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Tungsten Nuts

Tungsten Nuts are known for their extreme high density; because of this unique attribute, they are often used for balancing rotating parts. Tungsten’s high mass also makes these fasteners radiopaque. This allows Tungsten Nuts to block radiation and show up well on x-rays – even better than lead. Another unique attribute of tungsten is its extrmely high melting point of 3420°C. The high temperature stability of Tungsten Bolts make them ideal for some of the hottest vacuum furnace environments. Beyond their high mass and temperature stability, tungsten fasteners are also very corrosion resistant.
Tungsten Nuts are usually made from tungsten alloys per ASTM B777, and range from 90% to 97% pure tungsten, alloyed with nickel and copper or nickel and iron. Fasteners can also be made from Commercially Pure (CP) Tungsten.

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

Ultra-high density & high temperature / strength stability
Very high density of 19.3 gm/cc
Radiopaque to x-rays and other radiation
High strength at extreme high temperatures (vacuum)
Excellent corrosion resistance

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RAYCHIN LIMITED

Name: Tungsten Nuts
SKU: 0

Tungsten Nuts · Hex · Heavy Hex · Lock · Flange · Jam · ASTM B777

Tungsten Nuts: Ultra‑High Density, Precision Threaded Fasteners for Extreme Environments

Pure Tungsten (99.95% W) · WNiFe (90-97% W) · WNiCu (90-97% W) | ASTM B777 · AMS-T-21014 · ISO 4032 · DIN 934 · ASME B18.2.2

RAYCHIN LIMITED is a world‑leading manufacturer of Tungsten nuts – precision threaded fasteners produced from pure tungsten and tungsten heavy alloys (WHA). Tungsten offers an extraordinary combination of properties: density up to 19.3 g/cm³ (2.5× that of steel), the highest melting point of all metals (3410°C), exceptional radiation shielding capability (radiopaque), and outstanding corrosion resistance. Nuts are critical components for securing bolted joints, and tungsten nuts provide unmatched performance in the most demanding applications. Our product line encompasses all major nut types including tungsten hex nuts, tungsten heavy hex nuts, tungsten lock nuts, tungsten jam nuts, and tungsten flange nuts – 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. Whether you require Tungsten nuts for aerospace counterweights, radiation shielding mounts, high‑temperature furnace fixtures, or oil & gas logging tools, RAYCHIN delivers precision, quality, and full traceability. All mechanical properties are presented in MPa and ksi.

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Tungsten Nuts – Complete Product Range

Hex Nuts (ASME B18.2.2 / ISO 4032 / DIN 934)

Tungsten hex nuts are the most common type for general fastening. Manufactured to ASME B18.2.2 (inch series) and ISO 4032 / DIN 934 (metric series). Available in diameters from #0 to 2" (inch) and M2 to M48 (metric). Standard thread classes 2B (inch) and 6H (metric). Tungsten's high density provides superior mass for balancing applications. Ideal for aerospace counterweights, radiation shielding fixtures, and high‑temperature furnace assemblies. Class 3 (95% W) offers the best combination of strength and density.

Heavy Hex Nuts (ASME B18.2.2 / ISO 4033)

Tungsten heavy hex nuts feature larger head dimensions for increased bearing area and higher clamping loads. Conform to ASME B18.2.2 (inch) and ISO 4033 / DIN 6330 (metric). Widely used in pressure vessel flanges, heat exchanger connections, and heavy structural applications. Available in Class 2, Class 3, and Class 4 alloys. Class 4 provides maximum density for radiation shielding in nuclear applications.

Lock Nuts (Nylon Insert & All-Metal)

Tungsten lock nuts provide prevailing torque to prevent loosening under vibration and dynamic loads. Available with nylon insert (DIN 985 / ISO 7040) for moderate temperatures and all-metal (DIN 980 / ISO 7042) for high‑temperature applications up to 500°C. Used in aerospace engines, defense systems, and oil & gas logging tools where vibration resistance is critical.

Jam Nuts (ASME B18.2.2 / ISO 4035)

Tungsten jam nuts (thin nuts) are used in applications where space is limited or as secondary locking nuts. Manufactured to ASME B18.2.2 and ISO 4035 / DIN 936. Available in all diameters. Ideal for precision instrument assemblies in radiation‑sensitive environments where high density must be concentrated in minimal space.

