Carbide insert and cutting tool manufacturer Horn reports that an application at Jörg Bamann Mechanische Werkstatt – a job shop in Geretsried, Germany – is demonstrating that a Horn DAH high-feed, indexable-insert milling cutter in a B-axis lathe is able to helically interpolate a circular groove into a round steel workpiece 14 times faster than a toroidal mill.

The company's many years of experience in processing steels including stainless, aluminium alloys, non-ferrous metals, titanium and plastics are testament to its expertise and versatility. The use of modern CAD/CAM systems enables components to be machined quickly and cost-effectively to meet customer requirements.

The latest Iscar LogiQuick campaign has unveiled a diverse range of new cutting tools, effectively replenishing the company's portfolio.

Coalville, Leicestershire-based CMS Cepcor is a leading supplier of aftermarket crusher spares, manganese-steel wear liners and other equipment for the mining, aggregate production and associated industries worldwide.

Image

Seeking to optimise the groove machining process, owner Jörg Bamann approached Horn application engineer Korbinian Niedermeier, who recommended a high-feed milling solution. The subcontractor has been using Horn products for two decades, so knows the supplier well.

Established in 1964 and now in its second generation of ownership, Jörg Bamann Mechanische Werkstatt CNC mills and turns parts for customers in a variety of industries in batch sizes ranging from one-offs to series production.

Image

Image

MSC Industrial Supply Co. UK (MSC) is celebrating a successful season after sponsoring two local youth football teams during the 2023/2024 campaign.

Next, the subcontractor tried replacing the turning tool with a conventional, 5-flute, toroidal milling cutter with indexable inserts in the B-axis tool spindle of a DMG Mori CTX 800 TC turning-milling centre. The roughing process was faster than axial turning but resulted in vibration and a high level of noise. Furthermore, the machining time was still too long for Mr Bamann. About 100 minutes were needed to produce the groove and each cutter was able to complete only 30 components before the inserts needed to be changed, so further process optimisation was called for.

Carbide insert and cutting tool manufacturer Horn reports that an application at Jörg Bamann Mechanische Werkstatt – a job shop in Geretsried, Germany – is demonstrating that a Horn DAH high-feed, indexable-insert milling cutter in a B-axis lathe is able to helically interpolate a circular groove into a round steel workpiece 14 times faster than a toroidal mill. The 42CrMo4 (1.7225) alloy steel billet, quenched and tempered to 1,000N/mm², requires a 40mm wide groove having a 240mm outside diameter and a depth of just less than 90mm to be rough-machined. The component is a key part of a hydraulic rotator, used in the construction and forestry industries for rotating attachments carried by excavators. Seeking to optimise the groove machining process, owner Jörg Bamann approached Horn application engineer Korbinian Niedermeier, who recommended a high-feed milling solution. The subcontractor has been using Horn products for two decades, so knows the supplier well. Jörg Bamann (right) with Horn application engineer Korbinian Niedermeier Mr Bamaan says: “Before switching to milling, we tried to produce the recess in the component by axial turning, but it didn’t prove to be viable. We tried tool solutions from various manufacturers, but none of them had the technical capabilities we needed. Turning resulted in long chips and, due to the large groove depth, caused vibration that negatively affected the life of the inserts.” Next, the subcontractor tried replacing the turning tool with a conventional, 5-flute, toroidal milling cutter with indexable inserts in the B-axis tool spindle of a DMG Mori CTX 800 TC turning-milling centre. The roughing process was faster than axial turning but resulted in vibration and a high level of noise. Furthermore, the machining time was still too long for Mr Bamann. About 100 minutes were needed to produce the groove and each cutter was able to complete only 30 components before the inserts needed to be changed, so further process optimisation was called for. Mr Niedermeier proposed a 40mm diameter, high-feed DAH mill with five triple-edged inserts. At a cutting speed (vc) of 150m/minute, the tool is helically interpolated into the rotating workpiece with a continuous infeed depth (ap) of 1mm and 0.8mm feed per tooth (fz). The new machining time for the recess is now just seven minutes per component, more than 14 times faster, and the life of the indexable inserts has increased threefold to 90 components per edge. Mr Bamann affirms: “We are very happy with the result. Using the high-feed milling cutter has reduced the cycle time considerably and the load on the machine has also decreased, as cutting pressure and vibration are lower. There is still more potential for machining improvement.” Established in 1964 and now in its second generation of ownership, Jörg Bamann Mechanische Werkstatt CNC mills and turns parts for customers in a variety of industries in batch sizes ranging from one-offs to series production. The company's many years of experience in processing steels including stainless, aluminium alloys, non-ferrous metals, titanium and plastics are testament to its expertise and versatility. The use of modern CAD/CAM systems enables components to be machined quickly and cost-effectively to meet customer requirements. Horn Cutting Toolswww.phorn.co.uk

If you find this article informative, consider subscribing digitally to PES Media for free. Keep up to date with the latest industry news in your inbox as well as being the first to receive our magazine in digital form.

Mr Niedermeier proposed a 40mm diameter, high-feed DAH mill with five triple-edged inserts. At a cutting speed (vc) of 150m/minute, the tool is helically interpolated into the rotating workpiece with a continuous infeed depth (ap) of 1mm and 0.8mm feed per tooth (fz). The new machining time for the recess is now just seven minutes per component, more than 14 times faster, and the life of the indexable inserts has increased threefold to 90 components per edge.

The HyproJET X6 from Ceratizit is based on an improved and patented design which makes is possible to increase cutting performance, leading and lifetime.

MSC Industrial Supply Co. UK (MSC) is celebrating a successful season after sponsoring two local youth football teams during the 2023/2024 campaign.

The latest Iscar LogiQuick campaign has unveiled a diverse range of new cutting tools, effectively replenishing the company's portfolio.

The 42CrMo4 (1.7225) alloy steel billet, quenched and tempered to 1,000N/mm², requires a 40mm wide groove having a 240mm outside diameter and a depth of just less than 90mm to be rough-machined. The component is a key part of a hydraulic rotator, used in the construction and forestry industries for rotating attachments carried by excavators.

Mr Bamaan says: “Before switching to milling, we tried to produce the recess in the component by axial turning, but it didn’t prove to be viable. We tried tool solutions from various manufacturers, but none of them had the technical capabilities we needed. Turning resulted in long chips and, due to the large groove depth, caused vibration that negatively affected the life of the inserts.”

A South West-based engineering team is aiming to transform the large-format additive manufacturing sector with the launch of its latest product.

Hundreds of British manufacturing companies opened their doors in a UK-wide open house today as part of National Manufacturing Day, giving their local communities the chance to see the highly paid careers and jobs on offer in our exciting and diverse sector.

The HyproJET X6 from Ceratizit is based on an improved and patented design which makes is possible to increase cutting performance, leading and lifetime.

Mr Bamann affirms: “We are very happy with the result. Using the high-feed milling cutter has reduced the cycle time considerably and the load on the machine has also decreased, as cutting pressure and vibration are lower. There is still more potential for machining improvement.”