Inconel 617 (tm) Super Alloys [Nicrofer 5520 Co (tm)] Material Property Data Sheet buy metal and purchase excess inventory bid on RFQs and sell excess inventory research materials and use metal utilities contact info, press room, and careers @ MSO my information, rfq inbox, quote inbox contact us

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inconel 617 (tm) super alloys [nicrofer 5520 co (tm)] material property data sheet

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Metal Suppliers Online: Material Property Data

Super Alloy Inconel 617 (tm)

 


Specifications

The following specifications cover Super Alloy Inconel 617 (tm)

 

 


Property Results

Related Metals:


Chemistry Data : [top]

Aluminum 0.8 - 1.5
Boron 0.006 min
Carbon 0.05 - 0.15
Chromium 20 - 24
Cobalt 10 - 15
Copper 0.5 max
Iron 3 max
Manganese 1 max
Molybdenum 8 - 10
Nickel Balance
Silicon 1 max
Sulphur 0.015 max
Titanium 0.2 - 0.5


Principal Design Features This is a solid-solution strengthened alloy. It has excellent resistance to oxidation and a wide range of corrosive media plus excellent high temperature strength.

Applications Especially useful at temperatures in excess of 1800 F the alloy is used in gas turbines for combustion cans and ducts as well as industrial furnace components and applications where high-temperature corrosion resistance is important.

Machinability Conventional machining techniques used for iron based alloys may be used. This alloy does work-harden during machining and has higher strength and "gumminess" not typical of steels. Heavy duty machining equipment and tooling should be used to minimize chatter or work-hardening of the alloy ahead of the cutting. Most any commercial coolant may be used in the machining operations. Water-base coolants are preferred for high speed operations such as turning, grinding, or milling. Heavy lubricants work best for drilling, tapping, broaching or boring. Turning: Carbide tools are recommended for turning with a continuous cut. High-speed steel tooling should be used for interrupted cuts and for smooth finishing to close tolerance. Tools should have a positive rake angle. Cutting speeds and feeds are in the following ranges: For High-Speed Steel Tools For Carbide Tooling Depth Surface Feed Depth Surface Feed of cut speed in inches of cut speed in inches inches feet/min. per rev. inches feet/min. per rev. 0.250" 12-18 0.010 0.250" 30-40 0.010 0.050" 15-20 0.008 0.050" 40-50 0.008 Drilling: Steady feed rates must be used to avoid work hardening due to dwelling of the drill on the metal. Rigid set-ups are essential with as short a stub drill as feasible. Heavy-duty, high-speed steel drills with a heavy web are recommended. Feeds vary from 0.0007 inch per rev. for holes of less than 1/16" diameter, 0.003 inch per rev. for 1/4" dia., to 0.010 inch per rev. for holes of 7/8"diameter. Slow surface speed, as 8-10 feet/minute, are best for drilling. Milling: To obtain good accuracy and a smooth finish it is essential to have rigid machines and fixtures and sharp cutting tools. High-speed steel cutters such as M-2 or M-10 work best with cutting speeds of 5 to 15 feet per minute and feed of 0.001"-0.004" per cutting tooth. Grinding: The alloy should be wet ground and aluminum oxide wheels or belts are preferred.

Forming This alloy has good ductility and may be readily formed by all conventional methods. Because the alloy is stronger than regular steel it requires more powerful equipment to accomplish forming. Heavy-duty lubricants should be used during cold forming. It is essential to thoroughly clean the part of all traces of lubricant after forming as embrittlement of the alloy may occur at high temperatures if lubricant is left on.

Welding The commonly used welding methods work well with this alloy. Matching alloy filler metal should be used. If matching alloy is not available then the nearest alloy richer in the essential chemistry (Ni, Co, Cr, Mo) should be used. All weld beads should be slightly convex. It is not necessary to use preheating. Surfaces to be welded must be clean and free from oil, paint or crayon marking. The cleaned area should extend at least 2" beyond either side of a welded joint. Gas-Tungsten Arc Welding: DC straight polarity (electrode negative) is recommended. Keep as short an arc length as possible and use care to keep the hot end of filler metal always within the protective atmosphere. Shielded Metal-Arc Welding: Electrodes should be kept in dry storage and if moisture has been picked up the electrodes should be baked at 600 F for one hour to insure dryness. Current settings vary from 60 amps for thin material (0.062" thick) up to 140 amps for material of 1/2" and thicker. It is best to weave the electrode slightly as this alloy weld metal does not tend to spread. Cleaning of slag is done with a wire brush (hand or powered). Complete removal of all slag is very important before successive weld passes and also after final welding. Gas Metal-Arc Welding: Reverse-polarity DC should be used and best results are obtained with the welding gun at 90 degrees to the joint. For Short-Circuiting-Transfer GMAW a typical voltage is 20- 23 with a current of 110-130 amps and a wire feed of 250-275 inches per minute. For Spray-Transfer GMAW voltage of 26 to 33 and current in the range of 175-300 amps with wire feed rate of 200-350 inches per minute are typical. Submerged-Arc Welding: Matching filler metal, the same as for GMAW, should be used. DC current with either reverse or straight polarity may be used. Convex weld beads are preferred.

Heat Treatment The alloy is normally supplied in the solution-annealed condition. This condition is the result of a 2150 F anneal, allowing time for section thickness, followed by water quench or rapid air cooling for thinner sections.

Forging Forging should be done in the temperature range of 2200 F to 1850 F.

Hot Working The temperature range for hot working is 2200 F to 1700 F.

Cold Working Cold forming may be done using standard tooling although plain carbon tool steels are not recommended for forming as they tend to produce galling. Soft die materials (bronze, zinc alloys, etc.) minimize galling and produce good finishes, but die life is somewhat short. For long production runs the alloy tool steels ( D-2, D-3) and high-speed steels (T-1, M-2, M-10) give good results especially if hard chromium plated to reduce galling. Tooling should be such as to allow for liberal clearances and radii. Heavy duty lubricants should be used to minimize galling in all forming operations. Bending of sheet or plate through 180 degrees is generally limited to a bend radius of 1 T for material up to 1/8" thick and 2 T for material thicker than 1/8".

Annealing Solution-anneal at 2150 F followed by rapid cooling.

Hardening The alloy hardens by cold work only.

Physical Data : [top]

Density (lb / cu. in.) 0.302
Specific Gravity 8.36
Specific Heat (Btu/lb/Deg F - [32-212 Deg F]) 0.1
Electrical Resistivity (microhm-cm (at 68 Deg F)) 736
Melting Point (Deg F) 2485
Poissons Ratio 0.3
Thermal Conductivity 94
Mean Coeff Thermal Expansion 6.4
Modulus of Elasticity Tension 30.6
Reduction of Area 56


Mechanical Data : [top]

There is no Mechnical data available for this grade.


[top]
Nickel - www.nidi.org

Copper - www.copper.org

Titanium - www.titanium.org

Steel Lynx - www.mlc.lib.mi.us/~stewarca/steelynx.html


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