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Waspaloy Hex Bolts

Waspaloy (2.4654) Hex Bolts are known for their superb high strength at elevated temperatures. Waspaloy is a high performance nickel alloy combined with cobalt, chrome and molybdenum to create it’s unique combination of strength and high temperature stability.
Similar to that of Inconel 718 fasteners, Waspaloy Hex Bolts exceed the strength and stability of Inconel 718 at elevated temperatures beyond 1400°F. In addition, the oxidation resistance of Waspaloy fasteners make it an ideal materials for high temperature applications like gas turbines engines, and a variety of other aerospace components.

RAYCHIN SPECIALTY METALS FASTENERS: BOLTS, NUTS, SCREWS, WASHERS, STUDS, THREADED RODS, U-BOLT, J-BOLTS

STANDARD AND CUSTOMIZED, SMALL BATCH AND LARGE BATCH, IMPERIAL AND METRIC

An age hardened super alloy with exceptional high temperature strength
Extreme high temperature strength
Service temperatures up to 1600°F (870°C)
Very oxidation resistant

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RAYCHIN LIMITED

Name: Waspaloy Hex Bolts
SKU: 0

Waspaloy Hex Bolts · Hex Head Cap Screws · Heavy Hex Bolts · Inch & Metric · UNS N07001 / 2.4654

Waspaloy Hex Bolts: High-Temperature Nickel Superalloy Hex Head Bolts for Extreme Environments

Waspaloy (UNS N07001) | W.Nr 2.4654 | AMS 5704 / 5708 / 5709 / 5544 | ASTM B637 | Age-Hardenable Superalloy

RAYCHIN LIMITED is a leading manufacturer of Waspaloy Hex Bolts – precision hex head fasteners produced from age-hardenable nickel-based superalloy, delivering exceptional high-temperature strength, oxidation resistance, and reliable performance in the most demanding aerospace, power generation, and defense applications. Waspaloy (UNS N07001) is a precipitation-hardening nickel alloy with high chromium and cobalt contents and additions of molybdenum, aluminum, and titanium, providing outstanding mechanical properties up to 870°C (1600°F). Hex bolts are designed to be tightened with a standard spanner or ratchet and socket, providing high torque load capability. Our comprehensive product line includes Waspaloy hex head cap screws, Waspaloy heavy hex bolts, and Waspaloy structural bolts – all manufactured to the highest precision standards. Our portfolio includes all standard and custom configurations manufactured to NAS, AN, MS, ANSI, ASTM, ASME, SAE, API, NACE, ISO, DIN and KS standards, including AMS 5704, AMS 5708, AMS 5709, AMS 5544, ASTM B637, and ASME SB637. Whether you require Waspaloy hex bolts for gas turbine engines, missile systems, or chemical processing equipment, RAYCHIN delivers precision, quality, and full traceability. All mechanical properties are presented in MPa and ksi (kilopound per square inch).

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Waspaloy Hex Bolts – Design & Configurations

Hex Head Cap Screws

Waspaloy hex head cap screws are precision fasteners designed for general-purpose bolting where high clamping forces are required in high-temperature environments. A hex drive permits a greater torque load to be applied to the joint over most other drive types. Manufactured to ASME B18.2.1 (inch series), ISO 4014 / DIN 931 (partially threaded), and ISO 4017 / DIN 933 (fully threaded). Available in diameters from M3 to M48 (#0 to 2"). Precision forged heads and rolled threads for maximum strength at elevated temperatures.

Heavy Hex Bolts

Waspaloy heavy hex bolts feature a larger head width across flats compared to finished hex bolts, providing increased bearing area and load distribution for heavy-duty flange connections and industrial equipment operating at extreme temperatures. Manufactured to ASME B18.2.1 (inch) and DIN 931 (metric) standards. Used extensively in high-pressure piping systems, gas turbine casings, and offshore platform connections where maximum clamping force and thermal stability are required.

Thread Specifications

Waspaloy hex bolts available with Unified Coarse (UNC), Unified Fine (UNF), UNJF-3A (aerospace), and metric coarse/fine threads. Thread classes 2A, 3A, 6g. Precision rolled threads for superior fatigue life. Full thread (threaded to head) or partial thread options available. Standard metric diameters from M3 to M48, inch sizes from #0 to 2". Custom thread specifications available upon request.

Aerospace & Military Standards

Our Waspaloy hex bolts meet applicable sections of NAS1802 (hex bolts), NASM 8830, MS16995, and AN42-AN73. Full compliance with AMS 5704, AMS 5708, AMS 5709, AMS 5544, and ASTM B637 for material and mechanical properties. Silver plating per AMS 2410 available for anti-galling. NADCAP accredited heat treatment processes ensure optimal gamma prime (γ') precipitation.

