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Zirconium Hex Bolts

Commercially pure Zirconium Hex Bolts, also known as zirconium 702, are most well-known for their superior corrosion resistance in some of the harshest environments that include:
• Hydrochloric Acid • Sulfuric Acid • Formic Acid • Nitric Acid • Acetic Acid
It is also a metal that offers industry unique properties. It does not absorb neutrons, making it ideal for use in nuclear power and at low temperatures it is superconductive, making it ideal for super magnets.

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

Hydrochloric Acid Resistance
Zirconium is also resistant to most organic media and is considered one of the most corrosion resistant materiala in virtually all acetic acid solutions.
For strong acids and severe corrosion
Good mechanical & physical properties
Excellent corrosion resistance

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RAYCHIN LIMITED

Name: Zirconium Hex Bolts
SKU: 0

Zirconium Hex Bolts · Hex Head · Heavy Hex · Fully Threaded · Zr 702 / Zr 705

Zirconium Hex Bolts: Unmatched Corrosion Resistance for Extreme Chemical & Nuclear Environments

Zr 702 (UNS R60702) · Zr 705 (UNS R60705) · Zr 704 (UNS R60704) | ASTM B493 · ASME SB493 · ISO 4014 · DIN 931 · ASME B18.2.1

RAYCHIN LIMITED is a world‑leading manufacturer of Zirconium hex bolts – precision hex head bolts produced from commercially pure zirconium and zirconium alloys. Zirconium offers an exceptional combination of properties: outstanding corrosion resistance in hydrochloric acid (HCl), sulfuric acid (H₂SO₄), and nitric acid (HNO₃), comparable to tantalum; low neutron absorption for nuclear applications; excellent biocompatibility; and good high‑temperature strength up to 800°C. Our product line encompasses all major hex bolt types including hex head bolts, heavy hex bolts, fully threaded hex bolts, and structural hex 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. Whether you require Zirconium hex bolts for chemical reactors, nuclear fuel assemblies, or pharmaceutical processing equipment, RAYCHIN delivers precision, quality, and full traceability. All mechanical properties are presented in MPa and ksi.

zirconium hex boltszirconium hex head boltszirconium heavy hex boltsZr 702 hex boltsZr 705 hex boltsUNS R60702 boltsASTM B493 hex boltszirconium alloy boltsnuclear grade boltscorrosion resistant boltschemical processing boltszirconium hex fastenerszirconium structural bolts

Zirconium Hex Bolts – Complete Product Range

Hex Head Bolts (ASME B18.2.1 / ISO 4014)

Zirconium hex head bolts manufactured to ASME B18.2.1 (inch series) and ISO 4014 / DIN 931 (metric series). Available with UNC, UNF, 8UN threads (inch) and coarse, fine threads (metric). Diameters from #0 to 1½" (inch) and M2 to M48 (metric). Standard lengths up to 200mm. Fully threaded or partial thread options. Ideal for chemical reactors, heat exchangers, and nuclear fuel assemblies requiring exceptional resistance to HCl and H₂SO₄. Zr 702 bolts offer corrosion rates <0.13 mm/year in boiling sulfuric acid. Zr 705 bolts provide enhanced strength for pressure vessel applications.

Heavy Hex Bolts (ASME B18.2.1 / ISO 4017)

Zirconium heavy hex bolts feature larger head dimensions for increased bearing area and higher clamping loads. Conform to ASME B18.2.1 (inch heavy hex) and ISO 4017 / DIN 933 (metric fully threaded). Widely used in pressure vessel flanges, heat exchanger connections, and heavy structural applications in chemical processing and nuclear facilities. Available in Zr 702, Zr 704, and Zr 705. Zr 705 offers tensile strength up to 550 MPa with excellent corrosion resistance.

Fully Threaded Hex Bolts (DIN 933 / ISO 4017)

Zirconium fully threaded hex bolts manufactured to DIN 933 and ISO 4017. Thread runs the full length of the shank. Ideal for applications requiring threading close to the head or where adjustable engagement is needed. Available in all standard diameters. Used in chemical plant supports, marine hardware, and pharmaceutical processing equipment where full thread engagement is required.

