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Tungsten Screws

Tungsten Screws 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 Screws 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 Screws 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 Screws
SKU: 0

Tungsten Screws · Socket Head · Hex Head · Flat Head · Set Screws · Inch & Metric · Pure W & Heavy Alloys

Tungsten Screws: High-Density High-Temperature Precision Screws for Extreme Environments

RAYCHIN LIMITED is a leading manufacturer of Tungsten Screws – a comprehensive range of precision fasteners produced from refractory tungsten metal and tungsten heavy alloys, delivering exceptional high-temperature strength, highest density (up to 19.3 g/cm³), radiopacity, and reliable performance in the most demanding aerospace, nuclear, defense, and high-temperature processing applications. Our product line encompasses all major screw types including tungsten socket head cap screws, tungsten hex head screws, tungsten flat head screws, and tungsten set screws – all manufactured to the highest precision standards with full traceability. Tungsten is a refractory metal with the highest melting point of all metals (3422°C) and exceptional mechanical properties at extreme temperatures. Tungsten heavy alloys (W-NiFe, W-NiCu) offer enhanced machinability while maintaining high density (16.85-18.85 g/cm³) and strength. Tungsten screws retain approximately 65-80% of their room-temperature strength at elevated temperatures, far surpassing ordinary steel. Their high density (more than twice that of steel) provides exceptional counterweight capabilities and radiation shielding effectiveness within a limited volume, making them ideal for space-constrained applications. 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 ASTM B777, AMS-T-21014, MIL-T-21014, AMS 7725, ISO 4762, DIN 912, and ASME B18.3. Whether you require tungsten screws for rocket engine assemblies, nuclear reactor core fastenings, gyroscope balancing, or high-temperature vacuum furnaces, RAYCHIN delivers precision, quality, and full traceability. All mechanical properties are presented in MPa and ksi (kilopound per square inch).

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Tungsten Screws – Comprehensive Product Range

Socket Head Cap Screws

Tungsten socket head cap screws feature precision hexagon socket drives per ASME B18.3 (inch series) and ISO 4762 / DIN 912 (metric series). The internal hex drive allows for high tightening torques and secure installation in confined spaces. Available in diameters from M3 to M24 (#0 to 1"). Ideal for aerospace fastening, high-temperature furnace assemblies, and radiation shielding applications where exceptional density and temperature resistance are required. Cylindrical head design provides high torque capacity and resists stripping.

Hex Head Cap Screws

Tungsten hex head cap screws feature external wrenching hex heads with washer facing per ASME B18.2.1 (inch series) and ISO 4017 / DIN 933 (metric series). The washer-facing provides larger bearing surface area for superior clamping pressure. Available in diameters from M3 to M24 (#0 to 1"). Essential for high-pressure flange connections in nuclear and chemical processing applications where corrosion resistance and high-temperature strength are critical.

Flat Head Screws (Countersunk)

Tungsten flat head screws (countersunk screws) are designed to seat flush with or below the surface of the mating material, providing a smooth, aerodynamic surface while maintaining high density. Available with 82° (inch series), 90° (metric), and 100° (aerospace) countersink angles. Drive options include hex socket and slotted. Used in aircraft control surface balancing, spacecraft structural attachments, and applications requiring flush mounting with high mass concentration.

Set Screws (Grub Screws)

Tungsten set screws (grub screws) are headless, fully threaded fasteners designed to be tightened against a mating component for permanent positioning or balancing. Available with multiple point styles: cup point (ISO 4029 / DIN 916), cone point (ISO 4027 / DIN 914), flat point (ISO 4026 / DIN 913), and dog point (ISO 4028 / DIN 915). Precision hexagon socket drive. Tungsten's high density makes these screws ideal for gyroscope balancing screws, turbine blade-specific screws, and rotating component balancing where precise mass distribution is critical.

Pure Tungsten Screws (99.95% W)

Pure tungsten screws are produced from 99.95% pure tungsten, offering the highest density (19.3 g/cm³) and the highest melting point (3422°C). These screws provide maximum radiation shielding effectiveness and extreme high-temperature capability in vacuum or inert atmospheres. Used in nuclear reactor core fastenings, rocket engine components, and ultra-high-temperature furnace hardware where maximum density and purity are required. Note: Pure tungsten is brittle at room temperature and requires specialized handling.