Heat Treatment Condition

Waspaloy hex bolts are supplied in fully heat-treated condition per AMS 5704/5705 schedules. Typical heat treatment includes solution treatment at 1066-1093°C (1950-2000°F) followed by rapid cooling, then three-step aging: 996°C (1825°F)/2 hrs/AC, 843°C (1550°F)/4 hrs/AC, and 760°C (1400°F)/16 hrs/AC. This optimizes γ' precipitation for maximum high-temperature strength.

Custom & Non-Standard Hex Bolts

Need special head configurations, proprietary drives, non‑standard lengths, or unique thread forms? RAYCHIN engineers design and produce custom Waspaloy hex bolts to your exact specifications – any condition (solution treated, stabilized, precipitation hardened), with full material traceability. Prototype to production volumes supported. Cleanroom wash and packaging available for sensitive applications.

Critical Applications of Waspaloy Hex Bolts

Aerospace & Defense

Waspaloy hex bolts are extensively used in gas turbine engine components, including compressor and rotor discs, shafts, spacers, seals, rings, casings, and engine hardware. They maintain strength at temperatures up to 650°C (1200°F) for critical rotating applications and up to 870°C (1600°F) for simpler applications. Used in afterburner components, rocket motor cases, and missile systems. Excellent resistance to thermal cycling and oxidation in jet engine environments.

Power Generation

Waspaloy hex bolts in gas turbine fastening systems, steam turbine components, and power plant assemblies provide reliable fastening in high-temperature environments. Used in land-based gas turbines, turboexpander fasteners, and heat exchanger assemblies. Excellent creep resistance under sustained loading at elevated temperatures ensures long-term reliability in power generation equipment.

Oil & Gas

Waspaloy hex bolts qualified for downhole tooling components, wellhead equipment, and high-pressure valve systems in refineries and petrochemical plants. Resists sulfidation and hot corrosion in sulfur-containing environments encountered in oil refining and petrochemical processing. Hot Gas Expander components operating up to 760°C (1400°F) are typically forged in Waspaloy.

Industrial Processing

Waspaloy hex bolts in high-temperature furnace components, heat treating equipment, chemical processing systems, and thermal reactor assemblies. Withstands combustion environments due to excellent resistance to relaxation at elevated temperatures, combined with appreciable oxidation resistance. Used in hot gas expander equipment where temperatures reach up to 760°C (1400°F).

Marine & Naval

Waspaloy hex bolts in naval propulsion systems, marine gas turbines, and shipboard high-temperature exhaust systems. Excellent performance in salt spray environments found in gas turbine engine service. Resists oxidation and corrosion in marine atmospheres while maintaining high-temperature strength in propulsion applications.

Airframe Assemblies

Waspaloy hex bolts used in airframe assemblies and missile systems where high strength and corrosion resistance are required at elevated temperatures. Suitable for structural applications in hypersonic vehicles and high-performance aircraft operating at extreme thermal conditions.

International Standards & Global Designations – Waspaloy Hex Bolts

RAYCHIN LIMITED manufactures Waspaloy hex bolts from vacuum induction melted (VIM) and vacuum arc remelted (VAR) or electroslag remelted (ESR) material conforming to the most widely used national and international specifications. All material is traceable to the mill.

Designation	Standard / Specification	Description
UNS N07001	Unified Numbering System	Standard designation for Waspaloy alloy chemistry
W.Nr 2.4654	German Standard (DIN)	German designation for Waspaloy
AMS 5704 / 5706 / 5707 / 5708 / 5709	Aerospace Material Specification	Specifications for Waspaloy bar, rod, wire, and forgings
AMS 5544	Aerospace Material Specification	Specification for Waspaloy plate, sheet, and strip
ASTM B637 / ASME SB637	Standard Specification	Precipitation-hardening nickel alloy bars, forgings, and forging stock
ISO 9723 / 9724 / 9725	International Organization for Standardization	Nickel and nickel alloy bars
AECMA PrEN 2193-2195, 2406, 2958-2960, 3220	European Association of Aerospace Industries	Aerospace material specifications for Waspaloy
MSRR 7192	Rolls-Royce Material Specification	Rolls-Royce approved material designation
ASME B18.2.1	American Society of Mechanical Engineers	Square and hex bolts (inch series)
ISO 4014 / DIN 931	International Organization for Standardization / Deutsches Institut für Normung	Hex head bolts – metric series (partially threaded)

UNS N07001 W.Nr 2.4654 AMS 5704 AMS 5708 AMS 5709 AMS 5544 ASTM B637 ISO 4014 DIN 931

Chemical Composition (Weight %) – Waspaloy (UNS N07001)

Our Waspaloy hex bolts are produced from vacuum induction melted (VIM) and vacuum arc remelted (VAR) material conforming to the following limits per AMS 5708, AMS 5544, and ASTM B637 standards.