Structural Hex Bolts (ASTM A320 / A325 Grade)

Zirconium structural hex bolts designed for heavy construction applications. Manufactured to ASTM F3125 (similar to Zr 705) with controlled tightening characteristics. Available with heavy hex heads and short thread lengths per structural standards. Used in bridges, offshore platforms, and heavy industrial structures where corrosion resistance and long‑term reliability are critical.

NAS / AN / MS Hex Bolts

Zirconium hex bolts manufactured to aerospace standards NAS 463, AN 3-20, and MS 20004-20024. Available in inch sizes with UNJF-3A threads and drilled heads for safety wiring. Compliant with aerospace quality requirements including full traceability and material certifications. Used in defense applications, missile systems, and spacecraft where corrosion resistance and reliability are critical.

Custom & Non‑Standard Hex Bolts

Need special head configurations, extra‑long lengths, non‑standard thread forms, or proprietary markings? RAYCHIN engineers design and produce custom Zirconium hex bolts to your exact specifications – any grade (Zr 702, Zr 705, Zr 704), any condition (annealed, stress relieved), with full material traceability. Prototype to production volumes supported. Cleanroom wash and packaging available for pharmaceutical and semiconductor applications.

Critical Applications of Zirconium Hex Bolts

Chemical Processing

Zirconium hex bolts are extensively used in chemical reactors, heat exchangers, distillation columns, and piping systems handling aggressive media such as hydrochloric acid (HCl), sulfuric acid (H₂SO₄), nitric acid (HNO₃), acetic acid, and formic acid. Zirconium exhibits corrosion rates <0.13 mm/year in boiling sulfuric acid up to 70% concentration and in hydrochloric acid up to 37% at elevated temperatures. This performance is unmatched by any other engineering metal except tantalum. Used in chlor‑alkali plants, dye manufacturing, polymer production, and specialty chemical synthesis.

Nuclear Industry

Zirconium hex bolts are the material of choice for nuclear fuel assemblies, reactor core structures, and spent fuel storage racks. Zirconium's extremely low thermal neutron absorption cross‑section (0.18 barns) makes it transparent to neutrons, essential for maintaining nuclear chain reactions. Nuclear grade Zircaloy hex bolts with hafnium content <0.01% are specified for reactor applications. Used in fuel rod cladding support structures, spacer grids, and control rod guide tubes.

Pharmaceutical & Medical

Zirconium hex bolts in pharmaceutical processing equipment, surgical instruments, and medical implants. Zirconium is completely biocompatible, non‑toxic, and not rejected by the human body. It exhibits excellent corrosion resistance in sterile environments and resists attack from cleaning agents and sterilization processes. Used in high‑purity processing systems for antibiotic production, vaccine manufacturing, and implantable medical devices.

Aerospace & Defense

Zirconium hex bolts in aerospace components exposed to high‑temperature corrosive environments. Zirconium maintains good mechanical strength up to 800°C and resists oxidation in moderate temperature applications. Used in rocket engine components, exhaust systems, and defense equipment requiring corrosion resistance combined with light weight (density 6.5 g/cm³).

Marine & Offshore

Zirconium hex bolts in shipbuilding, submarine components, and offshore platforms where seawater corrosion resistance is critical. Zirconium's corrosion rate in seawater is <0.01 mm/year, outperforming titanium and nickel alloys. Used in seawater handling systems, heat exchangers, and underwater instrumentation housings where long‑term reliability is essential.

Power Generation

Zirconium hex bolts in geothermal power plants, steam turbine condensers, and balance-of-plant applications. Zirconium's resistance to high‑temperature water, steam, and brine solutions makes it ideal for geothermal and supercritical water environments. Used in turbine blade fasteners, condenser tube sheets, and heat exchanger supports.