Custom & Non-Standard Tungsten Screws

Need special head configurations, proprietary drives, non‑standard lengths, or unique thread forms? RAYCHIN engineers design and produce custom tungsten screws to your exact specifications – any grade (Pure W, Class 1-4 heavy alloys) – with full material traceability. Available with ground finishes and custom tolerances. Prototype to production volumes supported. Cleanroom packaging available for nuclear and medical applications.

Critical Applications of Tungsten Screws

Aerospace & Defense

Tungsten screws are extensively used in aerospace applications for their combination of high density and mechanical strength, allowing reduced physical size of components and greater control of weight distribution for propellers, inertial systems, and fluid control systems. Used in rocket engine components, high-temperature fasteners, radiation shielding, and aircraft control surface balancing. Tungsten's high mass also makes these screws radiopaque, allowing them to block radiation and show up well on X-rays. Their high melting point and fatigue resistance enable them to withstand extreme temperatures and vibration environments in aviation engine turbines and combustion chambers.

Nuclear & Radiation Shielding

Tungsten screws provide excellent radiation shielding due to tungsten's high density and radiopacity – even better than lead. These screws block radiation effectively and show up clearly on X-rays. Used in nuclear reactor core fastenings, pressure vessel flange connections, and radiation shielding structures. In the high-temperature, high-pressure reactor environment, the strength retention rate of tungsten alloy screws ensures connection stability, reducing the risk of leaks. Their high density effectively absorbs gamma rays and neutron radiation.

High-Temperature Vacuum Furnaces

Tungsten screws are used in high-temperature vacuum furnace assemblies due to tungsten's exceptional high-temperature strength and stability. Pure tungsten maintains useful mechanical properties up to 2800°C in vacuum or inert atmospheres, making it suitable for heating elements, furnace hot zones, and heat treatment fixtures. Tungsten screws are essential for securing furnace components where ordinary steel fasteners would fail. Their low thermal expansion coefficient maintains dimensional stability under extreme thermal cycling.

Automotive & Motorsport

Tungsten screws are used for dynamic balance and vibration control in high-performance vehicles. In tire balance counterweighting, tungsten alloy screws are fixed to the rim, adjusting weight distribution with their high density to reduce vibrations during high-speed driving – a common application in luxury cars and racing vehicles, enhancing ride stability and comfort. They are also used in engine crankshafts, suspension systems, and transmission systems for counterweighting, improving handling and optimizing weight distribution.

Medical & Imaging

Tungsten screws play a role in the medical community for their low magnetic properties as well as their radiopaque properties. Used as X-ray markers, in medical imaging equipment (CT scanners, X-ray tubes), and in radiation therapy devices. Their high density and biocompatibility ensure imaging resolution and long-term safety. Tungsten's non-toxicity makes it suitable for certain medical applications where lead cannot be used.

Balancing & Inertial Systems

Tungsten screws are ideal for balancing rotating parts in high-performance machinery, precision instruments, and aerospace applications. Tungsten's high density allows for maximum mass in minimum volume, enabling precise weight distribution for gyroscopes, crankshafts, drive shafts, and flywheels. In drone and robotics fields, tungsten screws are used for center-of-gravity adjustment in small drones (e.g., gimbal systems for aerial photography drones) and balance counterweights in industrial robot joints, enhancing motion smoothness and control precision.

International Standards & Global Designations – Tungsten Screws

RAYCHIN LIMITED manufactures tungsten screws from vacuum arc melted (VAR) or powder metallurgy processed material conforming to the most widely used national and international specifications. All material is traceable to the mill with complete certifications.

Grade	Designation	Standard / Specification	W Content	Density (g/cm³)
Pure Tungsten	99.95% W	ASTM B760, AMS 7890	99.95% min	19.3
Class 1 Heavy Alloy	W-NiFe / W-NiCu	ASTM B777, AMS-T-21014, MIL-T-21014, AMS 7725	90% W	16.85-17.25
Class 2 Heavy Alloy	W-NiFe / W-NiCu	ASTM B777, AMS-T-21014, MIL-T-21014, AMS 7725	92.5% W	17.15-17.85
Class 3 Heavy Alloy	W-NiFe / W-NiCu	ASTM B777, AMS-T-21014, MIL-T-21014, AMS 7725	95% W	17.75-18.35
Class 4 Heavy Alloy	W-NiFe	ASTM B777	97% W	18.25-18.85

ASTM B777 ASTM B760 AMS-T-21014 MIL-T-21014 AMS 7725 ISO 4762 ISO 4017 ISO 4026-4029 DIN 912 DIN 933 ASME B18.3

Chemical Composition (Weight %) – Tungsten & Tungsten Alloys

Our tungsten screws are produced from vacuum arc melted (VAR) or powder metallurgy processed material conforming to the limits of applicable ASTM and AMS specifications.

