Miscellaneous Blades

Welding End Prep Blades Transer Heat Away from Pipe Into Chip
Miscellaneous Blades

Welding End Prep Blades Transer Heat Away from Pipe Into Chip

A full line of cutter blades for their welding end prep tools that let them produce a heavy, thick chip without cutting oils while keeping their cutting edge cool is available from ESCO Tool of Holliston, Massachusetts. ESCO MILLHOG® Cutter Blades are made from T-15 tool steel, titanium nitride (TiN) coated for added lubricity, and feature a radical chip breaker that transfers heat away from the...

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Welding End Prep Blades Transer Heat Away from Pipe Into Chip
Miscellaneous Blades

Welding End Prep Blades Transer Heat Away from Pipe Into Chip

A full line of cutter blades for their welding end prep tools that let them produce a heavy, thick chip without cutting oils while keeping their cutting edge cool is available from ESCO Tool of Holliston, Massachusetts. ESCO MILLHOG-® Cutter Blades are made from T-15 tool steel, titanium nitride (TiN) coated for added lubricity, and feature a radical chip breaker that transfers heat away from...

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Miscellaneous Blades

Plastic Razor Blade will not scratch surfaces.

Designed to fit most traditional razor scrapers, knives, and cutters, double edged Safe Scrape Blade is suited for applications where steel razor blade will scratch surface underneath whatever scraper is removing. Blade can remove paint, adhesive, bugs, labels, caulk, and other materials without harming surface material. Applications include aerospace, window manufacturing, auto and vehicle...

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Miscellaneous Blades

Plastic Razor Blade will not scratch surfaces.

Designed to fit most traditional razor scrapers, knives, and cutters, double edged Safe Scrape Blade is suited for applications where steel razor blade will scratch surface underneath whatever scraper is removing. Blade can remove paint, adhesive, bugs, labels, caulk, and other materials without harming surface material. Applications include aerospace, window manufacturing, auto and vehicle...

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Doctor Blades come in straight and beveled configurations.
Miscellaneous Blades

Doctor Blades come in straight and beveled configurations.

Auburn, Mass., September 18, 2009 - Kadant Web Systems Inc., a subsidiary of Kadant Inc. (NYSE:KAI), has expanded its current doctor blade product line to include ProEdge(TM) doctor blades for flexographic printing and offset coating applications. ProEdge doctor blades are available in seven different wear-resistant blade materials and feature application-specific bevels and profiles for precise...

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Doctor Blades come in straight and beveled configurations.
Miscellaneous Blades

Doctor Blades come in straight and beveled configurations.

Auburn, Mass., September 18, 2009 - Kadant Web Systems Inc., a subsidiary of Kadant Inc. (NYSE:KAI), has expanded its current doctor blade product line to include ProEdge(TM) doctor blades for flexographic printing and offset coating applications. ProEdge doctor blades are available in seven different wear-resistant blade materials and feature application-specific bevels and profiles for precise...

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Carbide Tipped Band Saw Blades handle difficult materials.
Miscellaneous Blades

Carbide Tipped Band Saw Blades handle difficult materials.

Along with carbide-to-back bonding, Advanz(TM) blades feature tooth tip cylinder of sub-micron grain carbide with triple-chip grind welded to ductile back. FS and TS configurations are specifically suited for working with different difficult to cut/machine materials, and both exhibit fatigue-, shock-, wear-, and strip-resistance when cutting difficult-to-machine materials. Thicknesses are...

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Carbide Tipped Band Saw Blades handle difficult materials.
Miscellaneous Blades

Carbide Tipped Band Saw Blades handle difficult materials.

Along with carbide-to-back bonding, Advanz(TM) blades feature tooth tip cylinder of sub-micron grain carbide with triple-chip grind welded to ductile back. FS and TS configurations are specifically suited for working with different difficult to cut/machine materials, and both exhibit fatigue-, shock-, wear-, and strip-resistance when cutting difficult-to-machine materials. Thicknesses are...

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Miscellaneous Blades

Bayer MaterialScience Selected to Receive Department of Energy Grant to Support Wind Turbine Blade Research and Testing Using Carbon Nanotube Technology

Pittsburgh, July 30, 2009 - Bayer MaterialScience LLC was selected to receive a $750,000 grant from the U.S. Department of Energy (DOE) to support development and testing of advanced composite technologies and resin infusion processes for larger, more efficient and more powerful 1.5+ megawatt wind turbine blades. The project, Carbon Nanotube Reinforced Polyurethane Composites for Wind Turbine...

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