RAMAX S Prehardened stainless holder steel



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T O O L S T E E L F A C T S RAMAX S Prehardened stainless holder steel Wherever tools are made Wherever tools are used

This information is based on our present state of knowledge and is intended to provide general notes on our products and their uses. It should not therefore be construed as a warranty of specific properties of the products described or a warranty for fitness for a particular purpose. 2

General RAMAX S is a chromium alloyed stainless holder steel, which is supplied in the hardened and tempered condition. RAMAX S is characterized by Excellent machinability Good corrosion resistance Uniform hardness in all dimensions Good indentation resistance. These properties combine to give a steel with outstanding production performance. The practical benefits of good corrosion resistance in a holder steel can be summarized as follows: Lower mould maintenance cost Lower production costs since water cooling channels are unaffected by corrosion, ensuring consistent cycle time. The practical benefits of the excellent machinability can be summarized as follows: Lower mould production costs due to: less wear of the cutting edges in the milling and drilling operations increased cutting speed can be used giving shorter machining time. RAMAX S is supplied in the premachined condition which offers the following cost saving advantages: Less machining needed Saving of weight Machining tolerances on the nominal size Absence of scale minimizes tool and machine wear Surfaces free from decarburization. Typical C Si Mn Cr S analysis % 0,33 0,35 1,35 16,7 0,12 Standard specification (AISI 420 F) Delivery condition Hardened and tempered to ~ 340 HB Colour code Black/brown Properties PHYSICAL DATA Hardened and tempered to 340 HB. Data at room and elevated temperatures. 20 C 200 C 400 C Temperature (68 F) (390 F) (750 C) Density kg/m 3 7 730 7 650 7 600 lbs/in 3 0,279 0,276 0,275 Modulus of elasticity N/mm 2 210 000 195 000 180 000 psi 30,5 x 10 6 28,3 x 10 6 26,1 x 10 6 Coefficient of thermal expansion per C from 20 C 10,7 x 10 6 11,9 x 10 6 per F from 68 F 5,9 x 10 6 6,6 x 10 6 Thermal conductivity W/m C 18 22 Btu in/ft 2 h F 125 153 Specific heat capacity J/kg C 460 Btu/lb F 0,11 TENSILE STRENGTH Approximate values. Samples were taken from a round bar 28 mm (1,1"). Hardness: 340 HB. 20 C 200 C Testing temperature (68 F) (390 F) Tensile strength Rm, N/mm 2 1100 1000 psi 159 500 145 000 Yield strength Rp0,2 N/mm 2 940 860 psi 136 350 124 800 Reduction of area Z, % 30 30 Elongation A 5, % 10 10 Note: The high sulphur content gives lower mechanical properties in the transverse compared with the longitudinal direction. Applications Holders/bolsters for plastic moulds. RAMAX S in combination with STAVAX ESR or ELMAX as insert material gives a completely corrosion resistant mould Plastic and rubber moulds with low requirements on polishability Dies and calibers for plastic extrusion Constructional parts. CORROSION RESISTANCE Holders made from RAMAX S will have good resistance to rusting caused by humid working and storage conditions and when moulding corrosive plastics under normal production conditions. 3

Heat treatment RAMAX S is intended for use in the as-delivered condition i.e. hardened and tempered to 340 HB. When the steel is to be heat treated to higher hardness, instructions below is to be followed SOFT ANNEALING Protect the steel and heat through to 860 C (1580 F). Cool at 20 C (35 F) per hour to 650 C (1200 F), then freely in air. STRESS RELIEVING After rough machining the tool should be heated through to max. 550 C (1020 F), holding time 2 hours, then cool freely in air. HARDENING Note: The steel should be fully soft annealed before hardening. Preheating temperature: 500 600 C (930 1110 F). Austenitizing temperature: 1000 1030 C (1830 1890 F). The steel should be heated through to the austenitizing temperature and held at temperature for 30 minutes. Protect the tool against decarburization and oxidation during the hardening process. TEMPERING Choose the tempering temperature according to the hardness required by reference to the tempering graph. Temper twice with intermediate cooling to room temperature. Lowest tempering temperature 180 C (360 F). Holding time at temperature minimum 2 hours. The diagram is valid for small samples quenched in air. Austenitizing temperature: 1030 C (1890 F), 30 min. Holding time: 2 + 2 h. Hardness HRC 55 50 45 40 35 30 25 20 200 300 400 500 600 C 400 600 800 1000 1200 F Tempering temperature QUENCHING MEDIA Circulating atmosphere/gas Oil Martempering bath 200 550 C (390 1020 F), then cool in air. In order to obtain the optimum properties, the cooling rate should be as fast as is concomitant with acceptable distortion. Temper the tool as soon as its temperature reaches 50 70 C (120-160 F). Holder block in RAMAX S and mould inserts in STAVAX ESR. An ideal combination for long production runs. 4