Flange Nuts (ISO 4161 / DIN 6923)

Tungsten flange nuts incorporate an integrated flange that distributes the clamping load over a wider area, eliminating the need for a separate washer. Available in metric series per ISO 4161 and DIN 6923. Ideal for high‑vibration applications such as power generation turbines and heavy industrial equipment where loosening must be prevented.

Custom & Non‑Standard Nuts

Need special configurations, non‑standard thread forms, proprietary locking features, or unusual dimensions? RAYCHIN engineers design and produce custom Tungsten nuts to your exact specifications – any grade (Pure W, Class 1-4, WNiFe, WNiCu), any condition (sintered, forged, heat treated), with full material traceability. Prototype to production volumes supported. Cleanroom packaging available.

Critical Applications of Tungsten Nuts

Aerospace & Defense

Tungsten nuts are extensively used in aircraft propeller counterweights, helicopter rotor balancing, inertial navigation systems, and missile guidance mechanisms. Tungsten's ultra‑high density (up to 19.3 g/cm³) allows precise mass distribution in space‑constrained components where weight balancing is critical. Lock nuts secure critical fasteners in high‑vibration environments. Used in commercial aircraft, military jets, helicopters, and spacecraft where reliability and performance are paramount.

Radiation Shielding & Nuclear

Tungsten nuts in radiation therapy equipment, nuclear medicine devices, and industrial non‑destructive testing (NDT) equipment. Tungsten's high atomic number (74) and density provide excellent gamma radiation attenuation, replacing lead in space‑constrained applications. The radiopaque property allows tungsten nuts to block radiation and show up clearly on X‑rays – even better than lead. Used in collimator assemblies, beam stoppers, and hot cell equipment.

High‑Temperature Vacuum Furnaces

Tungsten nuts in vacuum furnace hot zones, heating element supports, and heat shield attachments. Tungsten maintains strength at temperatures exceeding 2000°C in vacuum or inert atmospheres. The threaded design allows secure fastening of refractory metal components. Tungsten's low vapor pressure ensures no contamination of processed materials. Used in sintering furnaces, crystal growth equipment, and heat treatment facilities.

Oil & Gas Logging

Tungsten nuts in downhole logging tools and measurement‑while-drilling (MWD) equipment. Tungsten's high density provides the mass required for gravity‑based tool positioning in deviated wells. Excellent corrosion resistance in sour gas environments (NACE compliant) ensures long‑term reliability. Lock nuts prevent loosening in high‑vibration downhole conditions. Used in drill collar assemblies, logging tool housings, and sensor mounts.

Medical Devices & Imaging

Tungsten nuts in surgical robotics, radiation therapy machines, and diagnostic imaging equipment. Tungsten's radiopaque properties make it ideal for X‑ray positioning fixtures and calibration targets. Low magnetic permeability (<1.05) ensures compatibility with MRI environments. Used in linear accelerators, CT scanners, and precision surgical instruments.

High‑Precision Industrial Equipment

Tungsten nuts in centrifuges, precision grinders, and inertial navigation systems. Tungsten's high density and stability reduce vibration caused by equipment operation. Lock nuts maintain preload in high‑speed rotating assemblies. Used in high‑speed machinery, gyroscopes, and balancing equipment where mass concentration and reliability are critical.

International Standards & Global Designations – Tungsten Nut Materials

RAYCHIN LIMITED manufactures Tungsten nuts from material conforming to the most widely used national and international specifications. All material is traceable to the mill.