International Standards & Global Designations – Zirconium Hex Bolt Materials

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

Grade / Alloy	UNS	Werkstoff Nr.	Standards / Specifications (Material only)
Zr 702 (Commercial Pure)	R60702	2.8040	ASTM B493 (Forgings), B550 (Bar/Rod), B551 (Plate/Sheet), ASME SB493, SB550, SB551
	Commercially pure zirconium, highest corrosion resistance, excellent fabricability
	ISO 10270 (nuclear grade), NACE MR0175 / ISO 15156-3 compliant
	DIN 17868, JIS H 4751, GB/T 8769 (Zr-1), GOST 22267
Zr 704 (Zr-Sn)	R60704	2.8045	ASTM B493, B550, B551, ASME SB493, SB550, SB551
	Zirconium-tin alloy (1.0-2.0% Sn), improved strength and creep resistance
	ISO 10270, NACE MR0175 compliant
	DIN 17868, JIS H 4751, GB/T 8769 (Zr-3)
Zr 705 (Zr-Nb)	R60705	2.8075	ASTM B493, B550, B551, ASME SB493, SB550, SB551
	Zirconium-niobium alloy (2.0-3.0% Nb), highest strength, good corrosion resistance
	ISO 10270, NACE MR0175 compliant
	DIN 17868, JIS H 4751, GB/T 8769 (Zr-5), AMS 7880
Nuclear Grades (Zircaloy)	R60802 (Zircaloy-2)	2.8045	ASTM B353 (Nuclear Grade), ASTM B350, ASME SB353
	R60804 (Zircaloy-4)	2.8045	Zr-1.5Sn-0.2Fe-0.1Cr, Hf <0.01%
	ISO 10270, low neutron absorption, nuclear fuel assembly components
	DIN 17869, GB/T 8768 (Zr-2, Zr-4)

UNS R60702 UNS R60705 ASTM B493 ASME SB493 ISO 4014 DIN 931 ASME B18.2.1 NAS 463 AN 3-20 MS 20004 NACE MR0175

Chemical Composition (Weight %) – Zirconium Alloys for Hex Bolts

Our Zirconium hex bolts are produced from material conforming to the limits of applicable ASTM, ASME, and ISO standards. Nuclear grades available with hafnium <0.01%.

Commercial Zirconium Grades – ASTM B493 / B550 / B551

Element	Zr 702 (R60702)	Zr 704 (R60704)	Zr 705 (R60705)
Zirconium + Hafnium	≥ 99.2%	≥ 97.5%	≥ 95.5%
Hafnium (Hf), max	4.5%	4.5%	4.5%
Iron + Chromium (Fe+Cr)	≤ 0.20%	0.2 – 0.4%	≤ 0.20%
Tin (Sn)	—	1.0 – 2.0%	—
Niobium (Nb)	—	—	2.0 – 3.0%
Hydrogen (H), max	0.005%	0.005%	0.005%
Nitrogen (N), max	0.025%	0.025%	0.025%
Carbon (C), max	0.05%	0.05%	0.05%
Oxygen (O), max	0.16%	0.18%	0.18%

Nuclear Grade Zirconium – ASTM B353 (Hf <0.01%)

Element	Zircaloy-2 (R60802)	Zircaloy-4 (R60804)
Tin (Sn)	1.20 – 1.70%	1.20 – 1.70%
Iron (Fe)	0.07 – 0.20%	0.18 – 0.24%
Chromium (Cr)	0.05 – 0.15%	0.07 – 0.13%
Nickel (Ni)	0.03 – 0.08%	—
Oxygen (O)	0.08 – 0.15%	0.08 – 0.15%
Hafnium (Hf)	<0.01%	<0.01%
Zirconium (Zr)	Balance	Balance

Metallurgical note: Zirconium is a reactive metal that spontaneously forms a stable, adherent zirconium oxide (ZrO₂) layer in air or oxidizing media. This oxide film is self‑healing if damaged and provides exceptional corrosion resistance in most acids, including hydrochloric, sulfuric, and nitric acids. Zirconium has a hexagonal close-packed (α) structure at room temperature, with a melting point of 1855°C. The addition of niobium (2-3%) in Zr 705 increases strength through solid solution strengthening while maintaining excellent corrosion resistance. Nuclear grades (Zircaloy) are specified with hafnium content below 0.01% due to hafnium's high neutron absorption cross-section. Zirconium is non‑magnetic and exhibits good ductility even at cryogenic temperatures.

Complete Mechanical & Physical Properties – Zirconium Alloys for Hex Bolts (MPa / ksi)

Zirconium hex bolts are supplied in appropriate conditions (annealed or stress relieved) per ASTM B493, ASTM B550, and customer specifications. Data represent typical values based on industry standards.

