Parallelogram milling inserts have an offset rectangle shape with four sides and two acute (less than 90°) cutting points at opposite corners. They mount to a compatible toolholder, which attaches to a milling machine. These indexable inserts can be rotated (indexed) to expose a fresh cutting edge when the old one dulls. They can be replaced with new inserts of the same type or different types without removing the toolholder from the machine. Parallelogram milling inserts are differentiated by their nose angle measurements. Narrow cutting-point nose angles provide small cutting depths and decreased vibration while wide cutting-point nose angles provide large cutting depths and increased cutting force. Indexable milling tools require fewer tool changes than solid tools in high-volume metalworking and fabrication applications with high speeds, high feeds, and difficult-to-machine materials.
This parallelogram milling insert is made of carbide. It is designed for use with VSM11 series shoulder mills. It is for use on steel, nickel, and titanium, and is for medium cutting. This VSM11 series insert is MM is a medium to heavy-machining geometry and is ideal for general purpose and universal applications. Plus it has a metric measurement system, is 0.1628 inch thick, 6.94 mm width, and has a 0.80 mm corner radius, a right hand cutting direction, and has a AlCrTiN finish.
This parallelogram milling insert is made of carbide. It is designed for use with VSM11 series shoulder mills. It is for use on steel, nickel, and titanium, and is for medium cutting. This VSM11 series insert is MM is a medium to heavy-machining geometry and is ideal for general purpose and universal applications. Plus it has a metric measurement system, is 0.1628 inch thick, 6.94 mm width, and has a 0.80 mm corner radius, a right hand cutting direction, and has a AlCrTiN finish.
This parallelogram milling insert is made of carbide. It is designed for use with VSM11 series shoulder mills. It is for use on nickel, stainless steel, steel, titanium, steel, and is for medium cutting. This VSM11 series insert is MM is a medium to heavy-machining geometry and is the first choice for general purpose and universal applications. Plus it has a metric measurement system, is 0.1570 inch thick, 6.90 mm width, and has a 1.20 mm corner radius.
This parallelogram milling insert is made of carbide. It is designed for use with VSM11 series shoulder mills. It is for use on nickel, stainless steel, steel, titanium, steel, and is for medium cutting. This VSM11 series insert is MM is a medium to heavy-machining geometry and is the first choice for general purpose and universal applications. Plus it has a metric measurement system, is 0.1570 inch thick, 6.90 mm width, and has a 1.20 mm corner radius.
This parallelogram milling insert is made of carbide. It is designed for use with VSM17 series shoulder mills. It is for use on nickel, stainless steel, steel, titanium, steel, and is for finishing. This VSM17 series parallelogram milling insert is ML is a light to medium-machining geometry and is the first choice for stainless steel and titanium materials. Plus it has a metric measurement system, is 0.1930 inch thick, 9.60 mm width, and has a 0.80 mm corner radius.
This parallelogram milling insert is made of carbide. It is designed for use with VSM17 series shoulder mills. It is for use on nickel, stainless steel, steel, titanium, steel, and is for finishing. This VSM17 series parallelogram milling insert is ML is a light to medium-machining geometry and is the first choice for stainless steel and titanium materials. Plus it has a metric measurement system, is 0.1930 inch thick, 9.60 mm width, and has a 0.80 mm corner radius.
This parallelogram milling insert is made of carbide. It is designed for use with VSM17 series shoulder mills. It is for use on stainless steel, steel, nickel, titanium, and is for finishing. This VSM17 series insert is ML is a light to medium-machining geometry and is ideal for stainless steel and titanium materials. Plus it has a metric measurement system, is 0.1930 inch thick, 9.60 mm width, and has a 0.80 mm corner radius, a right hand cutting direction, and has a AlCrTiN finish.
This parallelogram milling insert is made of carbide. It is designed for use with VSM17 series shoulder mills. It is for use on stainless steel, steel, nickel, titanium, and is for finishing. This VSM17 series insert is ML is a light to medium-machining geometry and is ideal for stainless steel and titanium materials. Plus it has a metric measurement system, is 0.1930 inch thick, 9.60 mm width, and has a 0.80 mm corner radius, a right hand cutting direction, and has a AlCrTiN finish.
This parallelogram milling insert is made of carbide. It is designed for use with VSM17 series shoulder mills. It is for use on nickel, stainless steel, steel, titanium, cast iron, hardened steel, and is for finishing. This VSM17 series parallelogram milling insert is ML is a light to medium-machining geometry and is the first choice for stainless steel and titanium materials. Plus it has a metric measurement system, is 0.1930 inch thick, 9.60 mm width, and has a 0.40 mm corner radius.
This parallelogram milling insert is made of carbide. It is designed for use with VSM17 series shoulder mills. It is for use on nickel, stainless steel, steel, titanium, cast iron, hardened steel, and is for finishing. This VSM17 series parallelogram milling insert is ML is a light to medium-machining geometry and is the first choice for stainless steel and titanium materials. Plus it has a metric measurement system, is 0.1930 inch thick, 9.60 mm width, and has a 0.40 mm corner radius.
