HAYNES 25 (L605) Alloy Product Introduction
HAYNES 25, also known as L605 or Stellite 25, is a cobalt-based superalloy renowned for its excellent high-temperature strength, wear resistance, and corrosion resistance. This article provides a comprehensive introduction to HAYNES 25 (L605), covering its chemical composition, mechanical properties, performance at different temperatures, industry applications, shapes and sizes, production standards, welding and processing capabilities, advantages and disadvantages, and comparisons with similar alloys.
化学組成
HAYNES 25 (L605) has a complex chemical composition designed to achieve its high-performance properties:
要素 | 構成 (%) |
---|---|
コバルト(Co) | 50.0 |
クロム(Cr) | 20.0 |
タングステン(W) | 15.0 |
ニッケル(Ni) | 10.0 |
鉄(Fe) | 3.0 |
モリブデン(Mo) | 1.0 |
カーボン(C) | 0最大.10 |
マンガン(Mn) | 最大1.0 |
シリコン(Si) | 最大1.0 |
リン(P) | 0.04 max |
硫黄(S) | 0最大.03 |
ホウ素(B) | 0最大.01 |
機械的性質
HAYNES 25 (L605) exhibits impressive mechanical properties suitable for high-stress applications:
財産 | 価値 |
---|---|
引張強さ、ksi (MPa) | 160 (1100) min |
降伏強さ (0.2% オフセット)、ksi (MPa) | 120 (828) min |
伸び (% 単位 2 インチ) | 15 min |
硬度、ロックウェル C (HRC) | 40 – 50 |
性能特性
HAYNES 25 (L605) offers exceptional performance in extreme environments:
- 高温強度: Maintains strength and toughness at temperatures up to 1800°F (980°C), making it suitable for gas turbine engines and other high-temperature applications.
- Wear and Corrosion Resistance: Excellent resistance to wear, corrosion, and oxidation in harsh environments, including aerospace and industrial applications.
産業用途
HAYNES 25 (L605) is utilized across various industries where high performance and reliability are crucial:
産業部門 | アプリケーション |
---|---|
航空宇宙 | Gas turbine components, combustion chambers, thrust reversers, and other hot section parts requiring high strength and heat resistance. |
Medical | Surgical implants, prosthetic devices, and other biomedical applications due to biocompatibility and corrosion resistance. |
Industrial | Cutting tools, bearings, valves, and components for chemical processing and oil & gas industries. |
形状とサイズ
HAYNES 25 (L605) is available in various forms and sizes to meet specific application needs:
- フォーム: Sheets, plates, bars, tubes, wires, and custom shapes.
- サイズ: Thickness ranging from 0.010 inches to 1.000 inches (0.25mm to 25.4mm), diameter ranging from 0.125 inches to 12.000 inches (3.18mm to 304.8mm).
製造基準
HAYNES 25 (L605) complies with stringent industry standards for quality and performance:
製品形態 | 利用可能な形状 | 利用可能なサイズ | 製造基準 |
---|---|---|---|
バー/ロッド | 丸棒、角棒 | Diameter: 0.125″ – 12.000″ (3.18mm – 304.8mm) | AMS 5759, AMS 5796 |
プレート/シート | プレート、シート | Thickness: 0.010″ – 1.000″ (0.25mm – 25.4mm) | AMS 5537, AMS 5759 |
ワイヤー | ワイヤー | 直径: 0.010インチ – 0.250インチ (0.25mm – 6.35mm) | AMS 5796, AMS 5797 |
チューブ/パイプ | チューブ、パイプ | 外径: 0.250インチ – 6.000インチ (6.35mm – 152.4mm) | AMS 5759, AMS 5796 |
溶接・加工
HAYNES 25 (L605) offers good weldability and machinability:
- 溶接: Can be welded using conventional methods such as TIG and MIG welding with proper preheating and post-weld heat treatment.
- 処理: Machinable using carbide tooling, although it tends to work-harden and requires adequate cooling during machining.
長所と短所
側面 | 詳細 |
---|---|
利点 | High strength at elevated temperatures, excellent wear and corrosion resistance, biocompatibility for medical applications, and good machinability. |
短所 | Higher cost compared to conventional materials, requires expertise in handling due to its high strength and hardness. |
類似の合金
合金名 | 比較 |
---|---|
HAYNES 188 | Similar high-temperature capabilities but with higher cobalt content and better oxidation resistance compared to HAYNES 25. |
類似合金の比較
性質・特徴 | HAYNES 25 (L605) | HAYNES 188 |
---|---|---|
コバルト含有量 (%) | 50.0 | 39.0 |
クロム含有量 (%) | 20.0 | 22.0 |
タングステン含有量 (%) | 15.0 | 13.0 |
降伏強さ (ksi) | 120 | 90 |
アプリケーション | Gas turbine components, medical implants | Aerospace components, high-temperature structural parts |
This detailed article provides a comprehensive introduction to HAYNES 25 (L605), highlighting its chemical composition, mechanical properties, performance characteristics, industry applications, available forms and sizes, production standards, welding and processing capabilities, as well as advantages, disadvantages, and comparisons with similar alloys. Engineers and professionals seeking high-performance materials for applications demanding strength, corrosion resistance, and reliability will find this information useful in selecting the appropriate alloy for their specific needs.