Commercial Zirconium – Mechanical Properties (minimum values)

Grade	Tensile Strength (MPa)	Tensile Strength (ksi)	0.2% Yield Strength (MPa)	Elongation (%)
Zr 702 (R60702)	≥ 380	≥ 55	≥ 205	≥ 16
Zr 704 (R60704)	≥ 415	≥ 60	≥ 240	≥ 14
Zr 705 (R60705)	≥ 550	≥ 80	≥ 380	≥ 16

Nuclear Grade Zirconium – Mechanical Properties (minimum values)

Grade	Tensile Strength (MPa)	Tensile Strength (ksi)	0.2% Yield Strength (MPa)	Elongation (%)
Zircaloy-2 (R60802) Annealed	≥ 413	≥ 60	≥ 241	≥ 20
Zircaloy-4 (R60804) Annealed	≥ 413	≥ 60	≥ 241	≥ 20

High‑Temperature Mechanical Properties – Zr 702 (representative)

Test Temperature	Tensile Strength (MPa)	Tensile Strength (ksi)	0.2% Yield Strength (MPa)
20°C (70°F)	380	55	205
200°C (392°F)	270	39	140
400°C (752°F)	210	30	110
600°C (1112°F)	150	22	80
800°C (1472°F)	90	13	45

Note: Zirconium maintains useful strength up to 800°C in inert or reducing atmospheres. In air, oxidation accelerates above 600°C; protective coatings may be required for long-term service above 600°C.

Physical Properties – Zirconium

Property	Zr 702 / Zr 705
Density (g/cm³)	6.51 (Zr 702) – 6.64 (Zr 705)
Density (lb/in³)	0.235 – 0.240
Melting Point (°C)	1852 – 1855
Melting Point (°F)	3365 – 3371
Elastic Modulus (GPa)	99.2
Elastic Modulus (ksi)	14,400
Poisson's Ratio	0.33-0.34
Thermal Expansion (20-100°C) μm/m·°C	5.8 – 6.0
Thermal Conductivity (W/m·K)	22.0 – 22.6
Electrical Resistivity (μΩ·m)	0.40 – 0.45
Magnetic Permeability	<1.0001
Neutron Absorption Cross-section (barns)	0.18 (very low)

High‑Temperature Performance of Zirconium Hex Bolts

Zirconium and its alloys maintain useful mechanical properties up to 800°C (1472°F), making them suitable for high‑temperature chemical processing and nuclear applications. Zirconium has a melting point of 1855°C, which is higher than steel and titanium. The alloy retains significant strength at elevated temperatures, as shown in the high‑temperature data. However, zirconium's high‑temperature service in air is limited by oxidation: above 600°C, the protective ZrO₂ layer begins to undergo phase transformations that may affect its protective properties. In inert atmospheres or reducing environments, zirconium can be used at much higher temperatures. Zircaloy‑4 and Zr‑2.5Nb alloys are specifically designed for high‑temperature service in nuclear reactors, where they operate at 300-400°C in high‑pressure water environments. For applications requiring extended service above 600°C in air, protective coatings (such as Cr or CrSi coatings) can significantly enhance oxidation resistance.

Elevated Temperature Capabilities

Property	Zr 702	Zr 705
Maximum Service Temperature (continuous, inert)	800°C (1472°F)	800°C (1472°F)
Maximum Service Temperature (continuous, air)	400-500°C (752-932°F)	400-500°C (752-932°F)
Short-term Exposure (air, up to 600°C)	Acceptable	Acceptable
Oxidation Limit (long-term)	500°C (932°F)	500°C (932°F)
Creep Resistance	Moderate	Good (Nb addition)

Note: Above 600°C in air, zirconium oxidizes forming ZrO₂; the oxide remains adherent but may spall under thermal cycling. Protective coatings available for higher temperature air service.

Exceptional Corrosion Resistance of Zirconium Hex Bolts

Zirconium is renowned for its outstanding corrosion resistance in a wide range of aggressive media, often exceeding that of nickel alloys and titanium. The protective ZrO₂ oxide film is stable in both oxidizing and reducing acids, and self‑heals rapidly if damaged. Zirconium is virtually immune to pitting and crevice corrosion in chloride environments.

