MIL-Z-399D TY-II CL-1, Zirconium Metal Powder Wetted
ZIRCONIUM METAL, POWDER, >99% -200 mesh, APS 2.5 +/- 1.0 µM, (Conforming to MIL-Z-399D, Type II, Class I, packed in water), Zr
| Product |
MIL-Z-399D TY-II CL-1, Zirconium Metal Powder
|
| CAS No. |
7440-67-7 |
| Appearance |
Powder (Packing in a Water Bottle) |
| Purity |
≥99%, ≥99.9%, ≥97%
(Other purities are also available) |
| APS |
1-5 µM, 10-53 µM (Can be customized), Ask for other available size range. |
| Ingredient |
Zr |
| Product Code |
NCZ-MIL-101ZA |
| Molecular Weight |
91.22 g/mol |
| Density |
6.49 g/cm3 |
| Synonyms |
Zirconium |
|
7440-67-7 |
|
Zircat |
|
circonio |
|
Zirconium powder |
|
zirconio |
|
Zirkonium |
|
Zirconium compounds |
|
UNII-C6V6S92N3C |
|
Zirconium, elemental |
MIL-Z-399 TY-II CL-1 Zirconium Metal Powder is readily available in most volumes. Nanochemazone manufactures this product to various standard grades, including Military Specification (Mil-Spec), ACS, Reagent, Technical, Food, Agricultural, Pharmaceutical, and Optical Grades. It also complies with USP, EP/BP (European Pharmacopoeia/British Pharmacopoeia), and relevant ASTM testing standards. Custom and standard packaging options are available, along with comprehensive technical and safety (MSDS) data. For lead time and pricing details, please contact us.
Zirconium Powder – High-Performance Material for Advanced Applications
Key Features:
- Exceptional Hardness & Strength: Zirconium exhibits ultra-high hardness, outstanding mechanical strength, and excellent heat transfer properties, making it a top choice for high-performance applications.
- Superior Luminous & Nuclear Properties: With remarkable luminescence and a minimal thermal neutron absorption cross-section, zirconium is widely used in nuclear and energy-related fields.
- Strong Affinity for Gases: Zirconium readily absorbs hydrogen, nitrogen, and oxygen. When exposed to oxygen at 1000°C, it undergoes significant volumetric expansion, demonstrating its strong reactivity.
- High-Temperature Reactivity: Zirconium powder is highly combustible and reacts directly with dissolved oxygen, nitrogen, and hydrogen at elevated temperatures, making it suitable for specialized high-energy applications.
- Electron Emission Capability: At high temperatures, zirconium efficiently emits electrons, further enhancing its role in advanced technological applications.
Applications:
- Aerospace & Defense: Used in military-grade materials, bulletproof alloys, and advanced coatings for high-performance systems.
- Nuclear & Energy Sector: Integral to nuclear reactors due to its low neutron absorption, zirconium is used as a coating alloy for uranium fuel rods.
- Pyrotechnics & Metallurgy: Applied in flash compositions, fireworks, metallurgical deoxidizers, and specialized chemical reagents.
- Superhard Materials: Enhances the durability and strength of metal alloys for extreme environments.
Packaging:
- Securely sealed in water to prevent oxidation.
- Available in durable plastic bottles to maintain material integrity.
For customized requirements and bulk orders, contact Nanochemazone today!
Specification:
Material as per Mil-Z-399D
Grades Available:
Type I, Class 1
Type I, Class 2
Type I, Class 3
Type II, Class 1
Type II, Class 2
Type II, Class 3
*Custom Requirements [Purity and/or granulation]: Please inquire
We Manufacture this Product
Storage Conditions:
Store in an airtight, sealed container. Keep away from light and moisture at room temperature.
Please contact us for customization and price inquiry
Email: contact@nanochemazone.com
Note: We supply different size ranges of Nano and micron as per the client’s requirements and also accept customization in various parameters.
ZIRCONIUM (Granular or Powdered) as per MIL-Z-399D
Specification: MIL-Z-399D (1 October 1971)
Supersedes: MIL-Z-399C (19 February 1969)
Company: Chemazone Inc.
Chemical Requirements
| Requirement |
Type I |
Type II Class 1 |
Type II Class 2 |
Type II Class 3 |
| Total Zirconium, % min |
96.0 |
94.0 |
95.0 |
95.0 |
| Calcium, % max |
0.05 |
0.10 |
0.05 |
0.05 |
| Iron, % max |
0.30 |
0.20 |
0.03 |
0.05 |
| Aluminum, % max |
0.10 |
0.30 |
0.15 |
0.10 |
| Hydrogen, % max |
0.20 |
0.20 |
0.20 |
— |
| Chloride (as Cl), % max |
0.03 |
— |
— |
— |
| Silicon, % max |
0.10 |
— |
— |
— |
| Tin, % max |
0.75 |
— |
— |
— |
| Ignition Gain, % |
— |
30.2 – 33.0 |
30.2 – 33.0 |
30.2 – 33.0 |
Particle Size Requirements – Type I Zirconium
| Sieve (By Weight) |
Class 1 |
Class 2 |
Class 3 |
| Thru 20 mesh |
99.0 min |
— |
— |
| Thru 60 mesh |
5 max |
— |
— |
| Thru 80 mesh |
— |
100 |
— |
| Thru 100 mesh |
— |
98 min |
— |
| Thru 170 mesh |
— |
— |
100 |
| Thru 200 mesh |
— |
50 max |
98 min |
| Thru 325 mesh |
— |
25 max |
— |
| Sub-sieve <20 microns |
— |
— |
10.0 max |
| Sub-sieve <10 microns |
— |
2.0 max |
— |
Particle Size Requirements – Type II Zirconium
| Sieve (By Weight) |
Class 1 |
Class 2 |
Class 3 |
| Thru 120 mesh |
100 |
100 |
99.5 min |
| Thru 200 mesh |
— |
50 max |
98 min |
| Thru Buckbee Mears 26 Sieve (20µm) |
99 min |
99 min |
— |
| Sub-sieve <9 microns |
85 min |
85 min |
— |
| Sub-sieve <3 microns |
70–90 |
70–90 |
— |
| Sub-sieve <0.75 microns |
12–30 |
12–30 |
— |
| Average Particle Size (µm) |
1.5–3.5 |
1.7–2.3 |
2.0–4.0 |
