The HB-3 grade is a submicron carbide well suited for wear parts and cutting tools being used in non-ferrous machining applications.
H.B. Carbide’s HB-3 grade is a submicron carbide specially designed for use in cutting tools for highly abrasive machining applications and wear components. 3D 5D drilling bits
With a 6% cobalt binder and 93 HRA hardness, grade HB-3 is well suited for wear parts and cutting tools being used in non-ferrous machining applications. According to the company, it offers a homogenous microstructure and uniform grain distribution that makes this grade a well-suited choice for cutting tools used for machining in ISO K20 applications; specifically aluminum alloys, graphite, fiber-reinforced materials and composites. It can be applied for use in drills and reamers, form tools, end mills and other solid-carbide cutters.
The high hardness and high wear resistance of HB-3 can also perform in wear parts such as drawing tools and industrial-grade nozzles.
With a 6% cobalt content, HB-3 is said to provide consistent coating adhesion, making it a specialized substrate for toolmakers who will be applying diamond coating to their tools, especially those used for composite routing and drilling.
Jon Wyniemko, director of global sales at H.B. Carbide, says, “In addition to HB-3 carbide being an outstanding substrate selection across a variety of high-wear-resistant material applications, the consistency of the H.B. Carbide manufacturing process ensures reliable performance and prompt lead times across a variety of blank configurations.”
The many rules of programming CNC cutter radius compensation can make machining problems difficult to diagnose and correct.
To make the transition to hard turning, you'll need to switch from carbide to CBN inserts, but that is easier (and more economical) than you might think. It's making the jump to much higher surface speeds that might scare you off. It needn't. Here's why.
STANDARD END MILLS Creating threaded holes in titanium alloys calls for proper techniques based on an understanding of both the properties of these materials and the peculiarities of the tapping process.