Pure Tungsten (ASTM B760)

Element	Min %	Max %
Tungsten (W)	99.95	—
Iron (Fe)	—	0.01
Oxygen (O)	—	0.01
Carbon (C)	—	0.01
Nitrogen (N)	—	0.01
Hydrogen (H)	—	0.001

Tungsten Heavy Alloys (ASTM B777)

Grade	W %	NiFe Binder %	NiCu Binder %	Density (g/cm³)
Class 1	90	10% (Ni:Fe 7:3)	10% (Ni:Cu 6:4)	16.85-17.25
Class 2	92.5	7.5% (Ni:Fe 7:3)	7.5% (Ni:Cu 6:4)	17.15-17.85
Class 3	95	5% (Ni:Fe 7:3)	5% (Ni:Cu 6:4)	17.75-18.35
Class 4	97	3% (Ni:Fe 7:3)	—	18.25-18.85

Metallurgical note: Tungsten is a refractory metal with the highest melting point of all metals (3422°C) and a density of 19.3 g/cm³ – more than twice that of steel. Pure tungsten exhibits a body-centered cubic crystal structure and exceptional high-temperature strength, but is brittle at room temperature and difficult to machine. Tungsten heavy alloys are produced by liquid phase sintering of tungsten powder with nickel-iron or nickel-copper binders, creating a composite microstructure of tungsten grains embedded in a ductile matrix. This structure provides improved machinability and ductility while maintaining high density. The nickel-iron binder system offers higher strength and is magnetic, while nickel-copper binder provides non-magnetic properties – essential for certain medical and electronic applications. Higher tungsten content (Class 4 > Class 1) increases density but reduces ductility and machinability. All tungsten alloys are susceptible to oxidation above 500°C and require protective atmospheres or coatings for high-temperature service in air. Tungsten's radiopacity exceeds that of lead, making it ideal for radiation shielding applications. The equicohesive temperature of tungsten is approximately 2300 K (2027°C), below which powder metallurgy tungsten shows higher tensile strength than arc-melted tungsten, with the opposite true above this temperature.

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

Tungsten screws are supplied in sintered, annealed, or stress-relieved condition per applicable ASTM specifications. Data represent typical values based on industry standards. Tungsten alloys retain approximately 65-80% of their strength at elevated temperatures.

Mechanical Properties – Tungsten Heavy Alloys (ASTM B777)

Grade	Binder	Tensile Strength (MPa)	Tensile Strength (ksi)	0.2% Yield Strength (MPa)	0.2% Yield Strength (ksi)	Elongation (%)	Hardness (HRC max)
Class 1 (90% W)	NiFe	758 min	110 min	517 min	75 min	5 min	32
Class 1 (90% W)	NiCu	648 min	94 min	517 min	75 min	2 min	32
Class 2 (92.5% W)	NiFe	758 min	110 min	517 min	75 min	5 min	33
Class 2 (92.5% W)	NiCu	648 min	94 min	517 min	75 min	2 min	33
Class 3 (95% W)	NiFe	724 min	105 min	517 min	75 min	3 min	34
Class 3 (95% W)	NiCu	648 min	94 min	517 min	75 min	1 min	34
Class 4 (97% W)	NiFe	689 min	100 min	517 min	75 min	2 min	35

Pure Tungsten – Mechanical Properties

Condition	Tensile Strength (MPa)	Tensile Strength (ksi)	Elongation (%)	Hardness
Sintered (Soft)	550-620	80-90	—	360 HV
Worked (Hard)	1920	278	—	500 HV

High-Temperature Mechanical Properties – Class 3 (95% W) Alloy

Temperature (°C)	Tensile Strength (MPa)	0.2% Yield Strength (MPa)	Elongation (%)	Strength Retention (%)
20	724-760	517-550	3-5	100
500	550-600	450-480	4-6	75-80
800	400-450	330-360	5-7	55-60
1000	260-300	200-230	6-8	35-40
1200	160-190	110-130	8-10	22-25

High-temperature testing in vacuum or inert atmosphere. Mechanical properties degrade above 800°C due to microstructural changes in the binder phase. Pure tungsten maintains strength to much higher temperatures – up to 2800°C.

