Are you curious about which factories excel in machining 17-4 stainless steel? Understanding the top players in this field is crucial for making informed decisions. Discovering the best options can lead to improved quality and efficiency in your projects. Dive in to find out which factories stand out!
Material 17-4PH : Machinig Data Sheet (Machining Doctor)
Product Details: 17-4PH (Alloy 630) is a Precipitation-Hardening stainless steel with 17% Chromium, 4% Nickel, and 4% Copper content, primarily used in the oil & gas and aerospace industries.
Technical Parameters:
– Tensile Strength: <1380 [N/mm^2]
– MaChinability: 43%
Application Scenarios:
– Oil & Gas Industry
– Aerospace Industry
Pros:
– High strength
– Corrosion resistance
Cons:
– MaChinability varies with hardness
– Requires stable conditions for optimal cutting speeds
17-4 ph stainless steel machining – Practical Machinist
Product Details: 17-4 PH stainless steel
Technical Parameters:
– H900 hardness
– H1025 hardness
Application Scenarios:
– Machining parts with blocky shapes
– Aerospace components
Pros:
– Easier to machine when hardened
– Leaves a beautiful finish
Cons:
– Can work harden
– Difficult to tap
Stainless Steel MaChinability – Machining Doctor
Product Details: Stainless Steel MaChinability – Machining Doctor
Technical Parameters:
– MaChinability ranges from 36% to 75% depending on the grade.
– Chromium content varies from 11% to 30% across different stainless steel types.
Application Scenarios:
– Used in marine, medical, and chemical environments.
– Commonly applied in manufacturing valves, fasteners, and aerospace components.
Pros:
– Excellent corrosion resistance.
– Variety of grades available for different machining needs.
Cons:
– Some grades are difficult to machine due to high cutting forces.
– Heat generation during machining can be problematic.
17-4 PH Stainless Steel: A Guide to Machining Processes
Product Details: 17-4 PH stainless steel is a precipitation-hardening grade of stainless steel known for its exceptional strength and corrosion resistance.
Technical Parameters:
– Composition: 15-17.5% Chromium, 3-5% Nickel, 3-3.5% Copper, 1% max Manganese, 1%…
– Tensile strength: 200-225 ksi, Yield strength: 175-200 ksi, Hardness: 35-45 HRC.
Application Scenarios:
– Aerospace components requiring high strength and corrosion resistance.
– Marine applications such as vessel pump and valve components.
Pros:
– Cost-effective compared to high-nickel non-ferrous alloys.
– Excellent corrosion resistance and durability.
Cons:
– Higher cost than standard 17-4 stainless steel.
– Can develop light rusting in corrosive environments without proper maintenance.
CNC Machining | Turning and threading 17-4 PH SS – Practical Machinist
Product Details: 17-4 PH Stainless Steel (SS) is a precipitation-hardening stainless steel known for its high strength and corrosion resistance.
Technical Parameters:
– Machining conditions: H900 state recommended for better maChinability.
– Typical cutting speeds: 160-800 SFM depending on the state and tooling.
Application Scenarios:
– CNC machining for precision parts.
– Applications requiring high strength and corrosion resistance.
Pros:
– Good maChinability in heat-treated conditions.
– Excellent tool life and chip control.
Cons:
– Can be gummy and difficult to machine in the annealed state.
– Requires careful management of cutting speeds to avoid tool breakage.
17-4 STAINLESS STEEL- AMS 5643 – AISI 630 – UNS S17400 – ssa-corp.com
Product Details: 17-4PH Stainless Steel – AMS 5643
Technical Parameters:
– High strength
– Corrosion resistance
Application Scenarios:
– Aerospace components
– Industrial applications
Pros:
– Excellent mechanical properties
– Good weldability
Cons:
– Limited high-temperature performance
– Requires specific heat treatment
Machining 17-4 SS, H1150 vs. H900 vs. “A” – Practical Machinist
Product Details: 17-4 stainless steel in H1150, H900, and annealed conditions.