Machining The cutting data below are to be considered as guiding values which must be adapted to existing local conditions. More information can be found in the Uddeholm publication Cutting data recommendation. TURNING Turning with Turning with carbide high speed steel Cutting data Rough Fine Fine parameters turning turning turning Cutting speed (v c ) m/min. 110 160 160 210 18 23 f.p.m. 360 525 525 690 59 75 Feed (f) mm/r 0,2 0,4 0,05 0,2 0,05 0,3 i.p.r. 0,008 0,016 0,002 0,008 0,002 0,01 Depth of cut (a p ) mm 2 4 0,5 2 0,5 3 inch 0,08 0,16 0,02 0,08 0,02 0,12 Carbide designation ISO P20 P30 P10 US C6 C5 C7 Coated carbide Coated carbide or cermet MILLING Face and square shoulder milling Milling with carbide Cutting data Rough Fine parameters milling milling Cutting speed (v c ) m/min 110 160 160 200 f.p.m. 360 525 525 656 Feed (f z ) mm/tooth 0,2 0,4 0,1 0,2 inch/tooth 0,008 0,016 0,004 0,008 Depth of cut (a p ) mm 2 5 2 inch 0,08 0,2 0,08 Carbide designation ISO P20 P40 P10 P20 US C6 C5 C6 C7 Coated carbide Coated carbide or cermet End milling Type of milling Carbide Cutting data Solid indexable High speed parameters carbide insert steel Cutting speed (v c ) m/min 70 100 100 140 30 35 1) f.p.m. 230 328 328 460 98 115 1) Feed (f z ) mm/tooth 0,006 0,20 2) 0,06 0,20 2) 0,01 0,35 2) inch/tooth 0,0002 0,008 2) 0,002 0,008 2) 0,0004 0,014 2) Carbide designation ISO K10, P40 P15 P40 US C3, C5 C6 C5 1) For coated HSS end mill v c 50 m/min. ( 164 f.p.m). 2) Depending on radial depth of cut and cutter diameter. DRILLING High speed steel twist drill Drill diameter Cutting speed (v c ) Feed (f) inch mm f.p.m. m/min i.p.r. mm/r 3/16 5 49* 15* 0,002 0,004 0,05 0,10 3/16 3/8 5 10 49* 15* 0,004 0,008 0,10 0,20 3/8 5/8 10 15 49* 15* 0,008 0,010 0,20 0,25 5/8 3/4 15 20 49* 15* 0,010 0,012 0,25 0,30 * For coated HSS drill v c = 25 m/min. (82 f.p.m.). Carbide drill Type of drill Cutting data Indexable Solid Brazed parameters insert carbide carbide 1) Cutting speed (v c ) m/min 180 200 90 110 60 90 f.p.m. 590 656 295 360 197 295 Feed (f) mm/r 0,05 0,15 2) 0,10 0,25 2) 0,15 0,25 2) i.p.r. 0,002 0,006 2) 0,004 0,01 2) 0,006 0,01 2) 1) Drill with internal cooling channels and brazed tip. 2) Depending on drill diameter. GRINDING A general grinding wheel recommendation is given below. More information can be found in the Uddeholm publication Grinding of Tool Steel. Type of grinding Face grinding straight wheel Face grinding segments Cylindrical grinding Internal grinding Profile grinding Wheel recommendation A 46 HV A 36 GV A 60 KV A 60 JV A 120 LV 5

Welding Good results when welding tool steel can be achieved if proper precautions are taken during welding (elevated working temperature, joint preparation, choice of consumables and welding procedure). Welding method TIG MMA (SMAW) Working temperature 200 250 C 200 250 C (390 480 F) (390 480 F) Welding STAVAX consumables TIG-WELD STAVAX WELD Hardness after welding 54 56 HRC 54 56 HRC Weld hardness after tempering 2 x 1 h at 570 C * (1060 F) 41 43 HRC 41 43 HRC *) A higher tempering temperature will decrease the hardness of the base material. RAMAX S has a high sulphur content, which means an increased risk for hot cracking during welding. To minimize the risk, keep the dilution as low as possible. Further information is given in the Uddeholm brochure Welding of Tool Steel. Further information Please contact your local Uddeholm office for further information on the selection, heat treatment and application of Uddeholm tool steels, including the publication Steels for Moulds. Holder block in RAMAX S. 6

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