Hydrochloric Acid (HCl): Zirconium exhibits <0.13 mm/year corrosion rate in all concentrations of HCl up to boiling point. Even in 37% HCl, zirconium does not show substantial corrosion until 130°C (266°F). This performance is unmatched by any other engineering metal except tantalum. Hastelloy C276 experiences 288 mpy in 10% HCl at boiling point, while zirconium has nil corrosion.
Sulfuric Acid (H₂SO₄): Excellent resistance up to 70% concentration at boiling point. Corrosion rates <0.13 mm/year in most concentrations. Only tantalum equals zirconium's performance in sulfuric acid.
Nitric Acid (HNO₃): Outstanding resistance in all concentrations up to 90% and temperatures up to 200°C. Corrosion rate <0.1 mm/year.
Phosphoric Acid: Excellent resistance comparable to Alloy 20, with corrosion rates <0.13 mm/year.
Organic Acids: Completely resistant to acetic acid, formic acid, citric acid, and other organic acids at all concentrations and temperatures.
Alkalis: Zirconium is attacked by strong alkalis (NaOH >40%) at elevated temperatures. In such environments, nickel alloys or Monel are recommended.
Hydrofluoric Acid (HF): Rapidly attacked by HF and fluoride-containing media – not recommended.
Oxidizing Chlorides: Ferric or cupric chlorides greatly decrease corrosion resistance; upstream equipment must be controlled to prevent oxidizing contaminants.
Seawater: Corrosion rate <0.01 mm/year, outperforming titanium and nickel alloys. Immune to pitting and crevice corrosion in seawater.
Galvanic Corrosion: Zirconium is cathodic to most metals; can accelerate corrosion of active metals (steel, aluminum) in contact. Isolation or coating recommended.

Manufacturing Standards – Zirconium Hex Bolts

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

ASTM B493ASTM B550ASME SB493ASME SB550ISO 4014ISO 4017DIN 931DIN 933ASME B18.2.1NAS 463AN 3-20MS 20004NACE MR0175EN 10204 3.1/3.2

We offer surface finishes: plain (as‑machined), passivated, ground. Zirconium hex bolts can be supplied with certified material traceability, dimensional inspection reports, and mechanical test certificates. Our manufacturing processes include CNC heading, thread rolling, and heat treatment (annealing or stress relief). We specialize in custom configurations including non‑standard lengths, special head markings, and proprietary thread forms. Cleanroom packaging available for pharmaceutical and semiconductor applications. All bolts supplied with EN 10204 Type 3.1 or 3.2 certification. ISO 9001:2015 and AS9100D certified quality management system. Nuclear grades supplied with full traceability including hafnium content certification.

Why RAYCHIN LIMITED – The Zirconium Hex Bolt Authority

Zirconium metallurgy expertise: Decades of experience with commercial zirconium and nuclear-grade Zircaloy alloys. We ensure precise chemistry and mechanical properties per ASTM, ASME, and customer specifications. In‑house PMI verifies chemistry of every heat. Our zirconium hex bolts achieve full traceability and certified properties. Metallurgical engineering support for corrosion, nuclear, and high‑temperature applications.

Global certifications: ISO 9001, AS9100D (aerospace), ISO 13485 (medical), PED, API Q1, NADCAP accredited processes. All bolts supplied with EN 10204 3.1/3.2 certifications, material test reports, and NACE compliance when required. Nuclear grades supplied with hafnium analysis per ASTM B353. Complete in‑house manufacturing control from raw material to finished product.

Precision manufacturing: CNC heading and thread rolling ensure accurate bolt geometry per ASME, ISO, DIN, and NAS standards. Class 2A/3A/6g thread fit. 100% inspection available. Special tooling for zirconium's unique machining characteristics. In‑house passivation and cleaning capabilities for medical and semiconductor applications.

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 corrosion, nuclear, and high‑temperature challenges. Flexible capacity for prototype and production volumes. Cleanroom wash and packaging available for sensitive applications.

Contact the Zirconium hex bolt experts

Request a quotation for Zirconium hex bolts, hex head bolts, heavy hex bolts, fully threaded hex bolts – any standard (ASME, ISO, DIN, NAS, MS, AN) – any grade (Zr 702, Zr 705, Zircaloy-2, Zircaloy-4), any condition (annealed, stress relieved), any quantity. Global delivery. Mechanical data in MPa/ksi available for all products. Nuclear‑grade zirconium per ASTM B353 available with hafnium certification.

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