22 Feb Aerospace Titanium Machining : 60% Cost Decrease Of Fluids And Elimination Of Foam Jason Ginsberg2021-01-12T11:09:59-05:00 Quaker Houghton proposed HOCUT® 795 B, dedicated to Aerospace parts machining and well established for its long sump life and good stability. The customer began a trial with HOCUT® 795 B on a Mega 5 (MAG) milling tool machine. After 2 years HOCUT® 795 B was still in use, and there has been no sump clean-out and no anti-foam nor bactericide addition. Aerospace Titanium Machining : 60% Cost Decrease Of Fluids And Elimination Of FoamJason Ginsberg2021-01-12T11:09:59-05:00
22 Feb Aerospace Components Machining : Reduced Cycle Time And Tooling Costs At UK Ejector Seat Manufacturer Jason Ginsberg2020-03-16T17:44:43-04:00 HOCUT® 795 B was proposed for machining trials supported by independent performance data on similar operations from other aerospace component manufacturers. HOCUT® 795 B has consistently shown itself to be the best in class coolant for aerospace alloys. Aerospace Components Machining : Reduced Cycle Time And Tooling Costs At UK Ejector Seat ManufacturerJason Ginsberg2020-03-16T17:44:43-04:00
22 Feb Aerospace Fuel System Machining : Improved Surface Finish and Reduced Cycle Time Jason Ginsberg2020-03-16T17:49:37-04:00 After a plant survey of machine tools, processes, materials and water conditions, HOCUT® 795 B was proposed supported by independent performance data on similar operations from other aerospace components manufacturers. Aerospace Fuel System Machining : Improved Surface Finish and Reduced Cycle TimeJason Ginsberg2020-03-16T17:49:37-04:00
22 Feb Aerospace Titanium Machining : 25% Increase in Tool Life Jason Ginsberg2020-11-20T09:24:27-05:00 Trials were initially set up for three products: a local boron amine technology coolant, a leading aerospace compet-itor coolant and HOCUT® 3450. The latter two products were both high ester EP type products with a very high level of lubricity. A total of 6 milling tools were monitored for tool change frequency during the period of the trial. Aerospace Titanium Machining : 25% Increase in Tool LifeJason Ginsberg2020-11-20T09:24:27-05:00
22 Feb Aerospace Titanium Machining : 150% Increase In Tool Life Jason Ginsberg2020-11-20T09:02:12-05:00 The company needed to make improvements in their machining operations. They were losing an average of one hour of productivity for each roughing cycle (4 hours lost machining time/ 24 hours). There were also issues with corrosion on machine tool beds with seals and coatings breaking down. Aerospace Titanium Machining : 150% Increase In Tool LifeJason Ginsberg2020-11-20T09:02:12-05:00
27 Jan MECSPE Parma Italy 2020 Jason Ginsberg2020-03-26T16:07:24-04:00 Padiglione 2, stand N58 Parm, Italy MECSPE Parma Italy 2020Jason Ginsberg2020-03-26T16:07:24-04:00