High-Temperature Mechanical Properties – Pure Tungsten

Temperature (K)	Temperature (°C)	Tensile Strength (MPa)
1600	1327	~250
2000	1727	~150
2300	2027	~100
2700	2427	~60

Data based on research for arc-melted and powder metallurgy processed tungsten. The equicohesive temperature of tungsten is approximately 2300K (2027°C). Below this temperature, powder metallurgy tungsten shows higher tensile strength than arc-melted tungsten; above this temperature, the opposite is true.

Physical Properties – Tungsten Alloys

Property	Pure Tungsten	Class 3 (95% W)	Steel (Reference)
Density (g/cm³)	19.3	17.75-18.35	7.9
Melting Point (°C)	3422	~3400 (W matrix)	1370-1530
Elastic Modulus (GPa)	411	300-350	205
Poisson's Ratio	0.28	0.28	0.29
Thermal Expansion (20-1000°C) μm/m·°C	4.5	5.0-6.0	12-14
Thermal Conductivity (W/m·K)	173-174	120-150	43-46
Electrical Resistivity (μΩ·m)	0.054	0.12-0.18	0.10-0.20
Magnetic Permeability	Non-magnetic	NiFe alloys: magnetic; NiCu alloys: non-magnetic	Ferromagnetic
Radiopacity	Superior to lead – excellent X-ray and gamma radiation blocking		Poor

High‑Temperature Performance of Tungsten Screws

Tungsten is the refractory metal with the highest melting point (3422°C) and exceptional high-temperature strength and stability in vacuum or inert atmospheres. Pure tungsten maintains useful mechanical properties up to 2800°C (5072°F) in non-oxidizing environments, making it suitable for extreme temperature applications in rocket engines, plasma-facing components, and high-temperature furnaces. Tungsten heavy alloys have lower maximum service temperatures (typically 800-1000°C) due to the presence of lower-melting binder phases (Ni-Fe, Ni-Cu) which begin to soften and weaken at elevated temperatures. Tungsten alloys retain approximately 65-80% of their room-temperature strength at elevated temperatures, far surpassing ordinary steel.

Elevated Temperature Capabilities

Property	Pure Tungsten	Class 3 (95% W)
Maximum Service Temperature (Vacuum/Inert Gas)	2800°C (5072°F)	1000°C (1832°F)
Maximum Service Temperature (Oxidizing)	500°C (932°F) – limited	500°C (932°F) – limited
Strength Retention at 500°C	>85%	75-80%
Strength Retention at 800°C	>70%	55-60%
Recrystallization Temperature	1200-1400°C	800-1000°C
Equicohesive Temperature	~2300 K (2027°C)
Melting Point	3422°C	~3400°C (matrix)

Note: Tungsten begins to oxidize rapidly above 500°C in air. All high-temperature applications require vacuum, inert atmosphere, or protective coatings such as MoSi₂, SiC, or Ir.

Corrosion Resistance of Tungsten Screws

Tungsten has unique corrosion characteristics that vary significantly between pure tungsten and tungsten heavy alloys, and depend strongly on temperature and environment.

Oxidation Behavior

Tungsten begins to oxidize rapidly at temperatures above 500°C in air, forming volatile tungsten trioxide (WO₃). This leads to rapid material loss and catastrophic failure. Therefore, tungsten screws are not suitable for high-temperature applications in air without protective coatings (such as MoSi₂, SiC, or Ir). In vacuum or inert gas atmospheres (argon, helium, hydrogen), tungsten maintains its strength and integrity to very high temperatures.

High-Temperature Water Corrosion Resistance

Material	Temperature (°C)	Corrosion Rate (mm/year)	Conditions
Pure Tungsten	180	0.001-0.047	Flowing water, 400 ppb O₂, pH 6-7, 200h
Pure Tungsten	260	0.141-0.214	Flowing water, 400 ppb O₂, pH 6-7, 200h
W-Re Alloys (W-2%Re)	320	Up to 1.656	Flowing water, 400 ppb O₂, pH 6-7, 200h
CrN Coated Tungsten	320	~0.004	Flowing water, 400 ppb O₂, pH 6-7, 200h
Heavy Alloys	260	0.141-0.214	Severe corrosion at 260°C

Data from corrosion tests in flowing water with dissolved oxygen content of 400 ppb and pH 6-7 at 180, 260, and 320°C for 200 hours.