Waspaloy (UNS N07001) – Nickel-Based Superalloy

Element	Min %	Max %	Typical
Nickel (Ni)	Balance	Balance	58 (approx)
Chromium (Cr)	18.0	21.0	19.0-19.5
Cobalt (Co)	12.0	15.0	13.5
Molybdenum (Mo)	3.5	5.0	4.3
Titanium (Ti)	2.75	3.25	3.0
Aluminum (Al)	1.20	1.60	1.4-1.5
Iron (Fe)	—	2.0	1.0 max
Manganese (Mn)	—	1.0	0.1 max
Silicon (Si)	—	0.75	0.15 max
Carbon (C)	0.02	0.10	0.05-0.08
Boron (B)	0.003	0.01	0.005-0.006
Zirconium (Zr)	0.02	0.12	0.05
Copper (Cu)	—	0.50	0.1 max
Sulfur (S)	—	0.030	0.010 max
Phosphorus (P)	—	0.030	0.015 max

Metallurgical note: Waspaloy is a precipitation-hardening nickel-based superalloy strengthened through the formation of gamma prime (γ') phase Ni₃(Al, Ti) in a disordered FCC matrix (γ). The alloy is produced by vacuum induction melting (VIM) and vacuum arc remelting (VAR) or electroslag remelting (ESR) to ensure high purity and consistent properties. High-temperature strength is obtained from solid solution strengthening elements (molybdenum, cobalt, chromium) and aging elements (aluminum, titanium). The alloy maintains excellent strength and stability at temperatures exceeding those of Alloy 718, making it the preferred choice for critical rotating applications up to 650°C (1200°F).

Complete Mechanical & Physical Properties – Waspaloy (MPa / ksi)

Waspaloy hex bolts are supplied in fully heat-treated condition per AMS specifications. Data represent typical values based on industry standards.

Mechanical Properties – Waspaloy (Fully Heat-Treated Condition)

Test Temperature	0.2% Yield Strength (MPa)	0.2% Yield Strength (ksi)	Tensile Strength (MPa)	Tensile Strength (ksi)	Elongation (%)
Room Temperature	899	130.4	1304	189.2	24.5
538°C (1000°F)	812	117.8	1175	170.4	22.0
649°C (1200°F)	784	113.8	1137	164.9	31.9
760°C (1400°F)	706	102.4	822	119.2	32.8
816°C (1500°F)	517	75.0	633	91.9	39.7
871°C (1600°F)	357	51.8	456	66.2	48.0

Physical Properties – Waspaloy

Property	Metric	Imperial	Notes
Density	8.16-8.19 g/cm³	0.295-0.296 lb/in³	At 20°C
Melting Range	1330-1360°C	2425-2480°F	Approximate range
Elastic Modulus (E)	211-213 GPa	30.6-30.9 x 10³ ksi	At 20°C
Thermal Expansion (21-93°C)	12.2 μm/m·°C	6.8 μin/in·°F	21-93°C range
Thermal Expansion (21-538°C)	13.9 μm/m·°C	7.7 μin/in·°F	21-538°C range
Thermal Conductivity (600°C)	19.1 W/m·K	125 BTU·in/(hr·ft²·°F)	At 600°C
Electrical Resistivity	1.20 μΩ·m	722 Ω·circ mil/ft	At 20°C
Hardness (Heat Treated)	34-44 HRC	34-44 HRC	Fully heat-treated

High‑Temperature Performance of Waspaloy Hex Bolts

Waspaloy is renowned for exceptional high-temperature strength and stability, maintaining useful mechanical properties up to 870°C (1600°F) in oxidizing atmospheres. The alloy can be used at temperatures up to 650°C (1200°F) for critical rotating applications and up to 870°C (1600°F) for simpler applications. Waspaloy exhibits superior strength compared to Alloy 718 at temperatures exceeding 650-705°C (1200-1300°F). The alloy maintains approximately 60% of its room temperature tensile strength at 815°C (1500°F), with yield strength of 517 MPa (75 ksi). Excellent creep resistance under sustained loading at elevated temperatures ensures long-term reliability in gas turbine and aerospace applications.