Grade / Alloy	Composition	Density (g/cm³)	Standards / Specifications (Material only)
Pure Tungsten	99.95% W min	19.3	ASTM B760, AMS 7725, AMS 7890, ISO 6848
DIN 17880, JIS H 4460, GB/T 4187, MIL-T-21014
Class 1 (WNiFe/Cu)	90% W + Ni/Fe or Ni/Cu	16.85 – 17.30	ASTM B777-19, AMS-T-21014, MIL-T-21014
AMS 7725 (for 90% WNiFe), NACE MR0175 compliant
Class 2 (WNiFe/Cu)	92.5% W + Ni/Fe or Ni/Cu	17.15 – 17.85	ASTM B777-19, AMS-T-21014, MIL-T-21014
AMS 7726 (for 92.5% WNiFe), DIN 17865, GB/T 26013
Class 3 (WNiFe/Cu)	95% W + Ni/Fe or Ni/Cu	17.75 – 18.35	ASTM B777-19, AMS-T-21014, MIL-T-21014
AMS 7727 (for 95% WNiFe), most common structural grade
Class 4 (WNiFe)	97% W + Ni/Fe	18.25 – 18.85	ASTM B777-19, AMS-T-21014, MIL-T-21014
Maximum density grade, used for radiation shielding
WLa (Lanthanated)	W + 1-2% La₂O₃	18.8 – 19.0	AMS 7891, ISO 6848, used for high‑temperature applications

ASTM B777 AMS-T-21014 AMS 7725 MIL-T-21014 ASME B18.2.2 ISO 4032 DIN 934 ISO 4033 DIN 6330 ISO 4035 DIN 936 ISO 4161 DIN 6923 DIN 985 ISO 7040 DIN 980 ISO 7042 NAS 679 AN 316 MS 21042 NACE MR0175

Chemical Composition (Weight %) – Tungsten Alloys for Nuts

Our Tungsten nuts are produced from material conforming to the limits of applicable ASTM, AMS, and customer specifications.

Pure Tungsten – ASTM B760 / AMS 7725

Element	Composition (wt%)
Tungsten (W)	≥ 99.95%
Impurities (total)	≤ 0.05%

Pure tungsten provides maximum density (19.3 g/cm³) and highest melting point (3410°C) but limited ductility.

Tungsten Heavy Alloys – ASTM B777 / AMS-T-21014

Element	Class 1 (90% W)	Class 2 (92.5% W)	Class 3 (95% W)	Class 4 (97% W)
Tungsten (W)	90.0 min	92.5 min	95.0 min	97.0 min
Nickel (Ni)	3.0 – 7.0	2.5 – 6.0	1.5 – 5.0	1.0 – 3.0
Iron (Fe) – for NiFe grades	1.0 – 4.0	0.8 – 3.5	0.5 – 3.0	0.5 – 2.0
Copper (Cu) – for NiCu grades	2.0 – 6.0	1.5 – 5.0	1.0 – 4.0	—
Others (total)	≤ 0.5	≤ 0.5	≤ 0.5	≤ 0.5

Tungsten heavy alloys combine high density with improved ductility and machinability. NiFe grades are slightly magnetic; NiCu grades are non-magnetic (μ < 1.05).

Complete Mechanical & Physical Properties – Tungsten Alloys for Nuts (MPa / ksi)

Tungsten nuts are supplied in appropriate conditions (sintered, heat treated, or forged) per ASTM B777, AMS-T-21014, and customer specifications.

Pure Tungsten – Mechanical Properties

Condition	Tensile Strength (MPa)	Tensile Strength (ksi)	0.2% Yield Strength (MPa)	Elongation (%)	Hardness (HV)
Forged / Swaged (stress relieved)	550-620	80-90	550	0-2	360-500
Hard (drawn)	1920	278	—	—	500

Tungsten Heavy Alloys (NiFe Binder) – Mechanical Properties (minimum values)

Grade / Condition	Tensile Strength (MPa)	Tensile Strength (ksi)	0.2% Yield Strength (MPa)	Elongation (%)	Hardness (HRC)
Class 1 (90% W) – Sintered	758	110	517	5	24-32
Class 1 – Forged	1100-1400	160-203	900-1200	3-8	32-38
Class 2 (92.5% W) – Sintered	758	110	517	5	24-33
Class 2 – Forged	1100-1450	160-210	900-1250	3-8	32-38
Class 3 (95% W) – Sintered	724	105	517	3	24-33
Class 3 – Forged	1050-1450	152-210	800-1350	2-6	32-38
Class 4 (97% W) – Sintered	689	100	517	2	24-35
Class 4 – Forged	1000-1400	145-203	800-1250	1-5	32-40