Chemical Resistance

Medium	Temperature	Corrosion Rate
Mineral Acids (HCl, H₂SO₄, HNO₃)	Room temperature	Slow attack, dissolves in HF+HNO₃ mixture
Alkalis (NaOH, KOH)	Room temperature	Resistant
Molten Metals (Li, Na, K, Mg, Zn, Ag)	High temperature	Resistant to attack, low solubility
Water	All temperatures	Resistant at low temperatures; accelerated above 180°C
Hydrogen	Up to 3000°C	Compatible, no reaction
Nitrogen	Above 1500°C	Forms nitrides, embrittlement

Oxidation Resistance: Poor above 500°C in air – requires protective atmosphere or coating for high-temperature service.
High-Temperature Water: Pure tungsten shows low corrosion rates at 180°C (0.001-0.047 mm/year) but significantly higher rates at 260°C (0.141-0.214 mm/year). CrN coatings provide excellent protection at 320°C (0.004 mm/year).
Acid Resistance: Tungsten is slowly attacked by most mineral acids at room temperature, and rapidly dissolved by a mixture of hydrofluoric and nitric acids. Tungsten heavy alloys may suffer galvanic corrosion between tungsten grains and the binder phase in aqueous electrolytes – not recommended for wet chemical environments without protective measures.
Alkali Resistance: Good resistance to alkalis at room temperature.
Liquid Metal Compatibility: Excellent resistance to attack by many molten metals (Li, Na, K, Mg, Zn, Ag) – valuable for nuclear and metallurgical applications.
Hydrogen Compatibility: Fully compatible with hydrogen up to very high temperatures – used in hydrogen furnace applications.
Radiation Shielding: Tungsten's high density makes it highly radiopaque – even better than lead. Tungsten screws block radiation effectively and show up clearly on X-rays, making them ideal for medical imaging markers and radiation shielding applications.
Non-Toxicity: Tungsten is non-toxic and non-radioactive (in its natural isotopic composition), making it safe for medical and food processing applications.

Manufacturing Standards – Tungsten Screws

All tungsten screws are manufactured and tested to meet the following standards:

ASTM B777ASTM B760AMS-T-21014MIL-T-21014AMS 7725ISO 4762ISO 4017ISO 4026-4029DIN 912DIN 933ASME B18.3EN 10204 3.1/3.2

We offer surface finishes: as-sintered, ground, polished, or coated with oxidation-resistant coatings (MoSi₂, SiC, Ir) for high-temperature air service. Controlled sintering and heat treatment processes per ASTM specifications ensure consistent mechanical properties. Specialized CNC grinding and diamond machining for accurate screw geometry – tungsten alloys require diamond tooling and specialized techniques due to their extreme hardness and brittleness. Class 6g/2A thread fit. 100% inspection available including dimensional inspection, hardness testing, density verification, and non-destructive examination. Full traceability and material test reports (MTR) with mill certifications available. 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 Tungsten Screw Authority

Specialized refractory metal expertise: Decades of experience with tungsten, molybdenum, and other refractory metals. We ensure precise processing to maintain material purity and high-temperature properties. In‑house PMI and density testing verify chemistry and quality of every heat. Our tungsten screws achieve full traceability and certified properties. Metallurgical engineering support for extreme-temperature, nuclear, and defense applications.

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

Precision manufacturing: CNC grinding and diamond machining ensure accurate screw geometry with precision head configurations and socket drives. Threads are precision ground. 100% inspection available. Special tooling for tungsten's unique machining characteristics – requires diamond abrasives, rigid setups, and careful process control to prevent cracking and edge chipping.

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 high-temperature, nuclear, medical, and defense applications. Flexible capacity for prototype and production volumes. Cleanroom packaging available for nuclear and medical applications.

Contact the tungsten screw experts

Request a quotation for tungsten screws, socket head cap screws, hex head screws, flat head screws, set screws – any standard (ISO 4762, ISO 4017, ISO 4026-4029, DIN 912, DIN 933, ASME B18.3) – any grade (Pure W, Class 1-4 heavy alloys) – any quantity. Global delivery. Mechanical and high-temperature data in MPa/ksi available for all products. Custom oxidation-resistant coatings available for high-temperature air service. Medical-grade radiopaque tungsten available.

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

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