Peter Savage Block preparation Aluminium Quarter Manufacture Peter

Peter Savage Block preparation Aluminium Quarter Manufacture

Peter Savage 45 degree milling Aluminium Quarter Manufacture

Peter Savage Outer face detail machining Aluminium Quarter Manufacture

Peter Savage First roughing operation Aluminium Quarter Manufacture

Peter Savage Second roughing operation Aluminium Quarter Manufacture

Peter Savage Vane profile machining program Aluminium Quarter Manufacture

Peter Savage Profiling – 4 mm step across Aluminium Quarter Manufacture

Peter Savage Copper C 101 v C 103 C 10100 Copper Alloy C 10300 Copper Alloy Copper Phosphorus Remainder Total Tellurium 99. 99 min 0. 0003 max 0. 004 max 0. 001 max Principal Design Features Copper, OFE, Oxygen Free Electronic. C 10100 has conductivity 101% IACS, the highest among coppers. Copper, OFXLP. C 10300 has conductivity 101% IACS, the highest among coppers. Applications Used for electrical and electronic conductors, wave guides, cavity resonators, superconductor matrixes, vacuum tube and solid-state devices, and glass-to-metal seals. Used for electrical and electronic conductors, wave guides, cavity resonators, superconductor matrixes, vacuum tube and solidstate devices, and glass-to-metal seals. Machinability The machinability rating of this alloy is 20. (Where Alloy 360 FC Brass is 100). excellent fair good not recommended fair excellent not recommended good The hot forgeability rating of this alloy is 65. (Forging brass = 100). The recommended hot working temperature for this alloy is between 1400 and 1600 F. Welding: Soldering Brazing Oxyacetylene welding Gas shielded arc welding Coated metal arc welding Spot welding Seam welding Butt welding Forging 0. 001 – 0. 005 Aluminium Quarter Manufacture

Peter Savage Copper C 101 v C 103 C 10100 Copper Alloy C 10300 Copper Alloy Hot working This alloy's capacity for being hot formed is rated as "excellent". Cold working This alloy's capacity for cold working is rated as "excellent". Annealing The annealing temperature for this alloy is between 700 and 1200 F. 0. 323 10. 3 1981 226 9. 4 17000 0. 323 10. 5 1981 Physical Data : Density (lb / cu. in. ) Electrical Resistivity (microhm-cm (at 68 Deg F)) Melting Point (Deg F) Thermal Conductivity Mean Coeff Thermal Expansion Modulus of Elasticity Tension 9. 4 17000 Information source: http: //www. suppliersonline. com/ Aluminium Quarter Manufacture

Peter Savage Pill Box Cavity Aluminium Quarter Manufacture

Peter Savage Original design Aluminium Quarter Manufacture

Peter Savage New design Advantages Improved accuracy through reduced number of job moves Improved stiffness Cost? – calculate Larger vacuum port possible No end flange required – less brazing Can be manufactured in house Improved handling – extra material allows for cutaways Disadvantages Two component types instead of one Appearance – similarity to SNS RFQ Increased weight Aluminium Quarter Manufacture

Peter Savage New design Aluminium Quarter Manufacture