
Z6CN18.09 Metal Powder Injection Molded Parts
Alloy Z6CN18-09 is austenitic T-300 series stainless steel, which contains a minimum of 18% chromium and 8% nickel, and a maximum carbon content of 0.08%. It's standard "18/8 stainless steel" and is commonly used for pans and cooking utensils. Z6CN18-09 alloy is the most versatile and widely used alloy in the stainless steel series.
Product Description
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Z6CN18.09 metal powder injection molded parts |
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Item |
Material |
Production Process |
Sintering Temperature |
Mold |
Custom |
|
Z6CN18.09 |
Stainless steel |
Metal Injection Molding |
1500°C |
To be customized |
Yes |
|
Available Materials |
Low carbon stainless steel, titanium alloy (Ti, TC4), copper alloy, tungsten alloy, hard alloy, high temperature alloy (718, 713) |
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Z6CN18-09 chemical composition
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Chemical composition% |
Cr |
Ni |
C |
Si |
Mn |
P |
S |
N |
|
Z6CN18-09H |
min: 18.0 |
min: 8.0 |
min: 0.04 |
0.75 |
2.0 |
0.045 |
0.03 |
0.10 |
Z6CN18-09 mechanical properties:
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|
Tensile Strength ksi (minutes) |
Yield Strength 0.2% psi (min) |
Elongation - % in 50 mm (min) |
Hardness (Brinell) MAX |
|
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Z6CN18-09H |
75 |
30 |
40 |
201 |
92 |
Z6CN18-09 physical properties:
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Density |
Coefficient of Thermal Expansion (min/in)-°F |
Thermal Conductivity BTU/hr-ft-°F |
Specific heat BTU/lbm -°F |
Elastic Modulus (annealed)2-psi |
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at 68 °F |
at 68 – 212°F |
at 68 – 1600°F |
at 212°F |
at 932°F |
at 32 – 212°F |
in tension (E) |
|
0.285 |
9.2 |
11.0 |
9.4 |
12.4 |
0.12 |
29 x 106 |
Z6CN18-09 properties
Alloy Z6CN18-09 is austenitic T-300 series stainless steel, which contains a minimum of 18% chromium and 8% nickel, and a maximum carbon content of 0.08%. It's standard "18/8 stainless steel" and is commonly used for pans and cooking utensils. Z6CN18-09 alloy is the most versatile and widely used alloy in the stainless steel series. Z6CN18.09 metal powder injection molded parts can be used in various household and commercial applications and exhibit excellent corrosion resistance, easy fabrication, excellent formability and great strength. Austenitic stainless steels are also considered the most weldable of the high alloy steels and can be welded by all fusion and resistance welding processes. Due to its controlled carbon content of 0.04 to 0.10, Z6CN18-09 alloy has improved high temperature strength F when exposed to temperatures above 800 o. Alloy Z6CN18-09 also has greater short-term and long-term F at temperatures above 500 The creep strength is more resistant than alloy Z6CN18-09L ö C and is sensitized than alloy 304L.
Z6CN18-09 application
Alloy Z6CN18-09 is often used as a material of construction up to about 1500 ö F. Some examples of applications where alloy Z6CN18-09H is commonly used include: 1. Most commonly used in refineries 2. Boilers 3. Heat exchangers 4. Condensers 5. Pipes 6. Cooling towers 7. Steam exhaust 8. Power plants 9. Sometimes found in fertilizer and chemical plants
Z6CN18-09 heat resistance
1. Good oxidation resistance to 870 Ó C in intermittent service and 920 Ó C in continuous service
2. If the subsequent waterborne corrosion resistance is important, it is recommended not to use Z6CN18-09 alloy continuously in the range of 425-860°C
3. Z6CN18-09 alloy has higher strength at high temperature, so it is generally used for structural and pressure applications at temperatures above about 500°C and up to about 800°C
4. The Z6CN18-09 alloy becomes sensitive in the temperature range of 425-860°C; this is not a problem for high temperature applications, but will result in reduced waterborne corrosion resistance.
Z6CN18-09 corrosion resistance
1. Corrosion resistance in an oxidizing environment is caused by the 18% to 19% chromium contained in the Z6CN18-09 alloy
4. Resistance to moderately corrosive organic acids is caused by 9% to 11% nickel contained in Z6CN18-09 alloy
3. Sometimes, the corrosion rate of 304L alloy is lower than that of high carbon alloy Z6CN18-09; otherwise, 304, 304L and Z6CN18-09 alloys can be considered to perform uniformly in most corrosive environments.
Z6CN18-09 Soldering Characteristics
1. Easy to solder by most standard processes.
2. It may be necessary to anneal the board after soldering
3. Annealing helps to restore the corrosion resistance lost by sensitization.
Z6CN18-09 Processing - Thermoforming
1. Recommended operating temperature of 1652-2102 degrees Fahrenheit
2. The material should be annealed at 1900 degrees Fahrenheit
3. The material should be water quenched or rapidly cooled
Z6CN18-09 Processing - Cold Forming
1. The alloy has good ductility and is easy to form
2. Help to improve the strength and hardness of the alloy
3. May make the alloy slightly magnetic
Z6CN18-09 machining
1. Work hardened during deformation
2. Fragmentation
3. Best results are achieved with slower speeds, heavier feeds, good lubrication and sharp tools
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