This parallelogram milling insert is made of carbide. It is designed for use with VSM17 series shoulder mills. It is for use on nickel, stainless steel, steel, titanium, steel, and is for medium cutting. This VSM17 series parallelogram milling insert is MM is a medium to heavy-machining geometry and is the first choice for general purpose and universal applications. Plus it has a metric measurement system, is 0.1929 inch thick, 9.60 mm width, and has a 2 mm corner radius.
This parallelogram milling insert is made of carbide. It is designed for use with VSM17 series shoulder mills. It is for use on nickel, stainless steel, steel, titanium, steel, and is for medium cutting. This VSM17 series parallelogram milling insert is MM is a medium to heavy-machining geometry and is the first choice for general purpose and universal applications. Plus it has a metric measurement system, is 0.1929 inch thick, 9.60 mm width, and has a 2 mm corner radius.
This parallelogram milling insert is made of carbide. It is designed for use with VSM17 series shoulder mills. It is for use on steel, nickel, and titanium, and is for medium cutting. This VSM17 series insert is MM is a medium to heavy-machining geometry and is ideal for general purpose and universal applications. Plus it has a metric measurement system, is 0.1930 inch thick, 9.60 mm width, and has a 0.40 mm corner radius, a right hand cutting direction, and has a AlCrTiN finish.
This parallelogram milling insert is made of carbide. It is designed for use with VSM17 series shoulder mills. It is for use on steel, nickel, and titanium, and is for medium cutting. This VSM17 series insert is MM is a medium to heavy-machining geometry and is ideal for general purpose and universal applications. Plus it has a metric measurement system, is 0.1930 inch thick, 9.60 mm width, and has a 0.40 mm corner radius, a right hand cutting direction, and has a AlCrTiN finish.
This parallelogram milling insert is made of carbide. It is designed for use with VSM17 series shoulder mills. It is for use on nickel, stainless steel, steel, titanium, cast iron, hardened steel, and is for medium cutting. This VSM17 series insert is MM is a medium to heavy-machining geometry and is ideal for general purpose and universal applications. Plus it has a metric measurement system, is 0.1930 inch thick, 9.60 mm width, and has a 0.80 mm corner radius.
This parallelogram milling insert is made of carbide. It is designed for use with VSM17 series shoulder mills. It is for use on nickel, stainless steel, steel, titanium, cast iron, hardened steel, and is for medium cutting. This VSM17 series insert is MM is a medium to heavy-machining geometry and is ideal for general purpose and universal applications. Plus it has a metric measurement system, is 0.1930 inch thick, 9.60 mm width, and has a 0.80 mm corner radius.
This parallelogram milling insert is made of carbide. It is designed for use with VSM17 series shoulder mills. It is for use on nickel, stainless steel, steel, titanium, and is for medium cutting. This VSM17 series insert is MM is a medium to heavy-machining geometry and is ideal for general purpose and universal applications. Plus it has a metric measurement system, is 0.1930 inch thick, 9.60 mm width, and has a 1.20 mm corner radius, a right hand cutting direction, and has a TiN finish.
This parallelogram milling insert is made of carbide. It is designed for use with VSM17 series shoulder mills. It is for use on nickel, stainless steel, steel, titanium, and is for medium cutting. This VSM17 series insert is MM is a medium to heavy-machining geometry and is ideal for general purpose and universal applications. Plus it has a metric measurement system, is 0.1930 inch thick, 9.60 mm width, and has a 1.20 mm corner radius, a right hand cutting direction, and has a TiN finish.
This parallelogram milling insert is made of carbide. It is designed for use with VSM17 series shoulder mills. It is for use on cast iron, and roughing. This VSM17 series parallelogram milling insert is MH is a heavy-duty machining geometry and is the first choice for steel and cast iron materials. Plus it has a metric measurement system, is 0.1930 inch thick, 9.60 mm width, and has a 0.80 mm corner radius, a right hand cutting direction, and has an Al2O3 finish.
This parallelogram milling insert is made of carbide. It is designed for use with VSM17 series shoulder mills. It is for use on cast iron, and roughing. This VSM17 series parallelogram milling insert is MH is a heavy-duty machining geometry and is the first choice for steel and cast iron materials. Plus it has a metric measurement system, is 0.1930 inch thick, 9.60 mm width, and has a 0.80 mm corner radius, a right hand cutting direction, and has an Al2O3 finish.
This parallelogram milling insert is made of carbide. It is designed for use with VSM11 series shoulder mills. It is for use on cast iron, steel, stainless steel, medium cutting. This VSM11 series insert is MM is a medium to heavy-machining geometry and is the first choice for general purpose and universal applications. Plus it has a metric measurement system, is 0.1628 inch thick, 6.95 mm width, and has a 2 mm corner radius.
