Crucible For Pyrolytic Graphite

Über Pyrolytische Graphit Tiegel

Stanford Advanced Materials (SAM) is a company that supplies pyrolytic graphite crucibles. It produces and delivers crucibles with volumes from 1 to 200 ml for unfused pyrolytic graphite material, and larger sizes are available for coated products.

Pyrolytic graphite crucibles exhibit durability, design stability and precise manufacturing.

Pyrolytic graphite crucibles are used in the production of jewellery and in processes that heat various elements, for example, moulds and rods. Pyrolytic Graphite (PG) is a synthetic material produced by chemical vapour deposition (CVD).

Pyrolytic graphite can be used as a coating material for substrates such as conventional graphite. The PG coating is produced by a CVD process using high-purity gas. Consequently, the surface of PG-coated products exhibits high carbon purity and strength and is nearly free of porosity.

Pyrolytischer Graphit-Tiegel Hauptmerkmale:

Resistance to High Temperatures: Pyrolytic graphite crucibles are engineered to sustain high temperatures. They are used in processes including crystal growth, sublimation and material vapourisation.

Chemical Inertness: The chemical inertness of pyrolytic graphite prevents reactions with processed materials. This property ensures that the process and the resulting materials retain their purity.

Thermal Conductivity: Pyrolytic graphite crucibles exhibit high thermal conductivity. This facilitates efficient and uniform heat distribution in the material being processed.

Dimensional Stability: The crucibles maintain their structural integrity and dimensions under high thermal load. They provide consistent performance during high-temperature processes.

Purity and Contamination Control: Pyrolytic graphite crucibles prevent contamination during material processing. This is significant for applications such as crystal growth and material vapour deposition.

Anwendungen von Pyrolytischen Graphittiegeln:

Crystal Growth: Pyrolytic graphite crucibles are used in the growth of high-purity crystals, semiconductors and advanced materials. They require precise temperature control and a contamination-free environment.

Vapour Deposition: These crucibles are employed in material vapourisation processes. They enable the deposition of thin films on substrates in sectors such as electronics and optics.

Materials Research: Researchers use pyrolytic graphite crucibles in high-temperature experiments. They support the synthesis, sublimation and analysis of modern materials.

Semiconductor Manufacturing: The crucibles are used in the production of semiconductors and other electronic components. They require high purity and temperature stability.

Aerospace: Pyrolytic graphite crucibles are utilised in aerospace and defence applications. They are employed in advanced material processing and high-temperature testing.

Qualitätssicherung bei Pyrolytischen Graphittiegeln:

Pyrolytic graphite crucibles are sourced from recognised manufacturers. Each crucible is subjected to detailed quality control to ensure compliance with industry standards.