Tungsten Heavy Alloys (NiCu Binder) – Mechanical Properties (minimum values)

Grade / Condition	Tensile Strength (MPa)	Tensile Strength (ksi)	0.2% Yield Strength (MPa)	Elongation (%)	Hardness (HRC)
Class 1 (90% W) – Sintered	648	94	517	2	24-32
Class 2 (92.5% W) – Sintered	648	94	517	2	24-33
Class 3 (95% W) – Sintered	648	94	517	1	24-33
Class 4 (97% W) – Not applicable for NiCu binder	—	—	—	—	—

High‑Temperature Mechanical Properties – Pure Tungsten (representative)

Test Temperature	Tensile Strength (MPa)	Tensile Strength (ksi)	0.2% Yield Strength (MPa)
20°C (70°F)	550	80	550
500°C (932°F)	450	65	400
1000°C (1832°F)	350	51	250
1500°C (2732°F)	200	29	120
2000°C (3632°F)	100	15	50

Note: Tungsten maintains useful strength at temperatures exceeding 2000°C in vacuum or inert atmospheres. Above 500°C in air, tungsten oxidizes rapidly (WO₃ formation). Protective coatings required for air service above 500°C.

Physical Properties – Tungsten

Property	Pure Tungsten	WNiFe (Class 3)
Density (g/cm³)	19.3	17.75-18.35
Density (lb/in³)	0.697	0.641-0.663
Melting Point (°C)	3410	1450 (matrix) / 3410 (W)
Melting Point (°F)	6170	2642 (matrix) / 6170 (W)
Elastic Modulus (GPa)	411	320-360
Elastic Modulus (ksi)	59,600	46,000-52,000
Poisson's Ratio	0.28	0.28-0.30
Thermal Expansion (20-100°C) μm/m·°C	4.5	5.0-6.0
Thermal Conductivity (W/m·K)	173	120-150
Electrical Resistivity (μΩ·m)	0.054	0.12-0.15
Magnetic Permeability	<1.05	Ferromagnetic (NiFe) / Non-magnetic (NiCu)

High‑Temperature Performance of Tungsten Nuts

Tungsten is the most refractory metal with the highest melting point of all elements (3410°C). This exceptional high‑temperature capability makes tungsten nuts ideal for extreme thermal environments. Tungsten maintains useful mechanical properties at temperatures exceeding 2000°C in vacuum or inert atmospheres. It exhibits excellent creep resistance and thermal stability at high temperatures. Tungsten heavy alloys (WHA) retain significant strength up to 900°C, with the nickel-iron matrix providing good ductility up to moderate temperatures. For applications above 1000°C, pure tungsten or tungsten alloys with solid solution strengthening (W-Re, W-Mo) are recommended. Tungsten's low vapor pressure ensures no contamination of vacuum environments, making it essential for vacuum furnace hot zones and semiconductor processing equipment. The coefficient of thermal expansion (4.5 × 10⁻⁶/K) is low and matches well with many ceramic and refractory materials, reducing thermal stress in high‑temperature assemblies.

Elevated Temperature Capabilities

Property	Pure Tungsten	WNiFe Alloys
Maximum Service Temperature (vacuum/inert)	2400°C (4350°F)	900°C (1650°F)*
Recrystallization Temperature	1200-1400°C	900-1100°C
Oxidation Limit (air)	300-400°C (572-752°F)**	400-500°C (752-932°F)**
Creep Resistance	Excellent above 1500°C	Good up to 800°C

*WHAs are limited by the melting point of the NiFe matrix (~1450°C). **Tungsten oxidizes rapidly in air above 400°C forming volatile WO₃. Protective coatings required for air service above 500°C.

Corrosion Resistance of Tungsten Nuts

Tungsten exhibits good corrosion resistance in many environments, though its behavior differs significantly from common metals. The protective WO₃ oxide film is stable in oxidizing media but volatilizes at high temperatures. Tungsten heavy alloys (WNiFe) offer enhanced corrosion resistance in many industrial environments.

