Fused Quartz Powder: High purity material leads a new trend in technology manufacturing
Fused quartz powder is a kind of inorganic, nonmetallic material obtained from high-purity silica compounds by a special process.
Fused quartz powder is a kind of inorganic, nonmetallic material obtained from high-purity silica compounds by a special process.
Manganese diboride is a compound with the molecular formula MnB2 and molecular weight of 76.56.
High-purity vanadium carbide powder refers to high-purity vanadium carbide powder.
High Purity Titanium Carbonitride (TiCN) Powder is a high-purity composite ceramic material composed of the elements titanium (Ti), carbon (C), and nitrogen (N).
High-purity vanadium hydride powder, its chemical formula is VH₂; in metal hydrides, the common hydride form of vanadium may be polyhydride or complex hydride; these compounds may have a more complex chemical formula and structure.
Boron phosphide powder is a high-refractive reddish-brown crystal.
Calcium Hydride CaH2 Powder refers to calcium hydride powder.
Zirconium hydride powder is an inorganic compound composed of zirconium and hydrogen.
Lanthanum Nitride LaN Powder is a compound powder composed of lanthanum and nitrogen elements.
Hafnium Hydride HfH ₂ Powder is a compound powder composed of hafnium (Hf) and hydrogen (H).
High-purity titanium dioxide powder, also known as titanium dioxide. It is a white powdery substance, mainly composed of titanium dioxide (TiO2), with very high purity and stability.
Hexagonal boron nitride powder is a typical III-V group compound composed of nitrogen and boron atoms.
Nano Aluminium Oxide Powder Al2O3 Nanoparticles has a stable crystal phase, high hardness, and good dimensional stability, which can be widely used in various plastic, rubber, and ceramic products. About Nano Aluminium Oxide Powder Al2O3 Nanoparti
Zirconium hydride powder is an inorganic compound composed of zirconium and hydrogen.
As two important nanomaterial forms, nano-tin powder and nano-tin alloy particles (low melting point alloys) have unique physical and chemical properties and have broad application prospects in many fields. Although they are similar in name, there are significant similarities and differences in composition, properties, and applications.