This parallelogram milling insert is made of carbide. It is designed for use with VSM11 series shoulder mills. It is for use on cast iron, steel, stainless steel, medium cutting. This VSM11 series insert is MM is a medium to heavy-machining geometry and is the first choice for general purpose and universal applications. Plus it has a metric measurement system, is 0.1628 inch thick, 6.95 mm width, and has a 2 mm corner radius.
This parallelogram milling insert is made of carbide. It is designed for use with VSM17 series shoulder mills. It is for use on nickel, stainless steel, steel, titanium, and is for medium cutting. This VSM17 series insert is MM is a medium to heavy-machining geometry and is ideal for general purpose and universal applications. Plus it has a metric measurement system, is 0.1930 inch thick, 9.60 mm width, and has a 0.80 mm corner radius, a right hand cutting direction, and has a TiN finish.
This parallelogram milling insert is made of carbide. It is designed for use with VSM17 series shoulder mills. It is for use on nickel, stainless steel, steel, titanium, and is for medium cutting. This VSM17 series insert is MM is a medium to heavy-machining geometry and is ideal for general purpose and universal applications. Plus it has a metric measurement system, is 0.1930 inch thick, 9.60 mm width, and has a 0.80 mm corner radius, a right hand cutting direction, and has a TiN finish.
This parallelogram milling insert is made of carbide. It is designed for use with VSM17 series shoulder mills. It is for use on nickel, stainless steel, steel, titanium, cast iron, hardened steel, and is for finishing. This VSM17 series parallelogram milling insert is ML is a light to medium-machining geometry and is the first choice for stainless steel and titanium materials. Plus it has a metric measurement system, is 0.1923 inch thick, 9.59 mm width, and has a 3.20 mm corner radius.
This parallelogram milling insert is made of carbide. It is designed for use with VSM17 series shoulder mills. It is for use on nickel, stainless steel, steel, titanium, cast iron, hardened steel, and is for finishing. This VSM17 series parallelogram milling insert is ML is a light to medium-machining geometry and is the first choice for stainless steel and titanium materials. Plus it has a metric measurement system, is 0.1923 inch thick, 9.59 mm width, and has a 3.20 mm corner radius.
This parallelogram milling insert is made of carbide. It is designed for use with VSM11 series shoulder mills. It is for use on stainless steel, steel, nickel, titanium, and is for finishing. This VSM11 series insert is ML is a light to medium-machining geometry and is ideal for stainless steel and titanium materials. Plus it has a metric measurement system, is 0.1570 inch thick, 6.90 mm width, and has a 0.80 mm corner radius, a right hand cutting direction, and has a AlCrTiN finish.
This parallelogram milling insert is made of carbide. It is designed for use with VSM11 series shoulder mills. It is for use on stainless steel, steel, nickel, titanium, and is for finishing. This VSM11 series insert is ML is a light to medium-machining geometry and is ideal for stainless steel and titanium materials. Plus it has a metric measurement system, is 0.1570 inch thick, 6.90 mm width, and has a 0.80 mm corner radius, a right hand cutting direction, and has a AlCrTiN finish.
This parallelogram milling insert is made of carbide. It is designed for use with VSM11 series shoulder mills. It is for use on nickel, stainless steel, steel, titanium, steel, and is for medium cutting. This VSM11 series insert is MM is a medium to heavy-machining geometry and is the first choice for general purpose and universal applications. Plus it has a metric measurement system, is 0.1628 inch thick, 6.94 mm width, and has a 0.39 mm corner radius.
This parallelogram milling insert is made of carbide. It is designed for use with VSM11 series shoulder mills. It is for use on nickel, stainless steel, steel, titanium, steel, and is for medium cutting. This VSM11 series insert is MM is a medium to heavy-machining geometry and is the first choice for general purpose and universal applications. Plus it has a metric measurement system, is 0.1628 inch thick, 6.94 mm width, and has a 0.39 mm corner radius.
This parallelogram milling insert is made of carbide. It is designed for use with VSM17 series shoulder mills. It is for use on nickel, stainless steel, steel, titanium, steel, and is for medium cutting. This VSM17 series parallelogram milling insert is MM is a medium to heavy-machining geometry and is the first choice for general purpose and universal applications. Plus it has a metric measurement system, is 0.1930 inch thick, 9.60 mm width, and has a 1.60 mm corner radius.
This parallelogram milling insert is made of carbide. It is designed for use with VSM17 series shoulder mills. It is for use on nickel, stainless steel, steel, titanium, steel, and is for medium cutting. This VSM17 series parallelogram milling insert is MM is a medium to heavy-machining geometry and is the first choice for general purpose and universal applications. Plus it has a metric measurement system, is 0.1930 inch thick, 9.60 mm width, and has a 1.60 mm corner radius.
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