Atmospheric Corrosion: Tungsten is highly resistant to atmospheric corrosion at room temperature, forming a stable oxide layer. Suitable for outdoor applications in clean environments.
Acid Resistance: Tungsten is resistant to hydrochloric acid, sulfuric acid, nitric acid, and hydrofluoric acid at room temperature. Attack occurs in oxidizing acids at elevated temperatures. WNiFe alloys show good resistance in most non-oxidizing acids.
Alkali Resistance: Good resistance to most alkalis at room temperature. Attacked by molten alkalis and oxidizing alkaline solutions.
Molten Metals: Excellent resistance to molten metals including Li, Na, K, Mg, Zn, and Bi up to high temperatures. Used in liquid metal handling systems.
Liquid Metals: Good compatibility with liquid metals (Li, Na, K, Bi, Pb) at elevated temperatures, used in nuclear reactor coolant systems.
Halogens: Resistant to dry halogens at room temperature; attacked by moist halogens and at elevated temperatures.
High‑Temperature Oxidation: Tungsten oxidizes rapidly above 400°C in air forming volatile WO₃. For high‑temperature air service, protective coatings (MoSi₂, ZrO₂) or inert atmospheres are required.
Galvanic Corrosion: Tungsten is noble relative to most structural metals; can accelerate corrosion of active metals (steel, aluminum) in contact. Isolation or coating recommended.
Radiation Resistance: Tungsten maintains excellent corrosion resistance under radiation, making it ideal for nuclear applications.
Radiopacity: Tungsten's high density provides exceptional X‑ray and gamma radiation attenuation, making nuts ideal for imaging fixtures and shielding components.

Manufacturing Standards – Tungsten Nuts

All Tungsten nuts are manufactured and tested to meet the following standards:

ASTM B777AMS-T-21014AMS 7725MIL-T-21014ASME B18.2.2ISO 4032DIN 934ISO 4033DIN 6330ISO 4035DIN 936ISO 4161DIN 6923DIN 985ISO 7040DIN 980ISO 7042NAS 679AN 316MS 21042NACE MR0175EN 10204 3.1/3.2

We offer surface finishes: plain (as‑machined), ground, polished. Tungsten nuts can be supplied with certified material traceability, dimensional inspection reports, and mechanical test certificates. Our manufacturing processes include CNC tapping, thread milling, and heat treatment. We specialize in custom configurations including non‑standard thread forms, proprietary locking features, and special dimensions. Cleanroom packaging available for medical and semiconductor applications. All nuts supplied with EN 10204 Type 3.1 or 3.2 certification. ISO 9001:2015 and AS9100D certified quality management system.

Why RAYCHIN LIMITED – The Tungsten Nut Authority

Tungsten metallurgy expertise: Decades of experience with pure tungsten and tungsten heavy alloys. We ensure precise chemistry and mechanical properties per ASTM, AMS, and customer specifications. In‑house PMI verifies chemistry of every heat. Our tungsten nuts achieve full traceability and certified properties. Metallurgical engineering support for high‑temperature, radiation shielding, and high‑density applications.

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

Precision manufacturing: CNC tapping and thread milling ensure accurate thread geometry per ASME, ISO, DIN, and NAS standards. Class 2B/6H thread fit. 100% inspection available. Special tooling for tungsten's unique machining characteristics (brittleness, high hardness). In‑house passivation and cleaning capabilities.

Custom solutions: Special thread forms, proprietary locking features, non‑standard dimensions, and tailored packaging. In‑house metallurgical laboratory and failure analysis capabilities. Application‑specific design consultation for high‑temperature, radiation shielding, and balancing challenges. Flexible capacity for prototype and production volumes. Cleanroom wash and packaging available for sensitive applications.

Contact the Tungsten nut experts

Request a quotation for Tungsten nuts, hex nuts, heavy hex nuts, lock nuts, jam nuts, flange nuts – any standard (ASME, ISO, DIN, NAS, MS, AN) – any grade (Pure W, Class 1-4, WNiFe, WNiCu), any condition (sintered, forged, heat treated), any quantity. Global delivery. Mechanical data in MPa/ksi available for all products. Radiation shielding grades available.

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

Our team provides technical support in English, German, Mandarin, Japanese. Request a quote, sample requests, and material evaluation available.

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