3N高纯实验室研究用铁靶材

Elevate your research with our high-purity iron targets, meticulously crafted for demanding applications in thin-film deposition. Purity levels exceeding 99.99% ensure superior film quality and reproducibility, ideal for advanced materials research, semiconductor characterization, and other critical scientific investigations. Contact us to discuss your specific research needs and explore customization options.

Note: Purity, shape, thickness, and dimensions can all be customized,Please feel free to contact us for more details.

Iron (Ferrum), a metallic element with atomic number 26, is a silvery-white lustrous metal with a density of 7.86 g/cm³ and a melting point of 1539 °C.  Besides its conductivity (electrical and thermal) and malleability, iron is ferromagnetic, meaning it is attracted to magnets.  Important iron compounds include iron(III) oxide (Fe₂O₃), iron(II,III) oxide (Fe₃O₄), iron(III) chloride (FeCl₃), and various iron complexes.

Iron targets are materials used in laboratory, industrial, and research settings, typically made from pure iron or iron alloys.  Their primary applications involve serving as targets for nuclear physics experiments, materials science research, and the production of medical radioisotopes.  The main uses of iron targets are:

Nuclear Physics Experiments: Iron targets are used in various nuclear reaction studies, such as neutron capture, proton bombardment, and neutron excitation experiments. These experiments help us understand nuclear reactions, nuclear structure, and nuclear properties.

Radioisotope Production: Exposing iron targets to neutron beams can transmute them into other elements, producing radioisotopes. These isotopes have widespread applications in medical imaging, radiotherapy, and nuclear medicine.

Materials Science Research: Iron targets can be used to study material properties, such as radiation damage behavior, radiation effects, and radiation hardening.

Regarding color, iron targets are typically silvery-white or gray because they are primarily composed of metallic iron or iron alloys, which themselves do not possess a distinct color.  However, in nuclear physics experiments, iron targets may be subjected to neutron or proton bombardment, potentially leading to nuclear reactions under certain conditions and causing material alteration. This, however, typically does not result in a color change. Color changes are usually related to a substance's chemical composition and structure, not solely its base components.

To receive a prompt quotation and expedited delivery, please provide complete target material specifications. This includes details on purity, dimensions, tolerance requirements, and any other technical specifications.