Technology Metals / Refractory Metals

Key materials for high-tech industry: powders, compounds, semifinished products and customer-specific parts from tungsten, molybdenum, tantalum, niobium, rhenium, and their alloys.

Technology Metals

Advanced Ceramics

Fascinating materials for technology and medicine: powders and parts from aluminum oxide, aluminum titanate, silicon carbide, silicon nitride, zirconium oxide, further ceramic materials, and SOFC powders.

Advanced Ceramics

AMPERIT® Thermal Spray Powders

Technologically advanced, high quality thermal spray materials for demanding applications in aerospace, automotive, oil & gas or power generation markets: carbides, oxides, MCrAlYs, molybdenum, metals and alloys.
Amperit Thermal Spray Powders
AMPERWELD® Powders for Welding Applications

Outstanding metal powders for applications like PTA- and laser cladding: carbides and borides, atomized powder and pure metals.


Amperweld Welding Powders
AMPERSINT® and AMPERPRINT® Atomized Metal Powders and Alloys
High-quality gas- and water atomized metal powders for innovative, future-oriented powder metallurgical applications.


Ampersint Atomized Metal Powders

Recycling and Metal Processing Services

Tungsten, molybdenum, tantalum, niobium, and rhenium recycling. High-precision and CNC-controlled machines for customer-specific long forging, rolling and extruding of pure and alloyed materials.
Refractory Metal Recycling

News:

News archive
Monday, 09/25/2017

H.C. Starck Designs, Engineers and Fabricates Furnace Hot Zones

NEWTON, Mass., USA, September 25, 2017 – H.C. Starck‘s furnace group has delivered a uniquely engineered, high temperature refractory metal hot zone to one of its furnace customers. Collaborating with the customer on this project, H.C. Starck demonstrated its focused engineering resources and dedicated manufacturing team which has been used to design and engineer fabricated products for the furnace industry. With H.C. Starck’s portfolio of refractory metals, the team fabricated a 1600°C hot zone designed to operate in a vacuum, with certain inert gases or in a reducing atmosphere. By simulating the temperature of each layer, H.C. Starck’s engineering team ensured the proper materials were applied throughout the hot zone.

Thursday, 08/10/2017

H.C. Starck announces new AMPERPRINT® metal powder program for additive manufacturing

Laufenburg, August 10th, 2017 - The German metal powder producer H.C. Starck Surface Technology and Ceramic Powders GmbH, based in Laufenburg and Goslar, is introducing its new AMPERPRINT® range of gas atomized metal powders which is specifically designed for additive manufacturing. In alignment with its customers’ needs and latest market developments, H.C. Starck offers high-alloyed AMPERPRINT® nickel, cobalt and iron based powders of all major standard compositions as well as customized solutions. The company’s high-end technology concept enables that production can be ramped up efficiently while keeping physical and chemical powder properties consistent.