Inventor
ROLANDER ULF
SE21 patents
⚠️ This page may combine multiple inventors who share the name “ROLANDER ULF”. Patents are grouped by organization below to help distinguish them — per-person disambiguation is on the roadmap.
SANDVIK AB
16 patentsUS6287489B1Sep 11, 2001
Method for making a sintered composite body
SANDVIK AB22 citations92
US6007909ADec 28, 1999
CVD-coated titanium based carbonitride cutting toll insert
SANDVIK AB71 citations92
US6129891AOct 10, 2000
Titanium-based carbonitride alloy with controllable wear resistance and toughness
SANDVIK AB34 citations90
US6676893B2Jan 13, 2004
Porous cubic boron nitride based material suitable for subsequent production of cutting tools and method for its production
SANDVIK AB17 citations84
US6193777B1Feb 27, 2001
Titanium-based carbonitride alloy with nitrided surface zone
SANDVIK AB8 citations73
US6017488AJan 25, 2000
Method for nitriding a titanium-based carbonitride alloy
SANDVIK AB8 citations73
US5993638ANov 30, 1999
Method for obtaining well-defined edge radii on cutting tool inserts in combination with a high surface finish over the whole insert by electropolishing technique
SANDVIK AB10 citations73
US5591320AJan 7, 1997
Method for obtaining well defined edge radii on cutting tool inserts by electropolishing technique
SANDVIK AB10 citations73
US6344170B1Feb 5, 2002
Ti(C,N)-(Ti,Ta,W)(C,N)-Co alloy for general finishing cutting tool applications
SANDVIK AB9 citations72
US6325838B1Dec 4, 2001
TI(C, N)—(TI, TA, W) (C, N)—CO alloy for toughness demanding cutting tool applications
SANDVIK AB7 citations72
US6004371ADec 21, 1999
Titanium-based carbonitride alloy with controllable wear resistance and toughness
SANDVIK AB12 citations71
US5976213ANov 2, 1999
Titanium-based carbonitride alloy with improved thermal shock resistance
SANDVIK AB11 citations71
US5911867AJun 15, 1999
Method for obtaining a high surface finish on titanium-based coatings by electropolishing
SANDVIK AB4 citations63
US6340445B1Jan 22, 2002
Ti(C,N)-(Ti,Ta,W)(C,N)-Co alloy for superfinishing cutting tool applications
SANDVIK AB3 citations61
US6290902B1Sep 18, 2001
Method for producing Ti (C,N)—(Ti,Ta,W) (C,N)—Co alloys for cutting tool applications
SANDVIK AB6 citations61
US6197083B1Mar 6, 2001
Method for producing titanium-based carbonitride alloys free from binder phase surface layer
SANDVIK AB0 citations52
SANDVIK INTELLECTUAL PROPERTY
5 patentsUS7332122B2Feb 19, 2008
Ti(C,N)-(Ti,Nb,W)(C,N)-Co alloy for milling cutting tool applications
SANDVIK INTELLECTUAL PROPERTY6 citations73
US7645316B2Jan 12, 2010
Ti(C,N)-(Ti,Nb,W)(C,N)-Co alloy for finishing and semifinishing turning cutting tool applications
SANDVIK INTELLECTUAL PROPERTY3 citations62
US7588621B2Sep 15, 2009
Ti(C,N)-(Ti,Nb,W)(C,N)-co alloy for milling cutting tool applications
SANDVIK INTELLECTUAL PROPERTY2 citations62
US7713468B2May 11, 2010
Method of making a sintered body, a powder mixture and a sintered body
SANDVIK INTELLECTUAL PROPERTY3 citations61
US7157044B2Jan 2, 2007
Ti(C,N)-(Ti,Nb,W)(C,N)-Co alloy for finishing and semifinishing turning cutting tool applications
SANDVIK INTELLECTUAL PROPERTY1 citations51