Technical Parameters:
– H1150: easier to machine
– H900: higher hardness (44 Rockwell C)
Application Scenarios:
– Machining small home use parts
– Internal and external threading
Pros:
– Higher yield strength compared to 316 stainless steel
– Good maChinability in H1150 and H900 conditions
Cons:
– Not recommended to use in annealed condition
– H900 may be difficult to machine on smaller lathes
17-4 Stainless Steel: A Specialty Grade for Demanding Applications
Product Details: 17-4 stainless steel, also known as 17-4 PH, is a precipitation-hardening martensitic stainless steel that contains approximately 17% chromium and 4% nickel.
Technical Parameters:
– Tensile Strength: 150,000 psi (A), 200,000 psi (H 900), 145,000 psi (H 1150)
– Yield Strength: 110,000 psi (A), 185,000 psi (H 900), 125,000 psi (H 1150)
Application Scenarios:
– Aerospace Components
– Chemical Processing Equipment
Pros:
– Exceptional strength and superior corrosion resistance
– Suitable for high-temperature applications up to 600°F
Cons:
– Susceptible to crevice corrosion in stagnant saltwater environments
– Magnetic properties can vary based on heat treatment
17-4 PH Stainless Steel: A Machining Guide on Process
Product Details: 17-4 PH stainless steel is a precipitation-hardening grade of stainless steel known for its remarkable blend of strength and corrosion resistance.
Technical Parameters:
– Tensile strength: 200-225 ksi
– Yield strength: 175-200 ksi
Application Scenarios:
– Aerospace components
– Marine vessels
Pros:
– Cost-effective compared to high nickel alloys
– Excellent corrosion resistance
Cons:
– Higher cost than standard stainless steel 17-4SS
– Can develop light rusting if not maintained
17-4 Stainless Steel Properties: A Comprehensive Examination – Unionfab
Product Details: 17-4 stainless steel is a high-performance material known for its exceptional strength and good corrosion resistance, achieved through precipitation hardening.
Technical Parameters:
– Chemical Composition: Chromium (17%), Nickel (4%), Copper (3-5%)
– Mechanical Properties: High tensile strength, high hardness, moderate ductility,…
Application Scenarios:
– Aerospace components like landing gear and rotor blades
– Medical devices such as surgical instruments and orthopedic implants
Pros:
– Exceptional strength and hardness due to precipitation hardening
– Good corrosion resistance comparable to 304 stainless steel
Cons:
– Lower ductility compared to some other stainless steels
– Higher cost due to complex manufacturing processes
Related Video
Comparison Table
| Company | Product Details | Pros | Cons | Website |
|---|---|---|---|---|
| Material 17-4PH : Machinig Data Sheet (Machining Doctor) | 17-4PH (Alloy 630) is a Precipitation-Hardening stainless steel with 17% Chromium, 4% Nickel, and 4% Copper content, primarily used in the oil & gas a… | – High strength – Corrosion resistance | – MaChinability varies with hardness – Requires stable conditions for optimal cutting speeds | www.machiningdoctor.com |
| 17-4 ph stainless steel machining – Practical Machinist | 17-4 PH stainless steel | – Easier to machine when hardened – Leaves a beautiful finish | – Can work harden – Difficult to tap | www.practicalmachinist.com |
| Stainless Steel MaChinability – Machining Doctor | Stainless Steel MaChinability – Machining Doctor | – Excellent corrosion resistance. – Variety of grades available for different machining needs. | – Some grades are difficult to machine due to high cutting forces. – Heat generation during machining can be problematic. | www.machiningdoctor.com |
| 17-4 PH Stainless Steel: A Guide to Machining Processes | 17-4 PH stainless steel is a precipitation-hardening grade of stainless steel known for its exceptional strength and corrosion resistance. | – Cost-effective compared to high-nickel non-ferrous alloys. – Excellent corrosion resistance and durability. | – Higher cost than standard 17-4 stainless steel. – Can develop light rusting in corrosive environments without proper maintenance. | asprototypes.com |
