ISCAR's invention of the Multi-Master tool line has had a significant impact on the world of cutting tools at the turn of the last century.
The three-pronged principle of the Multi-Master family was based on the face contact between a carbide head and tool, centring the head by use of a short taper, and securing the head in the tool body by use of a threaded connection. It was the last of these three elements that benchmarked the connection of carbide heads in assembled tools. The successful design of the thread, made of hard brittle carbide, enabled fast and simple head replacements and created the easy-to-use tool that features ISCAR’s no setup time phenomenon. The threaded connection quickly found its way into various tool assembly systems with exchangeable carbide heads, now an industry standard.
At first, the Multi-Master line was intended specifically for milling in the Die and Mold industry. Soon after, the automotive, aerospace, and general machinery industries adopted ISCAR’s Multi-Master in their production processes. Milling remains the focus of the Multi-Master line, which now lends itself to drilling applications as well. The Multi-Master line has greatly expanded, and now covers a broad range of applications that include drilling, countersinking, and chamfering hole edges. When looking back more than two decades, it is apparent that the Multi-Master line found its way into the hole making sector of applications by providing highly effective solutions.
There are two types of heads that create the cutting section of the Multi-Master tool. The first type is similar in its shape to a multi-flute solid carbide tool but differs in overall and cutting-edge lengths. Increasing the number of flutes on the cutting head makes cutting more stable and productive. The heads of the first type are produced from stepped cylindrical blanks by use of a grinding operation. The heads of the second type are shaped beforehand by pressing and sintering with a minimal oversize. Additional grinding defines the final shape of the Multi-Master head and its accuracy. The heads of this type have only two flutes characterised by high strength. This facilitates increased feeds per tooth in comparison with the heads of the first type. Pressing technology enables the production of diverse complicated Multi-Master geometric shapes.
The head is mounted on a holder that may be an integral body (shank) or an assembly comprised of a shank, extension, and reducer. The holder is a rotating solid tool with cylindrical and conical sections without flutes that allow the evacuation of chips. Multi-Master drilling heads are suitable for relatively shallow holes. This may pose a limit in hole making applications, yet for short-hole drilling when the shape of a part or a work-holding fixture requires high tool overhang, a Multi-Master long-reach tool is more rigid compared to a typical drill with flutes.
MM HCD two-flute heads stand tall above other Multi-Master hole-making products. These extremely versatile heads are made with various point angles – 60, 80, 90, 100 and 120-degrees which ensure a wide range of applications such as centre drilling, spot drilling, hole chamfering, and countersinking. They enable conical holes for countersunk screws, bolts, and rivets according to ISO/DIN/ANSI standards in solid material. If the workpiece is pre-drilled, countersinking efficiency can be improved by using multi-flute MM EDF heads that increase productivity in chamfering operations. When chamfering or deburring the back side of a hole, Multi-Master double-sided chamfering heads are the solution.
Over recent decades, Multi-Master has quickly expanded its field of use and established itself as an effective tool for hole making as well. ISCAR’s engineering design concept that features over 40,000 tool options has anchored itself to become much more than a milling tool line. It now features many more options for drilling with ISCAR’s ‘No Setup time’ phenomenon to assure fast indexing and minimum machine downtime.