Elevated Temperature Capabilities

Property	Value	Notes
Maximum Service Temperature (critical rotating)	650°C (1200°F)	For critical rotating applications
Maximum Service Temperature (general)	870°C (1600°F)	For simpler, non-critical applications
Creep Resistance	Excellent	Superior under sustained loading at elevated temperatures
Fatigue Resistance	Excellent	Outstanding durability under cyclic loading conditions
Stress Relaxation	Excellent	Resistance to relaxation at elevated temperatures
Oxidation Resistance	Excellent up to 870°C	Resistant to scaling and oxidation

High-Temperature Comparison – Waspaloy vs. Alloy 718

Property	Waspaloy	Alloy 718	Notes
Strength at 650°C (1200°F)	Excellent	Good	Waspaloy superior above 650°C
Maximum Service Temperature	870°C (1600°F)	700°C (1300°F)	Waspaloy higher temperature capability
Creep Resistance	Excellent	Good	Waspaloy better for long-term high-temperature exposure

Note: Waspaloy excels in applications requiring maximum strength at elevated temperatures, particularly in gas turbine hot sections where alloy 718 would be inadequate.

Exceptional Corrosion Resistance of Waspaloy Hex Bolts

Waspaloy offers outstanding corrosion resistance in high-temperature oxidizing and sulfidizing environments, making it suitable for the most demanding applications in gas turbines, aerospace, and chemical processing.

Oxidation Resistance: Outstanding resistance to scaling and oxidation up to 870°C (1600°F). Performs well in combustion environments and under frequent thermal cycling conditions. Forms protective oxides (Cr₂O₃, Al₂O₃, TiO₂) that provide excellent high-temperature corrosion resistance.
Sulfidation Resistance: Superior performance in sulfur-containing environments found in gas turbine engine service. Resists attack by sulfur compounds at elevated temperatures.
Hot Corrosion: Good resistance to hot corrosion in the presence of combustion products. Designed to operate at high temperatures up to 700°C in aggressive environments.
Salt Spray Environments: Performs well in salt spray environments found in gas turbine engine service.
Atmospheres: Good performance in atmospheres encountered in gas turbine engine service.
Solution Treated Condition: Solution treated material offers the best corrosion resistance.
Type 1 & 2 Hot Corrosion: Resistance to hot corrosion type 1 (815-955°C) and type 2 (595-815°C) where salts may be present.
Bimetallic Corrosion: Can be safely connected to other nickel-based superalloys, stainless steels, and titanium alloys with appropriate precautions.

Manufacturing Standards – Waspaloy Hex Bolts

All Waspaloy hex bolts are manufactured and tested to meet the following standards:

AMS 5704AMS 5708AMS 5709AMS 5544ASTM B637ASME SB637ISO 4014DIN 931ASME B18.2.1NAS1802MS16995EN 10204 3.1/3.2

We offer surface finishes: plain (as-machined), chemical cleaned, passivated. Silver plating per AMS 2410 available for anti‑seize. Controlled solution and precipitation heat treatment processes per AMS 5704/5705 schedules ensure optimal mechanical properties. NADCAP accredited heat treatment processes. Specialized thread rolling and surface treatment for high-temperature applications. Full traceability and destructive/non‑destructive testing available (UT, FPI, MPI). AS9100 and ISO 9001:2015 certified quality management. ISO 13485 certified for medical applications with cleanroom packaging available. Build-to-print specials to customer specifications are available.

Why RAYCHIN LIMITED – The Waspaloy Hex Bolt Authority

High-temperature superalloy expertise: Decades of experience with Waspaloy and nickel-based superalloys. We ensure precise heat treatment: solution treatment (1950-2000°F), stabilization (1550°F/4hrs), and precipitation hardening (1400°F/16hrs) per AMS 5704/5705 schedules. In‑house PMI verifies chemistry of every heat. Our Waspaloy hex bolts achieve full traceability and certified properties. Metallurgical engineering support for high-temperature applications.

Global certifications: ISO 9001, AS9100D, ISO 13485 (medical), PED, API Q1, NADCAP accredited processes. All hex bolts supplied with EN 10204 3.1/3.2 certifications, material test reports, and NACE compliance when required. Complete in-house manufacturing control from mill to finished product.

Precision heading & thread rolling: CNC cold heading and precision thread rolling ensure accurate hex head geometry and thread form per ASME, ISO, and DIN standards. Class 2A/3A/6g thread fit. 100% inspection available. Special tooling for Waspaloy's unique machining characteristics – the alloy is more difficult to machine than other nickel-based superalloys due to low heat dissipation and high surface strain rate.

Custom solutions: Special head configurations, proprietary drives, non‑standard lengths, and tailored packaging. In-house metallurgical laboratory and failure analysis capabilities. Application-specific design consultation for extreme environments. Flexible capacity for prototype and production volumes. Cleanroom wash and packaging available for sensitive applications.

Contact the Waspaloy hex bolt experts

Request a quotation for Waspaloy hex bolts, hex head cap screws, heavy hex bolts – any standard (ASME B18.2.1, ISO 4014, DIN 931, NAS) – any condition (solution treated, stabilized, precipitation hardened), any quantity. Global delivery. Mechanical data in MPa/ksi available for all products.

sales@ray-chin.com | +86 534 2166 566

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