Co, a coating including a layer of TiC
x
N
y
O
z
with a columnar grain structure, a second layer of a smooth, finegrained &kgr;-Al
2
O
3
and an outermost third layer of TiN.
WO 97/20081 discloses a coated cemented carbide cutting tool particularly designed for the wet and dry milling of low and medium alloyed steels. The described cutting insert comprises a coated cemented carbide substrate containing WC, cubic carbides and Co and a coating including a layer of TiC
x
N
y
O
z
with a columnar grain structure, a second layer of a smooth, finegrained &kgr;-Al
2
O
3
and an outermost third layer of TiN.
WO 97/20082 discloses a coated cemented carbide cutting tool particularly designed for the wet turning of stainless steel components in machining operations requiring a high degree of toughness of the carbide cutting edge. The described cutting insert comprises a coated cemented carbide substrate with a cobalt binder phase enriched in W, a coating including a layer of TiC
x
N
y
O
z
with a columnar grain structure, a second layer of &kgr;-Al
2
O
3
, and an outermost third layer of TiN. A very smooth cutting edge surface is optionally obtained by brushing the tool edges with brushes based on e.g. SiC.
SUMMARY
It has now been found that excellent cutting performance in the milling of stainless steels at high cutting speeds can be obtained with a coated cemented carbide body comprising a substrate based on WC+Co without any additions of cubic carbides and with a specific grainsize range of the WC grains, a specific composition range of WC+Co and a coating including an innermost, very thin layer of TiN, a second layer of TiAlN with a periodic variation of the Ti/Al ratio along the normal to the substrate/coating interface, and an outermost layer of TiN.
Accordingly, the present invention provides a coated cemented carbide cutting tool for wet or dry machining, particularly at high cutting speeds, of stainless steels of different composition and microstructure, and of low and medium alloyed non-stainless steels, comprising: a WC−Co based cemented carbide body which comprises a WC+Co composition in the range of 10-12 wt % Co, 0.3-0.6 wt % Cr, an average WC grain size in the range of 1.0-1.6 &mgr;m and a low W-alloyed binder phase with a CW-ratio in the range of 0.87-0.96; and a hard and wear resistant coating having a thickness of 1 to 8 &mgr;m on said body that comprises: a first innermost thin layer of TiN; a second layer comprising a multilayered structure of 0.05-0.2 &mgr;m thick sublayers of the composition (Ti
x
Al
1−x
)N in which x varies repeatedly between the two ranges 0.45<x<0.55 and 0.70<x<0.80, the first sublayer of (Ti
x
Al
1−x
)N adjacent to the first TiN layer having an x-value in the range 0.45<x<0.55, the second sublayer of (Ti
x
Al
1−x
)N having an x-value in the range 0.70<x<0.80 and the third sublayer having x in the range 0.45<x<0.55 and so forth repeated until 12 to 25 sublayers are being built up; a third 0.1−0.5 &mgr;m thick layer of (Ti
x
Al
1−x
)N, where x is found in the range 0.45<x<0.55; and a fourth outermost thin layer of TiN, where the thickness of the second layer constitutes 75-95% of the total coating thickness.
The present invention also provides a coating for a cemented carbide substrate having a thickness of between 1 and 8 &mgr;m, comprising: a first innermost thin layer of TiN; a second layer, comprising a multilayered structure of 12 to 25 0.05 to 0.2 ,&mgr;m thick alternating sublayers of the composition (Ti
x
Al
1−x
)N in which x is either in a first range of between 0.45 and 0.55 or in a second range of between 0.70 and 0.80, the first sublayer adjacent the first TiN layer and subsequent odd sublayers having an x-value in the first range, and the second and subsequent even sublayers having a x-value in the second range; a third 0.1 to 0.5 &mgr;m thick layer of (Ti
x
Al
1−x
)N, where x is 0.45 to 0.55; and a fourth outermost layer thin layer of TiN; where the second layer constitutes 75-95% of the total coating thickness.


REFERENCES:
patent: 5705263 (1998-01-01), Lenander et al.
patent: 5776588 (1998-09-01), Moriguchi et al.
patent: 5882777 (1999-03-01), Kukino et al.
patent: 5945207 (1999-

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