Kato et al., 1997 - Google Patents
Wear characteristics of a woodworking knife with a vanadium carbide coating only on the clearance surface (back surface)Kato et al., 1997
- Document ID
- 10097331235312100835
- Author
- Kato C
- Bailey J
- Publication year
- Publication venue
- Key Engineering Materials
External Links
Snippet
Wood cutting tests were carried out to determine the effects of a vanadium carbide (VC) coating on the back surface (clearance surface) of a cutting tool on tool wear Changes in the tool edge profiles during cutting were measured using a stylus-type profilometer. In addition …
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B24—GRINDING; POLISHING
- B24D—TOOLS FOR GRINDING, BUFFING, OR SHARPENING
- B24D3/00—Physical features of abrasive bodies, or sheets, e.g. abrasive surfaces of special nature; Abrasive bodies or sheets characterised by their constituents
- B24D3/02—Physical features of abrasive bodies, or sheets, e.g. abrasive surfaces of special nature; Abrasive bodies or sheets characterised by their constituents the constituent being used as bonding agent
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| Bartarya et al. | State of the art in hard turning | |
| Liew | Low-speed milling of stainless steel with TiAlN single-layer and TiAlN/AlCrN nano-multilayer coated carbide tools under different lubrication conditions | |
| AU2003214433B2 (en) | Self-sharpening cutting tool with hard coating | |
| Liew et al. | Wear progression of carbide tool in low-speed end milling of stainless steel | |
| EP2279837B1 (en) | Wood cutting tool | |
| Suresh et al. | Experimental studies on the performance of multilayer coated carbide tool in hard turning of high strength low alloy steel | |
| CN101336145A (en) | Cutting method | |
| EP0809559B1 (en) | Knife blades | |
| Ezugwu et al. | Failure modes and wear mechanisms of M35 high-speed steel drills when machining inconel 901 | |
| Kato et al. | Wear characteristics of a woodworking knife with a vanadium carbide coating only on the clearance surface (back surface) | |
| Thamizhmanii et al. | Measurement of surface roughness and flank wear on hard martensitic stainless steel by CBN and PCBN cutting tools | |
| Sheikh-Ahmad et al. | Tool coatings for wood machining: Problems and prospects | |
| Oishi | Built-up edge elimination in mirror cutting of hardened steel | |
| Thamizhmanii et al. | Relationship between flank wear and cutting force on the machining of hard martensitic stainless steel by super hard tools | |
| Sharipov et al. | Interactive methods for increasing wear resistance of cutting tool blades | |
| Ratajski et al. | Hard coatings for woodworking tools–a review | |
| JP2816511B2 (en) | Wood cutting knife | |
| Thamizhmanii et al. | Investigation of surface roughness and flank wear by CBN and PCBN tools on hard Cr-Mo steel | |
| Bouzakis et al. | Improving the cutting performance of coated tools via appropriate pre-and post-treatments | |
| Torkghashghaei et al. | Improved life of circular saws used in primary wood processing | |
| Keturakis et al. | Influence of the sharpness angle on the initial wear of the wood milling knives | |
| Darmawan et al. | Wear characteristics of multilayer-coated cutting tools when milling particleboard | |
| JP2665565B2 (en) | Cutlery for planing wood | |
| JPS6288509A (en) | Surface coated cemented carbide end mill | |
| Sheikh-Ahmad et al. | Tool coatings for wood machining |