| CNC Machining | Turning and threading 17-4 PH SS – Practical Machinist | 17-4 PH Stainless Steel (SS) is a precipitation-hardening stainless steel known for its high strength and corrosion resistance. | – Good maChinability in heat-treated conditions. – Excellent tool life and chip control. | – Can be gummy and difficult to machine in the annealed state. – Requires careful management of cutting speeds to avoid tool breakage. |
| 17-4 STAINLESS STEEL- AMS 5643 – AISI 630 – UNS S17400 – ssa-corp.com | 17-4PH Stainless Steel – AMS 5643 | – Excellent mechanical properties – Good weldability | – Limited high-temperature performance – Requires specific heat treatment | www.ssa-corp.com |
| Machining 17-4 SS, H1150 vs. H900 vs. “A” – Practical Machinist | 17-4 stainless steel in H1150, H900, and annealed conditions. | – Higher yield strength compared to 316 stainless steel – Good maChinability in H1150 and H900 conditions | – Not recommended to use in annealed condition – H900 may be difficult to machine on smaller lathes | www.practicalmachinist.com |
| 17-4 Stainless Steel: A Specialty Grade for Demanding Applications | 17-4 stainless steel, also known as 17-4 PH, is a precipitation-hardening martensitic stainless steel that contains approximately 17% chromium and 4%… | – Exceptional strength and superior corrosion resistance – Suitable for high-temperature applications up to 600°F | – Susceptible to crevice corrosion in stagnant saltwater environments – Magnetic properties can vary based on heat treatment | www.ryerson.com |
| 17-4 PH Stainless Steel: A Machining Guide on Process | 17-4 PH stainless steel is a precipitation-hardening grade of stainless steel known for its remarkable blend of strength and corrosion resistance. | – Cost-effective compared to high nickel alloys – Excellent corrosion resistance | – Higher cost than standard stainless steel 17-4SS – Can develop light rusting if not maintained | waykenrm.com |
| 17-4 Stainless Steel Properties: A Comprehensive Examination – Unionfab | 17-4 stainless steel is a high-performance material known for its exceptional strength and good corrosion resistance, achieved through precipitation h… | – Exceptional strength and hardness due to precipitation hardening – Good corrosion resistance comparable to 304 stainless steel | – Lower ductility compared to some other stainless steels – Higher cost due to complex manufacturing processes | unionfab.com |
Frequently Asked Questions (FAQs)
What is 17-4 stainless steel, and why is it used in machining?
17-4 stainless steel is a precipitation-hardening alloy known for its high strength, corrosion resistance, and excellent maChinability. It’s commonly used in industries like aerospace, chemical processing, and oil and gas due to its ability to withstand harsh environments while maintaining structural integrity.
How does maChinability of 17-4 stainless steel compare to other materials?
17-4 stainless steel offers good maChinability compared to other stainless steels. Its hardness can be adjusted through heat treatment, making it easier to machine in its softer state. However, it may require specialized tools and techniques to achieve optimal results.
What tools are best for machining 17-4 stainless steel?
Carbide tools are generally recommended for machining 17-4 stainless steel due to their durability and ability to maintain sharp edges. High-speed steel tools can also be used, but they may wear out more quickly. Coated tools can enhance performance and extend tool life.
What are the common machining processes used for 17-4 stainless steel?
Common machining processes for 17-4 stainless steel include turning, milling, drilling, and grinding. Each process can be tailored to achieve specific tolerances and surface finishes, depending on the application and desired outcome.
How can I improve the maChinability of 17-4 stainless steel in my factory?
To improve maChinability, consider optimizing cutting speeds, feeds, and tool geometries. Using appropriate coolants can also help reduce heat and friction. Additionally, ensuring proper tool maintenance and selecting the right tooling materials can significantly enhance machining efficiency.